key: cord-0788026-iaxthykr authors: Sytar, Oksana; Brestic, Marian; Hajihashemi, Shokoofeh; Skalicky, Milan; Kubeš, Jan; Lamilla-Tamayo, Laura; Ibrahimova, Ulkar; Ibadullayeva, Sayyara; Landi, Marco title: COVID-19 Prophylaxis Efforts Based on Natural Antiviral Plant Extracts and Their Compounds date: 2021-01-30 journal: Molecules DOI: 10.3390/molecules26030727 sha: 5fb47c92f382761e5d9cb8d205cbdd8ca49d72ef doc_id: 788026 cord_uid: iaxthykr During the time of the novel coronavirus disease 2019 (COVID-19) pandemic, it has been crucial to search for novel antiviral drugs from plants and well as other natural sources as alternatives for prophylaxis. This work reviews the antiviral potential of plant extracts, and the results of previous research for the treatment and prophylaxis of coronavirus disease and previous kinds of representative coronaviruses group. Detailed descriptions of medicinal herbs and crops based on their origin native area, plant parts used, and their antiviral potentials have been conducted. The possible role of plant-derived natural antiviral compounds for the development of plant-based drugs against coronavirus has been described. To identify useful scientific trends, VOSviewer visualization of presented scientific data analysis was used. COVID-19 was characterized and announced as a pandemic on 11 March 2020. The novel coronavirus was first reported in Wuhan, Chinaand spread around the world from there. On 12 February 2020, the WHO announced a name for the new coronavirus disease: COVID-19, which became the fifth recorded pandemic since the 1918 influenza outbreak [1] [2] [3] . Across the world, governments supported safety by minimizing human contact through country-wide lockdowns of public places, limiting gatherings, imposing quarantines. and mandating mask wearing in public and social distancing. These measures did help to slow the spread of SARS-CoV-2 [4, 5] . Major efforts were undertaken to develop vaccines and to find effective drugs and therapies to reduce infectivity. At time of writing, there are more than 50 vaccine candidates under development [6, 7] , and the WHO has already listed the Pfizer-BioNTech vaccine for emergency use. At the same time, antiviral extracts and compounds with the potential to limit virus transmission or block infection are also being developing [8] . Plant production technology is being adopted to create vaccines and inexpensive antiviral proteins [9] . Different kinds of plants such as turnip, potato, tobacco, and others have been used for vaccine production [10] . At the same time, it is important to educate people in the use of plants that help to support the immune system, and to establish research programs to develop functional foods During the pandemic, many scientists have concentrated on how best to take care of the population before a vaccine becomes available. One of their goals is to develop an efficient viral inactivation system by exploiting naturally occurring antiviral compounds from medicinal plants. One example of this strategy would be to incorporate such a compound into nanofiber respiratory masks [5] . The contemporary clinical efficacy and safety profile of medications such as hydroxychloroquine and half synthetic antibiotic azithromycin against COVID- 19 have been described as well [19] . Another strategy is to enhance people's antiviral immune response through a nutritious diet including plant-derived supplements characterized by high antiviral potential to minimize the risk of SARS-CoV-2 and similar infections. At the same time, natural antiviral plant compounds can be used to develop antiviral plant drugs. Several studies on the antiviral potential of plant extracts have been conducted using in vitro model systems of cultured Vero cells or human cell lines as a pre-clinical stage of research. During the SARS-CoV-2 pandemic, researchers have been taking advantage of molecular docking models for testing chemical libraries for bioactive compounds [20] . These new techniques have been utilized together with pharmacological network analysis to characterize biologically active compounds from fruits of Juniperus communis and herbs such as Thymus vulgaris, Curcuma longa, Rosmarinus officinalis, Ocimum basilicum, Melissa officinalis, and Mentha piperita [21] . It has been shown that quercetin from onions (Allium cepa), apples (Malus domestica), green tea (Camellia sinensis) and buckwheat (Fagopyrum esculentum) can inhibit the 6LU7 and 6Y2E proteases of SARS-CoV-2 by binding to them [20, 22] . The latest information from the literature on plants with antivirus potential is presented in Table 1. This table lists the medicinal plants as therapeutic tools to suppress various viral agents such as Herpes simplex virus type 1 and 2 (HSV-1, HSV-2), human immunodeficiency virus (HIV), SARS-CoV-2, HCoV-NL63, influenza A, and others causing diseases such as oral and genital herpes, AIDS, SARS, or flu. Viruses can develop resistance through mutation to current antimicrobial agents, and this increases the need for the discovery and development of new effective compounds against old and new viral infections, especially against SARS-CoV-2. The source of such drugs is often a library of plant-derived compounds with antiviral properties and various mechanisms of action. Secondary metabolites such as terpenes, flavonoids, alkaloids, saponins, and stilbenes have been characterized through antiviral activity assays [23] . Some plants containing compounds that inhibited viruses were identified from Gillan's plants by Iranian scientists, and specific alkaloids were extracted from them such as trshvash, chuchaq, cote d'couto and khlvash in Iran. The names of the plants were those used in particular regions of Iran and the Latin names were not given [24] ; however, it seems that they correspond with Oxalis corniculata, Eryngium planum, and Ziziphora persica. Some people in Iran drink a tea made from a mixture of Stachys schtschegleevi and Origanum vulgare to prevent infection, while those infected with coronavirus are told to drink Echium amoenum tea daily. Local healers encourage people to gargle with an extract of Rhus coriaria or Myrtus communis along with other practices such as hand washing and wearing masks to block the virus from entering the nose and respiratory system. Currently in China, almost 85% of patients treated for COVID-19 are receiving treatment with traditional Chinese medicine based on the observed antiviral effects of plant-derived compounds [25, 26] . The literature review, performed to create a scientific database of plants with antiviral potential, obtained results from a search of PubMed and Google Scholar combined with some of the primary traditional Persian manuscripts on medicine, including the book of AlHavi, the Canon of Medicine, Zakhireh-iKharazmshahi, Qarabadine-kabir, Tohfat ol Moemenin, and Makhzan-ol-advieh. The search was performed with terms for medicinal plants used in treating respiratory system disorders [27, 28] . Nearly twenty medicinal plants containing mucilage were found [27] . The descriptions of plants with antiviral activity that could be useful for future studies against COVID-19 and other diseases are presented in Table 1 . The literature analysis, which was performed to create a scientific database of plants with antiviral potential (Table 1) , obtained results from a search of PubMed, Scopus and Web of Knowledge databases combined with some of the primary traditional Azerbaijani manuscripts on herbal medicine. The novel coronavirus is a respiratory virus that spreads through droplets of saliva or discharge from the nose. The main knowledge, with the parallel development of vaccines, is to avoid any contact with an infected person's breath or sneezes [127] . At the same time, identifying novel antiviral drugs is of critical importance and natural products are an excellent source for such discoveries [128] . The plant metabolites with antiviral activity can kill viruses and prevent the infection of the respiratory system [129, 130] . The coronavirus genome is a single-stranded RNA, comprising about 30,000 nucleotides encoding four structural proteins-a membrane protein, a spike protein, an envelope protein, and a nucleocapsid protein-and some nonstructural proteins. The nucleocapsid is a shell made of protein that surrounds the single-stranded, positive-strand RNA genome [131] . The N protein coats the RNA and allows the virus to enter and hijack human cells, turning them into virus factories. The mechanism of formation of the virus structure is one of the important research areas for the development of drugs to prevent virus particles from binding to human cells and infecting them. Plant metabolites are highly antioxidant and can be used for the development of plant-based drugs or to support the immune system [14, 19] . The source of such plant-based drugs is often a chemical library of plant-derived compounds with antiviral properties and a variety of mechanisms of action. Plant natural products or extracts have been used in folk medicine for hundreds of years to treat viral diseases [132] . The market for herbal supplements with specific nutraceutical properties is huge [133] [134] [135] , and with the pandemic threatening people's lives and livelihoods, it is logical select natural products with antiviral potential. Some natural compounds such as lycorine, homoharringtonine, silvestrol, ouabain, tylophorine, and 7-methoxycryptopleurine have been reported to have antiviral activity at nanomolar concentrations and may lead to future antiviral drug development [132] . Many natural products possess anti-coronavirus potential, and these should be studied as potential dietary supplements for reducing infectivity and modulating the immune response. Regarding the zoonotic origins of some viruses, including SARS-CoV-2, plants and their products should also be tested for animal treatment and promising compounds could be further investigated for human application. Lelešius et al. (2019) examined extracts of different medicinal herbs and found that Mentha piperita, Thymus vulgaris and Desmodium canadense extracts were the most effective against avian infectious bronchitis virus prior to and during infection [53] . Kaempferol and its glucoside derivatives (rhamnose), the kaempferol glycosides afzelin, juglanine and tiliroside from the holly oak, Quercus ilex L., were also effective against the 3a channel protein of a coronavirus [136] . Holm oaks (Quercus Ilex L.), oleanders (Nerium Oleander L.), and wild olive trees (Olea europaea L.) are typical Mediterranean plants presented in Italian forested areas, which are suggested to have immunoprotecting potential and have shown lower COVID-19 mortality rates for the population [137] . Naturally occurring flavonoid compounds have high antiviral potential. For example, the flavonoid scutellarein, from the root of Scutellaria baicalensis (Lamiacaea), has been shown to inhibit the nsP13 helicase of SARS-CoV-2 by altering its ATPase activity [110] . The pharmacology research has shown the potential therapeutic effects of baicalin and baicalein, which are other specific flavone glycosides of Scutellaria baicalensis, in response to COVID-19. The exact therapeutic effects of Scutellaria baicalensis extract still needs to be determined in clinical trials [138] . It is important to remember that the use of extracts is complicated by the presence of multiple compounds. The antiviral and antimicrobial capacities of separate biologically active compounds may be different from their effects in extracts, which can be additive or synergistic, or even antagonistic [139, 140] . For example, after removal of the tannins from the aqueous extract of Euphorbia hirta L., the inhibition of viral replication was markedly decreased. It was concluded that the tannins were likely responsible for the high antiretroviral activity [141] . Studies using protein-molecular docking with network pharmacology analysis were able to identify and characterize other bioactive compounds from the fruits of Juniperus communis and the brown alga, Ecklonia cava [76, 79] . Here, quercetin isolated from E. cava was effective in treating respiratory diseases and could be used to mitigate the airway damage from SARS-CoV-2 infection directly in the respiratory system. Terpenoids constitute a large group of secondary metabolites with a wide spectrum of structures and effects, including antiviral properties. Some of these compounds are relatively simple, such as monoterpenes from Lamiaceae plants in Table 1 [142] . More complex molecules were isolated and identified from species of the genus Bupleurum, which is widespread in the old world and an important herb in Chinese traditional medicine. Antiviral effects of its triterpenoid saikosaponins were studied on a human fetal lung fibroblast model. It was found that saikosaponins were active in the early stage of HCoV-22E9 infection, preventing viral attachment and penetration [143] . Other identified active compounds from this plant included the above-mentioned antioxidant flavonoids such as quercetin, isorhamnetin, narcissin, rutin, eugenin, and saikochrome A, which may have anti-inflammatory effects [45] . The oleanane triterpenes in ethanolic extracts of Camellia japonica flowers were shown to possess significant antiviral activity against the PEDV coronavirus in research with a Vero cell model. Inhibitory effects on key gene and protein synthesis during PEDV replication have been shown as well [46] . Camellia japonica does not produce purine alkaloids, but it does contain the flavonoids quercetin, kaempferol and apigenin [144] [145] [146] . A screening study of antiviral action of herbal extracts in 1979 found that a triterpenoid saponin from licorice (Glycyrrhyza glabra) roots, glycyrrhyzic acid, was active against viruses [147] . This plant is native to the Mediterranean region, Iran-Turan, and Azerbaijan, where it has been used in folk medicine for many years. The latest studies confirmed the antiviral activity towards HSV-1, Epstein-Barr virus, human cytomegalovirus, and RNA viruses such as influenza A virus (IAV), H5N1, and H1N1, and the immunomodulation capacity of its extract [64, 148, 149] inhibits the PLpro and 3CLpro targets, which are known to be essential for viral replication [16, 18, 150] . The rational supporting combinations of glycyrrhizin with tenofovir and (hydroxy)chloroquine (two drugs active against SARS-CoV-2) are discussed but need more clinical studies [151] . In another study using molecular docking, researchers examined 171 essential oils (see Table 1 ) in connection with specific enzymes of SARS-CoV-2, such as the main protease, endoribonuclease, and RNA-dependent RNA polymerase. However, the most promising compounds such as isomers of farnesene and (E,E)-farnesol did not display strong docking activity. Despite this, the authors suggested that they possessed a hypothetical synergistic effect in the whole extract [152] . Cannabis sativa originated in central Asia and has been used for treating illness for more than 5000 years [152] . The phytocannabinoid, cannabidiol (CBD), was discovered in C. sativa in 1940 and makes up about 40% of the extract [153] . CBD has been shown to be a modulator of angiotensin-converting enzyme II (ACE2) expression in COVID-19 target tissues [154] . Down-regulation of ACE2, which is associated with receptor-mediated entry into human lung epithelial cells, may provide a reasonable strategy for reducing COVID-19 severity. Researchers in Canada have developed over 800 new C. sativa lines and extracts with high-CBD content for antiviral testing. It was also confirmed that some C. sativa extracts down-regulated another protein required for SARS-CoV-2 entry into host cells, the serine protease, TMPRSS2 [154] . While preclinical studies encourage the potential effectiveness of CBD in viral diseases such as Kaposi sarcoma, hepatitis C and SARS-CoV-2, clinical evidence is still lacking [155] . South America and Africa have a very long history of utilizing native plants in traditional medicine, which has played an important role in the health of the population. There may be some evidence for this assertion; an extract from the bark of Ampelozizyphus amazonicus Ducke was tested and found to have immunomodulatory and anti-inflammatory activities [36] . In Brazil, this plant is widely used to prevent malaria and it is known to contain triterpenic saponins, averaging about 48% of the dry weight [156] . Artemisia species native to Madagascar have been discovered to possess antimalarial effect as well, probably thanks to sesquiterpenic lacton artemisinin [157] , and they have antiviral and immunomodulatory potential [41, 98] . Beside Artemisia, other plants from Madagascar were previously tested for activity against viruses, and extracts of Cynometra cloiselii, Cynometra madagascariensis, Evonymopsis longipes, Ravensara retusa, and Terminalia seyrigii were able to completely inactivate an HSV test inoculum at low concentrations [158] . During the COVID-19 pandemic, Madagascar has been developing COVID-Organics clinical trials with a herbal background [159] . Another group of secondary metabolites with high antiviral potential against coronaviruses are the alkaloids. The bisbenzylisoquinoline alkaloids, tetrandrine, fangchinoline, and cepharanthine from roots of Stephania tetrandra inhibit expression of the human coronavirus, HCoV-OC43, spike and nucleocapsid proteins. These alkaloids were also able to provide beneficial immunomodulation [114, 115] and were active against laboratory HIV-1 strains [160] . The isolated alkaloid lycorine from Lycoris radiata exhibited significantly greater inhibition of SARS-CoV (BJ-001) compared to the total alkaloid extract. However, lycorine extracted from plants showed lower inhibition of SARS-CoV (BJ-001) than synthetic lycorine [161] . Extracts of Houttuynia cordata L. contained the alkaloids arisolactam, piperolactam A, and caldensin, the terpene cycloart-25-ene-3b,24-diol, and several flavonoids [162] . A water extract of Houttuynia cordata significantly stimulated the proliferation of mouse splenic lymphocytes in a dose-dependent manner. Houttuynia cordata extracts have been shown to halt viral tRNA polymerase activity (RdRp) and increase secretion of the interleukins IL-2 and IL-10 [69] . These effects may be attributed to a synergistic interaction of specific compounds from the terpenoid, alkaloid, and flavonoid groups or the effect of their interaction in the plant water extract. The beneficial presence of natural compounds in the lungs after oral administration was further shown in the case of isoquinoline alkaloid emetin, which antagonizes viral replication, including that of coronaviruses. This secondary metabolite is found in the roots of the Brazilian shrub Carapichea ipecacuanha (Rubiaceae), and is processed into ipecac syrup [162, 163] . As in the case of Artemisia, some antimalarial medicines have also been recommended for the treatment of COVID-19, namely chloroquine and hydroxychloroquine, which were synthesized as substitutes for quinoline alkaloid quinine that is extracted from the bark of the Peruvian tree, Cinchona officinalis [163, 164] . The anecdotal and unproven use of Artemisia for COVID-19 following claims from politicians and others in low-income countries highlights the need for hard data to establish the active ingredients, especially to develop formulations and dosing, and to evaluate efficacy through controlled trials [164] . Another Brazilian herb, Aspidosperma tomentosum, inhibited replication of the avian metapneumovirus by 99% after the virus entered cells [42] . Plants belonging to the genus Aspidosperma, a member of the family Apocynaceae, are rich sources of β-carboline alkaloids, which make them potentially poisonous. Some of the identified alkaloids possess antitumor, antiplasmodial, antimicrobial, and antiviral activity [42, 43, 164] . The population of Valle of Juruena (Brazil) makes use of a wide array of medicinal plants, including Aspidosperma tomentosum extracts, in the treatments of respiratory ailments [165] . With the rapid development and expansion of the field of plant-derived natural products and its global importance, it was worthwhile to conduct a timely assessment of the most influential articles (as measured by citations) and to identify seminal papers and scientific trends. To do this, we prepared a bibliometric network of publications dealing with antiviral compounds of plant origin using the software VOSviewer version 1.6.15 [166] , a tool for the bibliometric analysis and visualization of scientific literature data [167] ; the software is especially valuable for displaying large bibliometric maps in an easy-to-interpret way, and has been previously used to identify and analyze antimicrobial resistance [168] , global research on leishmaniasis [169] , and the 100 most-cited papers on the topic of nutraceuticals and functional foods [170] , among others. The produced bibliometric network consists of nodes and edges that are weighted based on the frequency of the terms and the strength of the relationships between them; such analysis can provide critical insights into the mechanisms, hazards, and potential antiviral efficacy of plant extracts and isolated compounds as well as changes in research topics with respect to time. For our visualization, we used data from 173 papers published between 1967 and 2020, extracted from the Web of Science database. We selected all publications dealing with plant-based antiviral products present in any of the species presented in Table 1 . For the complete list of papers, as well as the complete set of queries needed for data extraction, data used for all publications included the title, year of publication, authors' names, nationalities, affiliations, name of publishing journal, keywords, abstract, times of citation, country, and H-index. In the following map, nodes correspond to paper keywords, and the edges indicate not only the relationship between two nodes, but also the strength of this relationship. Additionally, Figure 1 uses a color code for displaying the time of publication. The visualization corresponds to a distance-based map, in which the space between items reflects the strength of the relationship between them. A smaller distance indicates a stronger relationship, making it easier to identify clusters of related elements. Likewise, the relative importance is indicated by the size of each circle. The output includes all the results obtained from all species mentioned in Table 1 . In total, 11 clusters and 223 links were identified. Our analysis shows that, as expected, the interest in the study of natural compounds for the treatment of diseases or developing plant-based drugs seems to increase when there are widespread health crises; in the graph, nodes for Chikungunya (the middle left) and H1N1 (bottom) are visible in connection with the main node of "antiviral activity", and the graph also shows that the publications dealing with Chikungunya appear to be more common after 2014-similarly, most papers using the keyword H1N1 were published around 2010. The increase in scientific output in these topics appears to be related to both the Chikungunya outbreak from 2013 to 2017 and the H1N1 epidemic in 2009. According to the World Health Organization [171] , the first documented outbreak of Chikungunya occurred in 2013, with autochthonous transmission in the Americas; in 2014, Europe faced its highest Chikungunya burden, and more than 1 million suspected cases were reported to the Pan American Health Organization (PAHO) regional office. In 2017, as in previous years, Asia and the Americas were the regions most affected by the Chikungunya virus, and the efforts to find a specific antiviral drug treatment redoubled. There is no specific antiviral drug treatment for Chikungunya, and the clinical management targets primarily the relieving of the symptoms; therefore, promising approaches such as the green synthesis or photosynthesis of AgNPs from medicinal plants [172] could allow a broader understanding of all the alternatives for treatment against viral diseases which have no specific antiviral or vaccines available. Additionally, the visual output shows a strong cooccurrence of the topics "antiviral" activity and "ethnopharmacobotany", meaning that a good portion of the articles published on these topics are based on the traditional knowledge and the use of plants for medicine, namely, antivirals, antifungal or antibacterial, with most papers focusing on Chinese ethnopharmacobotany, as well as Australian aboriginal medicine and Indian and Korean traditional treatments, amongst others. This also reflects the importance of traditional knowledge in the pharmaceutical and medical research, as highlighted by refs [172, 173] . Finally, the map also shows a wide variety of topics, with the most researched topics of the use of the selected medicinal plants and crops, including investigations on herpes simplex virus (type 1 and type 2), respiratory syncytial virus, flavonoids, influenza virus, and hepatitis virus (types a, b, and c). Curiously, the research interest regarding potential use of plants also includes the analysis of viruses exclusively infecting livestock, such as the porcine reproductive and respiratory syndrome virus (PRRS) or Aujeszky's disease (pseudorabies) virus that also primarily infects pigs. Some of the investigations on animal infections could have applications for human health. This is the case for the Newcastle's disease virus (NDV) (upper right in bright green), which causes a deadly infection in many kinds of birds and some mild flu-like symptoms in humans. It is important to mention that some of the compounds and plants identified by the queries also showed activities against nonviral diseases, such as the anticancer applications of plants of the Plantago genus (Plantaginaceae). The analysis showed that the dynamics of the research of the plant-based antiviral products are probably heavily influenced by current events of public health at the local and global scale, additionally suggesting a close relationship between ethnobotanical research and antiviral properties in plants; we suggest that these trends might be investigated further to deepen our understanding of the dynamics of available products. The available information on the medicinal herbs and crops which characterized antiviral potential was collected from scientific databases and covered from 1967 up to 2021. The following electronic databases were used: PubMed, Science Direct, Scopus, Web of Science, and Google Scholar. The search terms used for this review included coronaviruses group; SARS-CoV; biological active compounds; plant chemo diversity; antiviral potential; natural antiviral plant extracts; and plant-based antiviral drugs. No limitations were set for languages. Knowledge databases were combined with some of the primary traditional Azerbaijani manuscripts on herbal medicine. A total of 173 articles were included in the present review. A VOSviewer visualization of scientific data analysis of antiviral potential of natural compounds from various medicinal herbs and crops has been used. The tool for bibliometric analysis and visualization of scientific literature data was the software VOSviewer version 1.6.15. The literature analysis of plants with significant antiviral potential was performed through a thorough literature search and VOSviewer visualization. A total of 66 medicinal herbs and crops with different origin native areas which characterized antiviral potentials were described. The most promising compounds to develop plant-based drugs can be reccomended the kaempferol glycosides, the scutellarein, baicalin and quercetin flavonoids; the saikosaponins triterpenoids; the lycorine, tetrandrine, fangchinoline, and cepharanthine alkaloids; the triterpene oleanane; and the terpene cycloart-25-ene-3b,24-diol. Even though preclinical studies suggest the potential effectiveness of described compounds to mitigate the current COVID-19 pandemic, clinical evidence is still missing. The dynamics of the worldwide research of the plant-based antiviral products are probably heavily influenced by current events of public health at the local and global scale, also suggesting a close relationship between ethnobotanical research and antiviral properties in plants which may be used for further studies to develop plant-based drugs against coronavirus, or to support backgrounds for healthy food recommendations during a pandemic. The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. COVID-19: The first documented coronavirus pandemic in history Coronaviridae Study Group of the International Committee on Taxonomy of V. 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Chin Antimicrobe characteristics of essential oil of the Origanum vulgare L Chemical composition and antiviral effect of extracts of Origanum vulgare Antiviral Properties of Supercritical CO2 Extracts from Oregano and Sage Pelargonium sidoides extract EPs 7630: A review of its clinical efficacy and safety for treating acute respiratory tract infections in children Antiviral activity of Plantago major extracts and related compounds in vitro In vitro cytotoxic, antiviral and immunomodulatory effects of Plantago major and Plantago asiatica Anti-influenza virus activity and phenolic content of pomegranate (Punica granatum L.) peel extract and fractions Coronavirus Replication Inhibition by Herbal Antiviral effects of black raspberry (Rubus coreanus) seed and its gallic acid against influenza virus infection Antiviral effects of black raspberry (Rubus coreanus) juice on foodborne viral surrogates Evaluation of antiviral effects of sumac (Rhus coriaria L.) fruit extract on acyclovir resistant Herpes simplex virus type 1 Phytochemistry, pharmacological properties and industrial applications of Rhus coriaria L Screening of microbicidal activity of some plants of the azerbaijan flora in relation to antibiotic-resistant microorganisms Natural product-derived phytochemicals as potential agents against coronaviruses: A review Therapeutic applications of rose hips from different rosa species The in vitro antiviral potential of Setarud (IMOD™), a commercial herbal medicine with protective activity against acquired immune deficiency syndrome in clinical trials Phytochemical analysis and in vitro antiviral activities of the essential oils of seven Lebanon species A review of the antiviral properties of black elder (Sambucus nigra L.) products Therapeutic potential of medicinal plants against COVID-19: The role of antiviral medicinal metabolites Identification of myricetin and scutellarein as novel chemical inhibitors of the SARS coronavirus helicase, nsP13 Lamiaceae): A review of its traditional uses, botany, phytochemistry, pharmacology and toxicology A phytopharmacological review Inhibitory Effect of Eight Secondary Metabolites from Conventional Medicinal Plants on COVID_19 Virus Protease by Molecular Docking Analysis Tetrandrine, a Chinese plant-derived alkaloid, is a potential candidate for cancer chemotherapy Natural bisbenzylisoquinoline alkaloids-tetrandrine, fangchinoline, and cepharanthine, inhibit human coronavirus OC43 infection of MRC-5 Human Lung Cells. Biomolecules Antiviral action of tryptanthrin isolated from Strobilanthes cusia leaf against human coronavirus NL63 A novel isocoumarin with anti-influenza virus activity from Strobilanthes cusia Anti-infectious activity in plants of the genus Tabebuia Lapachol and its derivatives as potential drugs for cancer treatment Thuja occidentalis (Arbor vitae): A review of its pharmaceutical, pharmacological and clinical properties. Evid. Based Complementary Altern Inhibition of severe acute respiratory syndrome coronavirus replication in a lethal SARS-CoV BALB/c mouse model by stinging nettle lectin, Urtica dioica agglutinin Antinociceptive and anti-inflammatory activities of Viburnum opulus Medicinal plants of Tamil Nadu (Southern India) are a rich source of antiviral activities Fresh ginger (Zingiber officinale) has antiviral activity against human respiratory syncytial virus in human respiratory tract cell lines Anti-influenza activity of betulinic acid from Zizyphus jujuba on Influenza A/PR/8 Virus Antiviral phenolic compounds from the whole plants of Zostera marina against influenza A virus Physical interventions to interrupt or reduce the spread of respiratory viruses. Part 2-Hand hygiene and other hygiene measures: Systematic review and meta-analysis Antiviral natural products and herbal medicines Traditional Chinese medicine for corona virus disease 2019: A protocol for systematic review Chemical composition and pharmacological mechanism of Qingfei Paidu Decoction and Ma Xing Shi Gan Decoction against Coronavirus Disease 2019 (COVID-19): In silico and experimental study Genomic characterization of a novel SARS-CoV-2 Herbal plants and plant preparations as remedial approach for viral diseases Trends in use, pharmacology, and clinical applications of emerging herbal nutraceuticals Natural products and their derivatives against coronavirus: A review of the non-clinical and pre-clinical data Influence of plant origin natural α-pinene with different enantiomeric composition on bacteria, yeasts and fungi Kaempferol derivatives as antiviral drugs against the 3a channel protein of coronavirus Lower COVID-19 mortality in Italian forested areas suggests immunoprotection by Mediterranean plants Applications, phytochemistry, pharmacological effects, pharmacokinetics, toxicity of Scutellaria baicalensis Georgi. and its probably potential therapeutic effects on COVID-19: A review Antifungal properties of hypericin, hypericin tetrasulphonic acid and fagopyrin on pathogenic fungi and spoilage yeasts Virucidal and synergistic activity of polyphenol-rich extracts of seaweeds against measles virus Euphorbia-Derived Natural Products with Potential for Use in Health Maintenance Advances in Pharmacological Activities of Terpenoids Antiviral effects of saikosaponins on human coronavirus 229E in vitro Flavonoids and fatty acids of Camellia japonica leaves extract Two triterpenes from the flowers of Camellia japonica Biosynthesis and catabolism of purine alkaloids in camellia plants Glycyrrhizic acid inhibits virus growth and inactivates virus particles A comparative analysis of medicinal and aromatic plants in the traditional medicine ofİgdir (Turkey), Nakhchivan (Azerbaijan) and Tabriz (İran) Glycyrrhizin effectively neutralizes SARS-CoV-2 in vitro by inhibiting the viral main protease Chalcones isolated from Angelicakeiskei inhibit cysteine proteases of SARS-CoV Glycyrrhizin: An alternative drug for the treatment of COVID-19 infection and the associated respiratory syndrome? Essential oils as antiviral agents, potential of essential oils to treat SARS-CoV-2 infection: An in-silico investigation Cannabis sativa: The Plant of the Thousand and One Molecules Multiple mechanisms involved in the large-spectrum therapeutic potential of cannabidiol in psychiatric disorders Cannabidiol for Viral Diseases: Hype or Hope? Cannabis Cannabinoid Res Amaral Ana Claudia, F. Analyses of Ampelozizyphus amazonicus, a plant used in folk medicine of the Amazon Region Artemisia spp. Derivatives for COVID-19 Treatment: Anecdotal Use, Political Hype, Treatment Potential, Challenges, and Road Map to Randomized Clinical Trials Review of β-carboline alkaloids from the genus Aspidosperma Antiviral activities in plants endemic to madagascar Isoquinoline alkaloids and their antiviral, antibacterial, and antifungal activities and structure-activity relationship Potentials of plant-based substance to inhabit and probable cure for the COVID-19 A current update on the phytopharmacological aspects of Houttuynia cordata Thunb Search of Preventative Strategies: Novel Anti-Inflammatory High-CBD Cannabis Sativa Extracts Modulate ACE2 Expression in COVID-19 Gateway Tissues. Preprints 2020 Plant solutions for the COVID-19 pandemic and beyond: Historical reflections and future perspectives Ethnobotanical study of medicinal plants by population of Valley of Juruena Region Citation-based clustering of publications using CitNetExplorer and VOSviewer Global research output in antimicrobial resistance among uropathogens: A bibliometric analysis A decade bibliometric analysis of global research on leishmaniasis in Web of Science database Let food be thy medicine and medicine be thy food: A bibliometric analysis of the most cited papers focusing on nutraceuticals and functional foods World Health Organization. Chikungunya Fact Sheet Green synthesis of silver nanoparticles from medicinal plants and evaluation of their antiviral potential against chikungunya virus Medicinal plants: Traditions of yesterday and drugs of tomorrow Are traditional medicinal plants and ethnobotany still valuable approaches in pharmaceutical research. Boletín Latinoam. y Del Caribe de Plantas Med