key: cord-1002607-qy39a6x8
authors: Hmed, BenNasr; Serria, Hammami Turky; Mounir, Zeghal Khaled
title: Scorpion Peptides: Potential Use for New Drug Development
date: 2013-06-15
journal: J Toxicol
DOI: 10.1155/2013/958797
sha: 3a744992aeec8bfdcfc35035187791f3c8613f41
doc_id: 1002607
cord_uid: qy39a6x8

Several peptides contained in scorpion fluids showed diverse array of biological activities with high specificities to their targeted sites. Many investigations outlined their potent effects against microbes and showed their potential to modulate various biological mechanisms that are involved in immune, nervous, cardiovascular, and neoplastic diseases. Because of their important structural and functional diversity, it is projected that scorpion-derived peptides could be used to develop new specific drugs. This review summarizes relevant findings improving their use as valuable tools for new drugs development.

Recently, natural products are sought with great concern for their contributions in basic researches for new drugs discovery [1] . In 2004, Clardy and Walsh reappraised that 23% of newly generated drugs with approvals from the US Food and Drug Administration (FDA) relied on naturally occurring substances [2] . In this issue, many toxins with high specificity to target cellular elements are sought to be used against many diseases [3] . To optimize their contributions as medicinal tools, outlining these substances pharmacognosy is a necessity [4] . Several decades ago, scorpion originating-peptides have been isolated and purified and gained much attention for their attributes in specifically targeting various ions channels and cell membrane components. These arachnid secretions amount to 800 isolated and characterized native and recombinant biologically active polypeptides, and most of them are endowed with strongly stabilized structure, but their total number was estimated to reach 100 000 different ones [5] . Eventually, they might offer a promising scaffold for new drugs development [6] [7] [8] [9] [10] [11] . Thus, reviewing this emergent quality of scorpion derivatives constitutes the goal of this paper.

More than 1500 different known scorpion species have been described, around the world [12] . Classically, these arachnids are divided into two different groups, alongside with their geographical distribution: the old and the new world scorpions. The formers are essentially distributed in Africa, Asia, and Southern America. They are gathered into one family, the Buthidae clustering species with triangular-shaped sternum. However, new world scorpions, with a pentagonal-shaped sternum, are widely dispersed in Europe, Asia, and America. This suborder, namely, the Chactidae, comprises six different families (Scorpionidae, Diplocentridae, Chactidae, Vaejovidae, Bothriuridae, and Chaerilidae). It is worth mentioning that most dangerous species are comprised in the Buthidae family [13] [14] [15] . Unlike animals from the Buthidae family, which secrete potent mammalian-neurotoxic compounds, the Chactidae scorpions produce cells lytic and cytotoxic substances [16] [17] [18] . The occurrence of scorpion stings in humans was estimated to one million persons with a fatality risk of about 3‰, annually [19] . This hazardous accident is manifested by a broad range of symptoms varying from localized pain to harmful cardio-respiratory arrest and coma [19] . Important experimental and clinical findings outlined that the observed pathological signs, essentially, arose from the direct or indirect activities of multiple neurotoxins contained in the venom that disturbs cell membrane potentials, especially those of excitable cells (neurons, myocytes, and cardiomyocytes) [20, 21] . Expectedly, the newworld scorpion' envenoming induces much cellular lyses, necrosis, and ulcers such as those caused by Hemiscorpius lepturus [18] . To ameliorate the wound healing of scorpionism, patients have 2 Journal of Toxicology been categorized into different classes based on the root of systemic alterations they manifested. According to Goyffon and Chippaux, the severity of scorpion envenomation may be conveniently ranked into four grades: benign, moderate, severe, and worst. The exclusive medical care is based on antivenom sera injection. But when the antivenom administration is overdue, it seemed to lack efficacy, and cardiovascular and respiratory functions reanimations are recruited especially in critical cases [22] .

Scorpion venom is a mixture of polypeptides, nucleotides, lipids, mucoproteins, biogenic amines, and other unknown substances. The amounts of the produced compounds are variable and might rely on the animal specimen and the number of stings (and eventually of extractions). Noticeably, scorpion derivatives with enzymatic activities are less represented [23] . The total peptide contained in the venom did not exceed 5% of its dried weight [14] . This fraction contains polypeptides that are typically divided into different groups in relation to their structures, targetedsites, pharmacological relevance, and toxicities for mammals and/or insects and crustaceans [13, 24] . A broad range of bioactive peptides are already purified and characterized from scorpion venoms, with a total number estimated to approach 100 000 different ones, among them only 1% is mostly known [5] . These peptides clustering is still debated. However, regular families are yet under consideration. In conjunction with their targeted ion channels, four different families are considered: peptides modulating sodium, potassium, chloride, or calcium-gated channels. These neurotoxins are probably originating from a common ancestral native peptide [25] (for more details see [23] ). Other compounds consisting almost of short peptides exhibited antimicrobial (AMPs) and bradykinin potentiating (BPPs) activities. These later are characterized by free cysteine residues [26] . Fewer scorpion peptidic derivatives have shown enzymatic activities similar to phospholipase A2 [27, 28] , lysozyme C [29] , and hyaluronidase [30] (Table 1) .

Peptides affecting ion traffic throughout the cell membrane (neurotoxins) are by and large studied. Dealing with their pharmacological relevance and toxicity, they were subdivided into various subfamilies. Their higher specificities and affinities to various components of many gated ion channels warrant their use as pharmacological tools to probe ions gated pores functions and electrophysiology, thus improving our knowledge about the cellular functionality. Scorpion neurotoxins have a tightly stabilized tridimensional-shaped backbone by three or four disulfide bridges. This property lowered their in-vivo degradation; and expectedly increased their effective binding-time and action [20, 36] . The advent of new tools for molecular engineering intensively prompted the formulation of various peptides chimera, and many recombinant scorpion peptides had been generated.

Even as they have divergent targeted sites, scorpion bioactive derivatives exhibited allosteric interference activities, in a manner to amplify their biological effects [37] . Mainly, neurotoxins bind to surface membrane receptors (sites), [27] N d N d Hyaluronidases [30] N d N d but many peptides penetrate the cell membrane and activate components at its cytosolic interface; for example, maurocalcine and imperatoxin A penetrate the membrane bilayers and activate the intracellular ryanodine receptor to provoke the intracellular sequestrated calcium release [31] [32] [33] [34] [35] .

The colossal structural and pharmacological diversity of scorpions peptides encourage various approaches for their use in new drugs-development. Herein, we attempted to gather some featured clinical usefulness of these peptides.

Antimicrobial peptides (AMPs) have been isolated from a wide variety of animals and plants. They are cationic and amphipathic peptides, mostly within 50 amino acid residues, and were gathered into different groups. Their modus operandi remains discussable. Some AMPs function by disrupting the cell membrane, while others use different mechanism of action. Three proposed mechanistic models have been proposed to explain the cell membrane disruption: Journal of Toxicology 3 the "barrel stave, " "micellar aggregate, " and "carpet" ones, (reviewed in [38] ) ( Table 2) .

Several scorpion-derived AMPs can be set as -helical free-cysteine peptides which alter the cellular membrane structure [61] . Androctonin, a 25-residue disulphide-bridged peptide originating from Androctonus australis venom, exhibited potent antigrowth effect on both gram-positive and -negative bacteria. This antibiotic activity is accomplished by membrane disruption and leakage of pathogenic cells. Interestingly, in ex vivo experiments, this peptide did not affect mammalian erythrocytes, a foreseeable attribute for clinical application. Furthermore, androctonin induced a significant decrease in oxygen consumption and ATP generation and thereby will abolish the pathogen energetic machinery [50, 51] .

Modulating the calcium intracellular signaling is another mechanism to inhibit bacterial growth. Accordingly, parabutoporin and opistoporins, respectively, isolated from Parabuthus schlechteri and Opistophthalmus carinatus scorpions, interact with coupled G proteins and consequently modulate intracellular calcium signaling and exert their antibacterial effects [45, 62] . These findings point toward two different targeted sites for these peptides: an intracytoplasmic site implying an interaction with intracellular components such a DNA, RNA, and enzymes; and constrained action on outer membrane sites [38] .

In addition to direct membrane disruption, the external effect of scorpion toxins could be mediated through their binding to definite gated ions channels, similar to calciumdependant potassium pores involved in microbes biology [63] . The repertoire of scorpion peptides contains a lot of these channel blockers that could be used as antibiotics.

Other scorpion-derived AMPs repressed microbial growth through their phospholipase activity [27, 28] . Guillaume and her colleagues [27] reported that a three disulfidebridged peptide, the Imperatoxin I (a 75 amino acid stranded peptide from the venom of Pandinus imperator scorpion), exhibited a Phospholipase A2 activity that inhibits the intraerythrocytic development of Plasmodium falciparum which causes the most severe forms of human malaria. It is likely that this peptide interacts with the infected erythrocytes membrane lipids [27] or plasma-free fatty acids and liberates lipid products (peroxides) [64] leading to infection demise. The Imperatoxin I completely inhibited both fecundation and ookinete formation within in vitro micromolar concentrations [53] . A pioneer assay to combat malaria at its biological cycle was advanced by Possani and her collaborators (2002). They had produced a resistant transgenic vector to malaria transfecting genes encoding the imperatoxin that abolished the parasite biological cycle [55] .

The poor selectivity of scorpions AMPs to pathogens is a major challenge for their clinical application. With the allowance of molecular engineering tools, Lee et al. had synthesized a pool of analogous for IsCT, which is a 13 amino acids-residue purified from Opisthacanthus madagascariensis, exhibiting high selectivity to bacterial membranes and keeping soft mammalian cells. They found that substitution of the Pro for Gly 8 and Lys for Glu 7 and Ser 11 improves the cationic charge of the native IsCT molecule and allows it to efficiently bind to negatively charged phospholipids of bacteria [49] . Numerous AMPs are continually isolated from scorpion transcriptomes [39, 44, 46, [65] [66] [67] [68] [69] that would alleviate pathogens resistance to conventional drugs.

Among toxicological patterns of scorpion envenoming is the alteration of the hemodynamic and cardiovascular functions which are mediated through either direct or indirect effects of neurotoxins. Interestingly, several components of the venom are sought as potential remedies for many blood and rheology injuries. The mostly spectacular is the use of scorpion venom in Chinese ethnopharmacy to improve blood rheology and homeostasis [74] .

A common challenge in cardiovascular and thrombosis disorders is to surpass the drugs efficiencies limitation by patients resistance and unfavorable side outcomes [75] . Since coagulation and/or its regulator factors perturbations have been observed after scorpion stings [76] , it is proposed that the whole scorpion venom or its components could intervene in controlling platelet aggregation. The SVAP, an active peptide isolated from the scorpion Buthus martensii Karsch, improves the mesenteric microcirculation and blood rheology by decreasing the blood viscosity [74] . Later, it was proved that it inhibits the thrombosis formation parameters (inhibition of platelet aggregation and prolongation of the thrombosis occlusion time) in ex vivo and in vitro experiments, in a dose-dependent manner [77] . It was concluded that SVAP increases the generation of prostaglandin I2 which is an important thrombosis regulator [77] . Further clinical and experimental findings accounted for the perturbation of the balance between pro-and anti-inflammatory cytokines and prostanoids production, after scorpion envenomation [78] [79] [80] [81] [82] , implying that such endogenous compounds will mandate the scorpion venom antithrombotic effect [75] .

To some extent, thrombosis control could be operated through direct inhibition/activation of the platelet membrane permeation to potassium ions through voltage-operated and Ca 2+ -activated channels [83] . Such formulation instigated Wolfs et al. to investigate the effect of charybdotoxin, a scorpion peptide obstructing the calcium-activated potassium channels with intermediate conductance, on platelet function [84] . Charybdotoxin acts by decreasing the prothrombinase activity as well as the exposition of phosphatidylserine which is an outer surface membrane aggregating factor [85] . Furthermore, Borges et al. showed that the whole venom of the Brazilian scorpion Tityus serrulatus modulates the blood clot formations via platelet-activating factor receptor (PAFR) function alteration [86] .

Another alternate use of scorpion peptides in cardiovascular therapy is to regulate blood vasomotion via the reninangiotensin system inhibition. For that reason, Hodgson and Isbister have reviewed the potential application of a variety of venomous animal extracts to cardiovascular drug discovery. They mentioned that a pool of bradykinin potentiating peptides (BPPs), extracted from a variety of snakes and scorpions, inhibit the downbreaking of the endogenous bradykinin and the synthesis of the angiotensin II (vasoconstrictor). Such The dose represents the MIC, the EC 50% (+), or the EC 100% (#) of the polypeptide, or LD 100% (lethal dose * ) of the polypeptide.

effects lead to the reduction of the systemic blood pressure [10] . Else more, hypotensins, extracted from the Tityus serrulatus scorpion venom, induced hypotension but without intervening in the angiotensin converting enzymes activity. Their mechanism of action is thought to be mediated via nitric oxide releasing and offers a second stratagem for the disease wound healing [87] .

In 1980, Brahmi and Cooper reported that the native Androctonus australis hemolymph and its partial fraction 1 (eluted by chromatography in G-200 Sephadex column at a maximum of 280-340 nm, with 0.01 molarity and an elution pH of 8.05) stimulated the human, rabbit, and mouse lymphocytes mitogenesis in in vitro studies. Also, they did show that it triggered the lymphocytes erythrocytes agglutination which is reversed by sugar derivatives [88] . Twenty years later, approval of such immune cells function enhancement by Tityus serrulatus was provided. This leukocytosis was assumed to result in great part from the significant release of neutrophils from the bone marrow to blood vessels bed. The mechanism of this mobilization did involve the platelet-activating factor (PAF) receptor signaling [86] . Since it appears that scorpion venom is capable of modulating lymphoid cell lines proliferation and/or activities. More recently, five different fractions from the above mentioned venom (T. serrulatus venom) obtained by gel filtration chromatography were assayed for their potential to modulate immune peritoneal macrophages secretions. These later contributed to a differential modulation of macrophages function and could probably interact with each other in a synergistic manner [89] . Among them an isolated -Ts toxin accomplishes its immune regulatory effect through pro-and anti-inflammatory factors release [82] .

In view of the fact that an important role was attributed for shaker potassium channels in the regulation of immune cells, Beeton and her colleagues had proved that a peptide (ShK (L5)) isolated from the sea anemone (Stichodactyla helianthus) suppresses the proliferation of human and rat T EM cells and inhibits the IL-2 production at very low doses. Such effects are subsequent to the voltage-sensitive potassium channels (Kv1.3) inhibition. This peptide is able to prevent the experimentally induced autoimmune encephalomyelitis and suppress the hypersensitivity in rats [90] . In a similar manner, charybdotoxin isolated from Leiurus quinquestriatus venom blocked the voltage-gated potassium channels in human and murine T lymphocytes and suppressed their proliferation [91] . The inhibition of both voltage-sensitive (Kv1.3) and Ca 2+ -activated (with intermediate conductance) potassium channels modulates the membrane potential of the T cell, in a manner to sustain an elevated level of intracellular-free calcium which is essential for the first steps of their activation. Since that, more than 12 scorpion toxins which may block potassium channels in T cells with K ranging from picomolar to micromolar values, were suggested to covnteract immune diseases progression [92] .

Moreover, parabutoporin an isolated AMP from Parabuthus schlechteri scorpion venom can activate the exocytosis and chemotaxis and inhibit superoxide production in human polymorphonuclear granulocytes, at submicromolar concentrations [93] . Chemotaxis was also observed using Tityus serrulatus scorpion venom that activates the complement system which takes part of unspecific immune sentinel [94] . The mechanism of such effect is mediated by the Rac receptor, involved in Chemotaxis and exocytosis stimulation, probably through the activation of G proteins. The -helical amphipathic sheet of the scorpion AMP permits its insertion into the membrane to trigger the G proteins activation and 6 Journal of Toxicology thus prevents the NADPH oxidase complex function [95] . NADPH oxidase inhibition could also be triggered via the parabutoporin-p4 7phox interaction leading to PKC pathway stimulation [96] . More recently, Remijsen et al. deduced that the main activity is a consequence of an indirect stimulation of Akt following lipid rafting [97, 98] .

Recent investigations showed that many AMPs, originating from scorpions, and their artificially generated analogues exhibit potent antiviral activities against measles, SARS-Cov, H5N1 [70] , hepatitis B [71] and C [72] , and HIV-1 [40, 73, 99] viruses (Table 3) . Chiefly, these peptides operate through a direct disruption of the viral envelope and consequently decrease the infectivity of the pathogens. Exceptionally, peptides directed against HIV-1 adopted another pathway. In fact, a structurally modified scyllatoxin, a derived scorpion peptide, efficiently inhibited the binding of gp120 to CD4 in a competitive manner and thus suppressed the infection of CD4+ lymphocytes by human immunodeficiency viruses [100, 101] . Similarly, the Kn2-7 and mucroporin-S1 scorpionderived peptides have been shown to exert potent anti-HIV actions via the inhibition of chemokines receptors CCR5and CXCR4-mediated activities and replication of the viruses [73] . These findings might improve the anti-AIDS therapy.

Nervous system activities are chiefly governed by gated ion channel pores frameworks. These later modulate ion traffic through the cellular membrane and regulate the firing and propagation of action potentials which are responsible for signal transmission. Any aberrant pores components expression and/or function would result neurological diseases. Because of their incontestable high specificity and affinity to various components of ions-gated channels, scorpion neurotoxins are featured as a potential candidate for neurological drug development [104] .

In this topic, the "magic" Buthus martensii Karschscorpion is widely used in Chinese ethnomedicine to treat some neurological diseases such as apoplexy, epilepsy, and cerebral palsy [116] . Recently, evidence upon the antinociceptive effect of some of its constituents was provided [104] .

The mandatory role of voltage-sensitive sodium channels in pain physiopathology and its treatment inspired the use of these channels blockers as remedies (reviewed by Dib-Hajj et al. [117] ). In this sense, it had been shown that Bmk AS isolated from Buthus martensii Karsch induced a significant antinociceptive effect via the inhibition of the voltage tetrodotoxin-sensitive sodium current in sensory nerves [105, 106] . Anti-nociception was also induced by alpha-anatoxin Amm VIII, a weak modulator of Na(v)1.2 channel, and the depressant insect-selective beta-toxin LqqIT2, in a mechanistic scheme involving opioid receptors activities [118] .

Presumably, the reinstatement of the hyperexcitability of sensory nerves is a meeting point for wound healing various neurological diseases like allodynia and hyperalgesia. Since that, toxins acting on ion permeability of nerves membranes are sought to be in the top focus for neurological drug discovery.

In multiple sclerosis, which is an inflammatory disease of the central nervous system, there is destruction of myelin sheath of the nerves which is associated with a relative axonal sparing. Such structural disarrangement results in conduction deficits. To prevent neurological signs and symptoms evoked in sclerosis, potassium effluxes blockers are recruited. Multiple potassium channels blockers with different affinities and specificities are extracted and purified from scorpion venoms and might improve treatment of the symptomatic table developed by multiple sclerosis patients [103] .

Earlier reports showed that scorpion venoms interact with neurotransmitter receptors such as dopaminergic [119, 120] and G protein coupled like adrenergic and cholinergic receptors [121] . They probably did block them or influence their release [122] . More recently, Sudandiradoss and her colleagues proved the docking interaction of ten different scorpion neurotoxins with the D2 dopamine receptor and their antagonizing effects [102] . These neurotoxin interactions will perhaps prompt dopamine receptors targeting for treating schizophrenia and Parkinson's disease [123] .

Cytotoxic compounds that kill cells or repress their growth are a required attribute for cancer and malignant diseases chemotherapy [124] . Unfortunately, the poor specificity of chemotherapeutic substances to render them less efficacious [125] . The ability of natural toxins to bind specifically to various cellular domains upholds new hope for anticancer drug development, like bombesin and bombesin-like toxins which have been used as drug motifs carriers with high specificity against tumoral cells [126] [127] [128] [129] [130] . This property is an attribute of chlorotoxin, a peptide extracted from the venom of Leiurus quinquestriatus hebraeus, which specifically binds to chloride-gated channels [107, [131] [132] [133] that are firmly involved in cancer cells mobility mechanism [134] ; and impairs the in vitro glioma invasion [108] [109] [110] . Veiseh and her colleagues [135] [136] [137] examined the utility of the chlorotoxin as a nanovector carrier for gene transfection into both C6 glioma and DAOY medulloblastoma cells and improved its effectiveness as a good tool for clinical use (Figure 1) [136, 137] . Now, the chlorotoxin-like repertoire comprises other peptides such as the recombinant BmkTa, isolated from are Buthus martensii Karsch, that abolishes tumoral cells growth, but not normal ones [111] .

The list of scorpion peptides exhibiting anti-proliferative and cytotoxic effects on tumor and malignant cells is expanding, and new substances are being continually added [126, [138] [139] [140] [141] [142] .

Various types of potassium current, like those of the human ether-a-go-go-related potassium channels [143] and Kv11.1 [144] and Kir4.2 channels [145] are involved in metastasis and tumor growth [112, 146] . For example, outward current of potassium through the voltage-gated pore rectifier (Kir4.2) enhances the integrin-mediated cellular migration and dissemination [145] . Since that, hampering these gated pores using peptides, such as AmmTx3 (Androctonus mauretanicus mauretanicus toxin 3), BmTx3 (Mesobuthus martensii toxin 3), Bekm-1 (Mesobuthus eupeus toxin 1) , and many other potassium scorpion toxins, could convey a promising field in counteracting the evolution of metastasis [112] . Recently, it was approved that voltage-gated sodium channels are functionally overexpressed in various types of human cancers, and correlate with metastatic progression [147, 148] . Seemingly, they are involved in the metastatic process through their interactions with different kinds of cytoplasmic proteins and enzymes, such as the adenylate cyclase and phosphokinases which mediate signals transduction regulating cellular motility [148] . Targeting these channels by specific scorpionderived blockers could potentially suppress cancer cells functionalities. Phase I trials have been advanced using Pertussis toxin as "adjuvant" before radical cystectomy in bladder carcinoma and had promising effects against micrometastasis and neoplastic regeneration (Figure 1 ) [149, 150] .

Hyaluronidases, endogenous enzymes (endoglycosidases), are scattered with a battery of diverse effects regulating cells activities and growth. They are involved in cell cycle progression, aging processes, and apoptosis. At some extent, they are also used for various objectives in cancer treatments. For example, they did facilitate drugs penetration and biodistribution [151] . Such enzyme, called BmHYA1, had been extracted and purified from the venom of the Chinese scorpion Buthus martensii. The BmHYA1 impairs the extracellular matrix receptor III (CD44) surface marker [30] that is overexpressed in cancer cells and promotes the matrix adhesion [152] .

Wei-Dong and colleagues, a scientific group from the Institute of Basic Medicine (Shandong University (health sciences)), China, spare great effort to explore the usefulness 8 Journal of Toxicology Table 4 : Summary of the modus operandi of some scorpion derivatives with potential therapeutic use.

Origin Biological effects

Charybdotoxin [84, 85] L. quinquestriatus Blockade of shaker potassium channels (Kv1.3.) which suppresses lymphocytes proliferation and IL2 production.

Parabutoporin [26, 45, 95, 96] P. schlechteri

Activation of the Rac receptor coupled to G protein, and inhibiting NADPH/oxidase complex function. The cumulus of these actions enhances exocytosis and chemotaxis and prevents superoxide production. Fraction 1 [88] A. australis Stimulating lymphocytes proliferation.

Total venom [82, 86] TsTx (gamma toxin) [89] T. serrulatus

Lymphocytes proliferation enhancement. Lymphocytes mobilization from the bone marrow. Pro-and anti-inflammatory factor release (exocytosis). Platelet-activating factor receptor (PAFR), chemotaxis, and complement stimulation.

TsTx (gamma toxin) [89] T. serrulatus PAFR stimulation (aggregating factor)

Charybdotoxin [84] L. quinquestriatus

Blockade of voltage and Ca 2+ -activated potassium channels, decreasing prothrombinase activity and phosphatidylserine exposition (aggregating factor).

SVAP [74, 77] B. m. Kirsch Increasing PGI2 production/altering pro-and anti inflammatory compounds release, probably from white blood cells.

Bpps (Bppk12) [10] B. occitanus Inhibiting the downregulation of the bradykinin (vasodilatator) and the angiotensin II (vasoconstrictor) synthesis.

Hypotensins [87] T. serrulatus Inhibiting the downregulation of the bradykinin and enhancing NO release.

Various [102] Various Interaction with adrenergic and cholinergic receptors.

Various Blockade of potassium current which prevents symptoms and signs in multiple sclerosis. Whole venom [104] Bmk AS [105, 106] B. m. Kirsch Inhibition of the voltage-sensitive sodium channels.

Chlorotoxin [107] [108] [109] [110] rBmKTa (recombinant) [111] L. q. hebraeus B. m. Kirsch

Carrying gene transfecting-nanovecteors to their targeted cancer cells. blockade of chloride channels responsible for cell motility and metastasis invasion. AmmTx3 [112] BmTx3 [112] BeKm-1 [112] A.m. mauritanicus Meso. martensi Meso. eupus

Blockade of hERGK+ channels involved in tumoral cells activities.

Modulation of cell cycle, apoptosis and invasion. Facilitation of drugs biodistribution by acting on MPPs. Modulation of CD44 surface marker of breast cancer cells. PESV [113] Nd Enhances the immune sentinel against tumors.

Whole venom [114] H. bengalensis Stimulation of osteoclast activity and mineral deposits and modulation the release of osteoporosis regulating factors (antiosteoporosis). KTXs [115] Various sentinel stimulation by decreasing VEGF, TGF-beta1, and IL-10 expressions in tumor environment and enhancing the overexpression of costimulatory molecules CD80 and CD86 in dendritic cells infiltrating the tumor [113] . Such findings will probably prompt the breaking down of immune tolerance to cancerous cells and improve cellular therapeutic strategies. Other peptides enhance the expression of P21 and caspases-3 proteins, members of the programmed cell death [141] , or inhibit the expression or the activity of matrix metalloproteinase-2 and alter the -catenin localization [126] .

Relative to the protease inhibitor-based treatments against invasive cancer cells [153] , a monomeric glycoprotein with 120 KDa, purified from Heterometrus bengalensis, could contribute in this anticancer treatment [154] . Similarly, BmAP1 will do so, the analogue of serine protease inhibitor which was extracted from B. martensii Karsch venom [155] .

Heterometrus bengalensis scorpion venom exerts antiosteoporotic effects on ovariectomized female albino rats treated with methylprednisolone. The effect of the scorpion venom is thought to be directed on osteoclasts. It appears that it did increase the bone mineral deposit in conjunction with the modulation of involved regulatory factors (hormones, enzymes, and cytokines) [114] . Earlier report of Valverde et al. (2004) showed that blocking voltage-sensing potassium channels, using Kaliotoxin which is a Kv1.3 scorpion toxin blocker, reduces the inflammatory bone resorption. These activities will probably lead to the amelioration of bone resorption treatment [115] .

Scorpion venom and hemolymph offer an extendable inventory of polypeptides with diverse array of bioactivities and high specificity to definite elements of the cell. These polypeptides are often of low molecular weights and compactly stabilized with disulphide bridges. These assets put ahead their potential use as candidate for new drugs development (Table 4 ), but further investigations are required to commence their clinical applications. Nonetheless, phase I trials have been advanced for some peptides. One of the major limitations for scorpion substances to be clinically applied is their toxicity and nonselective patterns for the adducted or pathogenic cells. To disclose the matter, proteins and genes engineering prompted new techniques and tools to calibrate toxicity and restrict targeting components and cells by the peptide, simply by slight modifications in their primary sequence. Perhaps in the next few years, some newly isolated native peptides will respond in a fitted way to their pharmaceutical use. Besides, it is important to orient "scorpiology" research toward an accurate plot of characterization and testing bioactivities. The connotation of such plan is to predict the "desirable" scorpion and the substance in need. For example, to isolate an anticancer cytotoxic peptide, it would be prejudicially to use animals from the Chactidae family because of the known lytic and cytotoxic effects of their venoms. Once the venom (or its derivative) fits the sought clinical objectives, through the 1st series of bioassays, serial biochemical, pharmacological, and toxicological experiments will isolate and characterize the substance in need and improve its efficacy and safety. As a consequence, objectives will be fine-tuned to make decision for continuation. To optimize the pharmaceutical pattern of the extract, further biochemical and genetic intervention will be required, before running clinical trials. The art of this plan is the distillation of the tremendous researches in scorpiology toward clinical applications (Figure 2 ). Consistently, huge and sparse plethora of scorpion venoms and hemolymph analysis is ongoing but remains focusing on the isolation, purification, and characterization of sequences. We contemplate for additional experimental simple tests, like cytotoxicity against tumoral cells or pathogens during the characterization steps, which should be carried out to accurately redirect these peptides for basic researches for drugs development.

( , )-NaTxs:

Scorpion toxins affecting or -sodium channels activities ( , , )-KTxs:

Scorpion toxins affecting , , or -potassium channels activities [Ax, Lx, Kx, Px]-IsCT: Modified IsCT by substituting the aminoacids (A, L, K, P) at the corresponding position (x) Akt:

Serine/threonine protein kinase Amm VIII:

Androctonus mauretanicus mauretanicus toxin VIII AmmTx3:

Androctonus mauretanicus mauretanicus toxin 3 AMP:

Antimicrobial peptides ATP:

Adenosine triphosphate Bekm-1:

Mesobuthus eupeus toxin 1 BmAP1:

Buthus martensii Karschactive peptide 1 BmHYA1:

Buthus martensii hyaluronidase 1 BmkAS:

Buthus martensii Karsch active substance Bmkb1:

Buthus martensii Karsch toxin b1 Bmkn2:

Mesobuthus martensii Karsch toxin n2 BmkTa:

Buthus martensii Karsch toxin a BmTx3:

Mesobuthus martensii toxin 3 BPP:

Bradykinin potentiating peptide Bppk-12:

Buthus occitanus bradykinin potentiating peptide K-12 CCR5:

Chemokines receptor type 5 CFTR:

Cystic fibrosis transmembrane conductance regulator chloride channels CXCR4: Chemokines receptor type 4 DNA:

Deoxyribonucleic acid DVAP:

Scorpion venom active peptide FDA:

Food and drug administration, USA gp120: Globular protein 120 HBV and HCV: Hepatitis viruses type B and C hERG:

Human ether-a-go-go-related potassium channels family (or KNCH) Hge36:

Hadrurus gertschi toxin with 36 amino acids HgeScplp1:

Hadrurus gertschi scorpion plp1 Hge KTx:

Hadrurus gertschi toxin affecting -potassium channels HIV:

human immunodeficiency virus type 1 Hp1090:

Heterometrus petersii kills fraction 1090 HS-1:

Heterometrus laoticus scorpine-1 HsAP (x):

Heterometrus spinifer active peptide (x) IL-10:

Interleukin 10 IL-2:

Interleukin 2 IsCT(x):

Opisthacanthus madagascariensis cytotoxins KCa (x⋅y):

Calcium-dependent potassium channels subfamily Kir4.2:

Inward current-potassium channels rectifier family 4.2 Kn2-7:

Mesobuthus martensii Karsch toxin n2-7 Kv (x⋅y):

Voltage-sensitive potassium channels subfamily LqqIT2:

Leiurus quinquestriatus quinquestriatus insect toxin 2 Nav (x⋅y):

Voltage-sensitive potassium channel subfamily NADPH:

Nicotinamide adenine dinucleotide phosphate NO:

Nitric oxide P21:

Tumor suppressor gene p21 PAF:

Platelet activating factor PESV:

Peptide extracted from scorpion venom PKC:

Phosphokinase C PLAs2:

Phospholipase type 2 (II) Rac:

Receptor-activating chemotaxis RNA:

Ribonucleic acid ShK (L5):

Stichodactyla helianthus potassium-channels inhibitor peptide StCT(x):

Scorpiops tibetanus cytotoxins (x) TGF-beta1:

Tumor growth factor 1 VEGF:

Vascular endothelial growth factor VmCT(x):

Vejovis mexicanus smithi cytotoxin (x) -TS:

-Tityus serrulatus toxin.

Natural products as source of new drugs over the last 25 years

Lessons from natural molecules

Therapeutic potential of venom peptides

Drug discovery from medicinal plants

Scorpion toxins specific for Na+-channels

Venom as a source of useful biologically active molecules

Can scorpions be useful

Therapeutic alternatives from venoms and toxins

The use of Shiga-like toxin 1 in cancer therapy

The application of toxins and venoms to cardiovascular drug discovery

Arachnid toxinology in Australia: from clinical toxicology to potential applications

Conspectus genericus scorpionorum

Voltage-gated sodium channel modulation by scorpion -toxins

Epidemiologie du scorpionisme

The fauna of India

Proteins, lethality and in vivo effects of Iurus dufoureius asiaticus scorpion venom

In vitro and in vivo studies on some toxic effects of the venom from Hemiscorpious lepturus scorpion

Cutaneous manifestations of the hemiscorpius lepturus sting: a clinical study

Epidemiology of scorpionism: a global appraisal

Evidence for a direct action of Tityus serrulatus scorpion venom on the cardiac muscle

Voltage-gated ion channels and gating modifier toxins

Animaux venimeux terrestres

Genetic mechanisms of scorpion venom peptide diversification

Current views on scorpion toxins specific for K+-channels

Dynamic diversification from a putative common ancestor of scorpion toxins affecting sodium, potassium, and chloride channels

Cysteine-free peptides in scorpion venom: geographical distribution, structurefunction relationship and mode of action

Anti-Plasmodium properties of group IA, IB, IIA and III secreted phospholipases A2 are serum-dependent

Heteromtoxin (HmTx), a novel heterodimeric phospholipase A2 from Heterometrus laoticus scorpion venom

Sequence analysis of lysozyme C from the scorpion Mesobuthus eupeus venom glands using semi-nested RT-PCR

Isolation and characterization of a hyaluronidase from the venom of Chinese red scorpion Buthus martensi

Cell penetration properties of maurocalcine, a natural venom peptide active on the intracellular ryanodine receptor

Charged surface area of maurocalcine determines its interaction with the skeletal ryanodine receptor

Critical amino acid residues of maurocalcine involved in pharmacology, lipid interaction and cell penetration

Imperatoxin A enhances Ca2+ release in developing skeletal muscle containing ryanodine receptor type 3

Imperatoxin A (IpTxa) from Pandinus imperator stimulates [3H] ryanodine binding to RyR3 channels

Accurate prediction of scorpion toxin functional properties from primary structures

Allosteric interactions between scorpion toxin receptor sites on voltage-gated Na channels imply a novel role for weakly active components in arthropod venom

The relationship between peptide structure and antibacterial activity

Mucroporin, the first cationic host defense peptide from the venom of Lychas mucronatus

Antibacterial activity and mechanism of a scorpion venom peptide derivative in vitro and in vivo

Characterization of two linear cationic antimalarial peptides in the scorpion Mesobuthus eupeus

Structural and functional characterization of two genetically related meucin peptides highlights evolutionary divergence and convergence in antimicrobial peptides

Scorpion toxins and its applications

Ctriporin, a new anti-methicillinresistant Staphylococcus aureus peptide from the venom of the scorpion Chaerilus tricostatus

Antibacterial and antifungal properties of -helical, cationic peptides in the venom of scorpions from southern Africa

Imcroporin, a new cationic antimicrobial peptide from the venom of the scorpion Isometrus maculates

Purification, structure-function analysis, and molecular characterization of novel linear peptides from scorpion Opisthacanthus madagascariensis

IsCT, a novel cytotoxic linear peptide from scorpion Opisthacanthus madagascariensis

Antibiotic activity and structural analysis of the scorpion-derived antimicrobial peptide IsCT and its analogs

Characterization of novel cysteine-rich antimicrobial peptides from scorpion blood

Androctonin, a hydrophilic disulphide-bridged non-haemolytic anti-microbial peptide: a plausible mode of action

Ion selectivity and membrane potential effects of two scorpion pore-forming peptides

Scorpine, an anti-malaria and anti-bacterial agent purified from scorpion venom

Cytolytic and K+ channel blocking activities of -KTx and scorpine-like peptides purified from scorpion venoms

From noxiustoxin to scorpine and possible transgenic mosquitoes resistant to malaria

Cloning and functional characterization of a new antimicrobial peptide gene StCT1 from the venom of the scorpion Scorpiops tibetanus

Gene cloning and functional characterization of four novel antimicrobial-like peptides from scorpions of the family Vaejovidae

Purification and characterization of Heteroscorpine-1 (HS-1) toxin from Heterometrus laoticus scorpion venom

a novel class of antimicrobial peptides from the scorpion Heterometrus spinifer

Antibacterial activity of the venom of Heterometrus xanthopus

Antimicrobial peptides: premises and promises

Antimicrobial peptides from scorpion venom induce Ca2+ signaling in HL-60 cells

Plasmodium falciparum: growth response to potassium channel blocking compounds

Crystal structure of the complex formed between a group I Phospholipase A2 and a naturally occurring fatty acid at 2.7Å resolution

A cystein free antimicrobial peptide derived from Mesobuthus eupeus scorpion venom gland

Recombinant scorpine: a multifunctional antimicrobial peptide with activity against different pathogens

Antimicrobial peptide induction in the haemolymph of the Mexican scorpion Centruroides limpidus limpidus in response to septic injury

Inducible antibacterial response of scorpion venom gland

Characterization of the venom from the Australian scorpion Urodacus yaschenkoi: molecular mass analysis of components, cDNA sequences and peptides with antimicrobial activity

Virucidal activity of a scorpion venom peptide variant mucroporin-M1 against measles, SARS-CoV and influenza H5N1 viruses

Mucroporin-M1 inhibits hepatitis B virus replication by activating the mitogen-activated protein kinase (MAPK) pathway and down-regulating HNF4 in vitro and in vivo

A new natural -helical peptide from the venom of the scorpion Heterometrus petersii kills HCV

Anti-HIV-1 activity of a new scorpion venom peptide derivative Kn2-7

Effects of scorpion venom active polypeptides on mesenteric microcirculation of rats

Future innovations in anti-platelet therapies

Toxicology of Androctonus scorpion

Effects of scorpion venom bioactive polypolypeptides on platelet aggregation and thrombosis and plasma 6-keto-PG F1 and TXB2 in rabbits and rats

Relationship between plasmatic levels of various cytokines, tumour necrosis factor, enzymes, glucose and venom concentration following Tityus scorpion sting

10 and TNF-in patients moderately or severely envenomed by Tityus serrulatus scorpion sting

Inhibitory effect of Buthus martensi Karsch extracts on interleukin-1 -induced expression of nitric oxide (NO) synthase and production of NO in human chondrocytes and LPS-induced NO and prostaglandin E2 production in mouse peritoneal macrophages

A bradykinin potentiating fraction isolated from the venom of Egyptian scorpion Buthus occitanus induced prostaglandin biosynthesis in female guinea pigs

Toxin gamma from Tityus serrulatus scorpion venom plays an essential role in immunomodulation of macrophages

Calciumactivated potassium channels in human platelets

Reversible inhibition of the platelet procoagulant response through manipulation of the Gardos channel

Block of maurotoxin and charybdotoxin on human intermediate-conductance calciumactivated potassium channels (hIKCa1)

Scorpion venom-induced neutrophilia is inhibited by a PAF receptor antagonist in the rat

Tityus serrulatus Hypotensins: a new family of peptides from scorpion venom

Activation of mammalian lymphocytes by a partially purified fraction of scorpion hemolymph

Immunomodulatory effects of the Tityus serrulatus venom on murine macrophage functions in vitro

Targeting effector memory T cells with a selective peptide inhibitor of Kv1.3 channels for therapy of autoimmune diseases

Charybdotoxin blocks voltage-gated K+ channels in human and murine T lymphocytes

K+ channels as targets for specific immunomodulation

Cationic peptides from scorpion venom can stimulate and inhibit polymorphonuclear granulocytes

Activation of the complement system and leukocyte recruitment by Tityus serrulatus scorpion venom

Parabutoporin-an antibiotic peptide from scorpion venom-can both induce activation and inhibition of granulocyte cell functions

The antimicrobial peptide parabutoporin competes with p47 ℎ as a PKC-substrate and inhibits NADPH oxidase in human neutrophils

Inhibition of spontaneous neutrophil apoptosis by parabutoporin acts independently of NADPH oxidase inhibition but by lipid raft-dependent stimulation of Akt

Parabutoporin, a cationic amphipathic peptide from scorpion venom: much more than an antibiotic

Webbed immunogenes comprising recombinant immunodifficiency virus (HIV) envelope glycoproteins and the M9 scorpion toxin

CD4 mimetic miniproteins: potent anti-HIV compounds with promising activity as microbicides

Rational engineering of a miniprotein that reproduces the core of the CD4 site interacting with HIV-1 envelope glycoprotein

Analysis of binding residues between scorpion neurotoxins and D2 dopamine receptor: a computational docking study

Potassium channel blockers in multiple sclerosis: neuronal Kv channels and effects of symptomatic treatment

Toxins in antinociception and anti-inflammation

Antihyperalgesia effect of BmK AS, a scorpion toxin, in rat by intraplantar injection

The anti-nociceptive effect of BmK AS, a scorpion active polypeptide, and the possible mechanism on specifically modulating voltage-gated Na+ currents in primary afferent neurons

Use of chlorotoxin for targeting of primary brain tumors

Chlorotoxin-sensitive Ca2+-activated Cl-channel in type R2 reactive astrocytes from adult rat brain

Chlorotoxin inhibits glioma cell invasion via matrix metalloproteinase-2

Modulation of glioma cell migration and invasion using Cl-and K+ ion channel blockers

Therapeutic potential of chlorotoxin-like neurotoxin from the Chinese scorpion for human gliomas

A common "hot spot" confers hERG blockade activity toscorpion toxins affecting K+ channels

Effect of polypeptide extract from scorpion venom (PESV) on immune escape of Lewis lung carcinomas

Experimental osteoporosis induced in female albino rats and its antagonism by Indian black scorpion (Heterometrus bengalensis C.L.Koch) venom

Selective blockade of voltage-gated potassium channels reduces inflammatory bone resorption in experimental periodontal disease

Expression of antitumoranalgesis peptide from the Chinese scorpion Buthus martensi kirsch in Escherchia coli

Voltage-gated sodium channels in pain states: role in pathophysiology and targets for treatment

Involvement of endogenous opioid system in scorpion toxin-induced antinociception in mice

Autonomic effects of some scorpion venoms and toxins

Do changes in body temperature following envenomation by the scorpion Leiurus Quinquestriatus influence the course of toxicity

BmK AS, an active scorpion polypeptide, enhances [3H]] noradrenaline release from rat hippocampal slices

Effects of -scorpion toxin

Dopamine D3 receptor gene polymorphism and response to clozapine in schizophrenic Pakistani patients

Why toxins!

Recombinant immunotoxins: from basic research to cancer therapy

A potential strategy for highgrade gliomas: combination treatment with lithium chloride and BmK CT

Biotechnological and gene therapeutic strategies in cancer treatment

Bombesin marine toxin conjugates inhibit the growth of lung cancer cells

Chlorotoxin-modified stealth liposomes encapsulating levodopa for the targeting delivery against the Parkinson's disease in the MPTP-induced mice model

Synthesis and evaluation of bombesin derivatives on the basis of pan-bombesin peptides labeled with Indium-111, Lutetium-177, and Yttrium-90 for targeting bombesin receptor-expressing tumors

Purification and characterization of chlorotoxin, a chloride channel ligand from the venom of the scorpion

Inhibition of CFTR channels by a peptide toxin of scorpion venom

Chlorotoxin, a scorpion-derived peptide, specifically binds to gliomas and tumors of neuroectodermal origin

CIC chloride channels

A ligand-mediated nanovector for targeted gene delivery and transfection in cancer cells

Chlorotoxin labeled magnetic nanovectors for targeted gene delivery to glioma

Chlorotoxin bound magnetic nanovector tailored for cancer cell targeting, imaging, and siRNA delivery

Indian black scorpion (Heterometrus bengalensis Koch) venom induced antiproliferative and apoptogenic activity against human leukemic cell lines U937 and K562

Cytotoxic effects of two Iranian scorpions Odontobuthus doriae and Bothutus saulcyi on five human cultured cell lines and fractions of toxic venom

Scorpion venom induces glioma cell apoptosis in vivo and inhibits glioma tumor growth in vitro

Effect of the venom of the scorpion Heterometrus liangi on the expression of P21 and caspase-3 gene in human KYSE-510 cell

Inhibitory effect of polypeptide extracts from scorpion venom on proliferation of ovarian cancer SKOV3 cells

Functional upregulation of HERG K+ channels in neoplastic hematopoietic cells

Targeting ion channels in leukemias: a new challenge for treatment

Integrins step up the pace of cell migration through polyamines and potassium channels

Voltagegated K+ channel activity in human prostate cancer cell lines of markedly different metastatic potential: distinguishing characteristics of PC-3 and LNCaP cells

A potential novel marker for human prostate cancer: voltage-gated sodium channel expression in vivo

Protein-protein interactions involving voltage-gated sodium channels: posttranslational regulation, intracellular trafficking and functional expression

Phase I singledose study of intracavitary-administered iodine-131-TM-601 in adults with recurrent high-grade glioma

Intravesical therapy with pertussis toxin before radical cystectomy in patients with bladder cancer: a phase I study

Hyalurondiase: both a tumor promoter and suppressor

Mechanisms of cancer cell invasion

Compensation mechanism in tumor cell migration: mesenchymal-amoeboid transition after blocking of pericellular proteolysis

Characterization of a naturally occurring protease inhibitor in the hemolymph of the scorpion, Heterometrus bengalensis

Precursors of three unique cysteine-rich peptides from the scorpion Buthus martensii Karsch