key: cord-0002755-cgcf7mgj authors: Zhuo, Xun-hui; Sun, Hong-chao; Huang, Bin; Yu, Hai-jie; Shan, Ying; Du, Ai-fang title: Evaluation of potential anti-toxoplasmosis efficiency of combined traditional herbs in a mouse model date: 2017-06-01 journal: Journal of Zhejiang University-SCIENCE B DOI: 10.1631/jzus.b1600316 sha: 45694460eb735606f756b5850caced2cd8b313d9 doc_id: 2755 cord_uid: cgcf7mgj Toxoplasma gondii is a worldwide spread protozoan and is able to infect almost all warm-blood animals. No effective drugs are available clinically on toxoplasmosis. Chinese traditional herbal medicines have provided remedies for many health problems. There exists a possibility that Chinese herbs may provide protection against T. gondii. This work aims to assess the protective efficacy of combined Chinese herbs against T. gondii. We screened five herbal medicines that have different pharmacological effects and combined them into a prescription according to the traditional Chinese medicine compatibility principle. The drug potential and protective efficacy were evaluated through a mouse model by determining the survival time, the parasite load in blood and tissues, the change of cell proportions in blood and histological detection. The results showed that the survival time of mice in the 500 mg Chinese herbs group and sulfadiazine group was significantly longer than that of the PBS control group. Also the parasite load in blood and tissues of 500 mg Chinese herbs and sulfadiazine groups was significantly lower than that of PBS group at 7 days post infection (dpi), which was in accordance with the result of histological detection. Monocyte and neutrophil of infected mice were remarkably increased while lymphocyte was dramatically decreased compared to that of blank group at 7 dpi. The results demonstrated that the 500 mg dosage of our Chinese herbs could slow down the replication of T. gondii and prolong the survival time of mice and could be considered as possible candidate drug against toxoplasmosis. Toxoplasmosis caused by the intracellular protozoan Toxoplasma gondii is a ubiquitous worldwide parasitic zoonotic disease (Innes, 2010a) . It is usually asymptomatic in immune-competent individuals but may occasionally lead to severe ocular and neurological disorders (Furtado et al., 2013) . When it comes to immune-compromised and congenitally infected individuals, toxoplasmosis can result in lethal systemic disease and eventually death (Shen et al., 2016) . Currently, the control of T. gondii mainly depends on chemotherapy, such as the combination of sulfadiazine and pyrimethamine, but these drugs have serious side effects (Petersen and Schmidt, 2003) . Even though many antigens including rhoptry, surface, and dense granule excreted-secreted antigens were evaluated as potential vaccines (Kur et al., 2009) , there is no licensed vaccine against T. gondii infection clinically making the situation even worse (Jongert et al., 2009; Innes, 2010b) . Therefore, new efficient drugs and safe protective therapies are needed. Artemisinin isolated from a Chinese traditional medicine Artemisia annua is now included in standard treatment worldwide for Plasmodium falciparum malaria. Subsequent to that, interest in Chinese traditional medicine has risen to be considered for providing therapeutic reagents for many infectious diseases. The Radix clematidis extract is reported to be a potent inhibitor of matrix metalloproteinase-9 (MMP-9) and notably blocks the nuclear factor-κB (NF-κB) pathway in breast carcinoma cells (Noh et al., 2011). Na-Bangchang and Karbwang (2014) found that a Chinese traditional medicine Atractylodes possesses various pharmacological effects with anticancer, anti-inflammatory and antimicrobial activity, and is now a potential chemotherapeutic for cholangiocarcinoma found in Southeast Asia. Artemisia anomala has been widely and in long-term used for the treatment of inflammatory diseases in China. Recent findings suggested that it manifests its antiinflammatory effects through inhibiting the expression of inducible nitric oxide synthase (iNOS) (Tan et al., 2014) . Glycyrrhizin, extracted from Liquorice, was reported to have antiviral activity through inhibiting replication of the pathogen (Cinatl et al., 2003) . Throughout history, Chinese traditional herbal medicines have provided many remedies for many health problems. The use of most herbal medicines dates back almost 2000 years in Shennong's Materia Medica. However, limited information is available on their pharmacological activity since the use of herbal medicine has been based mainly on empirical treatment. As a consequence, there exists a possibility that many herbal medicines may have unknown effects on different health problems. In this study, we screened five herbal medicines that have different pharmacological effects and combined them into a prescription according to the traditional Chinese medicine compatibility principle. We evaluated the protective efficacy provided by the different dosages of this prescription against the challenge of RH strain of T. gondii in a mouse model. Female ICR mice (6-8 weeks old) were kept in an animal experimentation laboratory under standard conditions according to the guidelines of the Regulation for the Administration of Affairs concerning Experimental Animals of the People's Republic of China. These experiments on mice were approved by Zhejiang University Experimental Animal Ethics Committee (No. ZJU201308-1-10-072). Tachyzoites of T. gondii RH strain were maintained in ICR mice by intraperitoneal (i.p.) serial passage at regular 72 h intervals. The parasites were washed three times by phosphate-buffered saline (PBS) and centrifuged at 1000g for 5 min as previously described (Mack and McLeod, 1984) . Five kinds of Chinese herbal medicines were purchased from Huqingyu Tang Pharmaceutical Co., Ltd., Hangzhou, China. According to the traditional Chinese medicine compatibility principle, they were combined as follows: R. clematidis (10 g), Fructus Ulmi Macrocarpae (8 g), Atractylodes (15 g), A. anomala (10 g), and Glycyrrhizae (6 g). On the basis of the traditional Chinese medicine decoction method, herbal drugs were boiled for 3 h in water (1 L) followed by concentrating through a rotary evaporator into 2 g/ml of the whole drugs. Sulfadiazine as a positive control drug was purchased from Novartis (Beijing, China). A total of 140 female mice were randomly divided into seven groups (A to G). Mice in groups B-G were i.p. infected with 1×10 3 tachyzoites of T. gondii RH strain. Different medical administrations were carried out after infection with T. gondii RH strain as follows: Group A, blank control; Group B, PBS control; Group C, mice were treated with 10 mg/d of sulfadiazine through oral gavage; mice in Groups D-G were treated with Chinese herbs through oral gavage in single dosages of 300, 400, 500, and 600 mg/d, respectively, according to the Chinese Pharmacopoeia (National Pharmacopoeia Committee, 2010). The animals were observed daily for mortality. A total of three mice in each group were euthanized at 3 and 7 days post infection (dpi), when whole blood was collected for a blood routine test; liver, spleen, and lung tissues were collected for quantitative realtime polymerase chain reaction (PCR) and histological section assay. The presence of T. gondii DNA was investigated by real-time PCR based on the SAG1 gene as described previously (Yu et al., 2013) . The genomic DNA of blood, liver, spleen, and lung tissues was extracted using a Universal Genomic DNA Extraction Kit (TaKaRa, China) according to the manufacturer's instructions. The forward and reverse primer sequences used in this study were 5'-CTGATGTCG TTCTTGCGATGTGGC-3' and 5'-GTGAAGTGGT TCTCCGTCGGTGT-3', respectively, designed by the Primer Express software (PE Applied Biosystem), which could amplify a 128-bp fragment under predetermined conditions. SYBR ® Green was then used to detect fluorescence using the iQ5™ Real-Time PCR System (Bio-Rad). Sterile water and genomic DNA of T. gondii tachyzoites were included as negative and positive controls in each run. In addition, a plasmid pMD-SAG1 was constructed based on pMD18-T vector using the same primers. To establish standard curves, plasmid pMD-SAG1 was tenfold serially diluted ranging from 2×10 4 to 2×10 9 copies per milliliter tested in each independent experiment for T. gondii quantification. Each sample had three parallel wells and was detected three times. At least 30 µl of anticoagulated blood samples collected from mice of different groups at 3 and 7 dpi were applied to an IDEXX ProCyte Dx ® hematology analyzer. Each blood sample was read three times. The data were analyzed using the software SPSS 16.0 for Windows (SPSS Inc., Chicago, IL, USA) and statistical difference was accepted at the level of P<0.05. Liver, spleen, and lung tissue specimens from different groups were first fixed in 10% (v/v) buffered formalin and then processed to paraffin for embedding. Tissue sections were obtained at approximately 5-µm thickness and stained with haematoxylin and eosin (H & E) stains as described previously (Fischer et al., 2008) . Sections were examined under light microscopy. In order to determine whether these combined Chinese herbs could provide effective protection against T. gondii RH infection, mortality was recorded daily following the T. gondii challenge until all mice were dead and survival curves of all groups were generated as shown in Fig. 1 . The survival time of mice in the sulfadiazine group ((13.5±2.0) d) and 500 mg Chinese herb group ((9.8±0.69) d) were significantly longer than that in the PBS control group (6.9±0.18 d) (P<0.05). The average survival time of mice in the 300, 400, and 600 mg Chinese herb groups was all under 8 d which was slightly longer than that of PBS group, but the difference was not statistically significant (P>0.05). Blood and tissue samples were collected from different experimental groups at 3 and 7 dpi with T. gondii, and then DNA was extracted as the template for SAG1-based real-time PCR to evaluate the parasite loads and DNA copy number in T. gondiiinfected mice (Fig. 2) . Every blood and tissue DNA sample was tested in triplicate and no amplification products were observed in wells from the blank control group. Results from the blood are shown in Fig. 2a . Parasite loads in all groups at 7 dpi were Survival rate of mice treated with sulfadiazine and different dosages of Chinese herbs after challenge with 1×10 3 tachyzoites of T. gondii RH strain. Mice treated with PBS were included as negative control and mice infected with no T. gondii were included as blank control. Survival rate was monitored daily until all infected-mice died (n=10 mice per group) almost double that at 3 dpi, but no significant difference was observed among these groups. Results of spleen, lung, and liver tissues presented a similar pattern in that parasite loads were all largely increased from 3 to 7 dpi, and mice of the PBS control group had statistically significantly higher parasite load compared with sulfadiazine and 500 mg Chinese herb groups (P<0.05). However, the parasite loads of mice in 300, 400, and 600 mg Chinese herb groups were all fewer than those in the PBS control group but not at a statistically significant level. Blood samples were collected from different groups at 3 and 7 dpi directly into a 1-ml tube containing 0.3 mg dipotassium ethylenediamine tetraacetic acid (K 2 EDTA) and analyzed by an IDEXX ProCyte Dx ® hematology analyzer. No significant increases were observed in eosinophil among the different T. gongdii-infected groups (Fig. 3a) . The proportion of monocyte of infected mice was remarkably increased compared to that of the blank group at 7 dpi ( Fig. 3b ; P<0.05). However, lymphocytes of the infected groups were dramatically decreased compared with the blank control group (Fig. 3c) and those of the sulfadiazine and 500 mg Chinese herb groups were significantly low compared to the other four infected groups (P<0.05). As shown in Fig. 3d , neutrophil in the infected groups was increased more than double compared to the blank control group at 7 dpi (P<0.05), and the sulfadiazine and 500 mg Chinese herb groups also increased significantly higher among these groups. Blood (a), spleen (b), lung (c), and liver (d) tachyzoite burdens at 3 and 7 d after challenge. The DNA copies of T. gondii (per milliliter blood or per gram tissue) in blood and tissues of mice after challenge with 1×10 3 tachyzoites of T. gondii RH strain per mouse. The counting of DNA copies of T. gondii has been done in triplicate for each tissue and for three mice from each group. Values are expressed as mean±SD. Columns with different letters present statistical difference (P<0.05) Pathological studies were performed through histological sections of liver, lung, and spleen tissues which were collected at 7 dpi from all groups. The livers of sulfadiazine and 500 mg Chinese herbs-treated mice displayed few changes compared to normal mice (Figs. 4c and 4f), but the livers of the PBS group mice showed a clear cellular separation, which revealed its morphologically incomplete and hepatocellular dysfunction (Fig. 4b) , and the livers of 300, 400, and 600 mg Chinese herbs-treated mice showed slightly more cellular separation . The lungs of all T. gondii-infected mice represented interstitial pneumonia at different degrees with much thicker alveolar walls compared to that of the blank control group (Figs. 4i-4n) , and more severe cellular damage was observed in 300 and 600 mg Chinese herbs-treated mice and the PBS control group. The spleen of the PBS group was extensively necrotic with few lymphoid cells and plenty of scattered cells observed. Lymphoid follicles were also absent (Fig. 4p) . The spleens of other groups also had evidence of necrosis and degeneration with small scattered nodules of dead lymphoid cells (Figs. 4q-4u), but they were not as deteriorated as that of the PBS group shown in Fig. 4p . T. gondii can infect almost all warm-blooded animals, but no available drugs can eliminate this pathogen from its host without any clinical side effects. The discovery of artemisinin, isolated from A. annua, which can provide effective treatment worldwide against P. falciparum malaria, raises the The results showed the percentage of cells in blood at 3 and 7 d after challenge with 1×10 3 tachyzoites of T. gondii RH strain per mouse. Eosinophil (a), monocyte (b), lymphocyte (c), and neutrophil (d) cell percentages were analyzed by IDEXX ProCyte Dx ® hematology analyzer at 3 and 7 dpi. Blood samples were collected from three mice at each group at 3 and 7 dpi, respectively. Values are expressed as mean±SD. Columns with different letters present statistical difference (P<0.05) question as to whether Chinese traditional medicines could afford protection against T. gondii. Therefore, five herbal medicines that have different pharmacological effects were screened and combined into a prescription according to the traditional Chinese medicine compatibility principle and then the drug potential and protective efficacy were evaluated through a mouse model. Molecular methods, particularly real-time PCR, have been treated as sensitive and reliable tools for determining the parasite loads of T. gondii (Bell and Ranford-Cartwright, 2002; Li et al., 2012) . Hence, we applied an SAG1-based real-time PCR method to determine the parasite loads in blood and tissues. We found T. gondii DNA could be detected in blood and tissues from all infected groups at 3 dpi with a relatively high level and was almost all doubled from 3 to 7 dpi while no significant difference was observed among these groups. The level of the parasite load of the liver of sulfadiazine and 500 mg Chinese herbs-treated groups was lower than that of the PBS control group (P< 0.05). We also found the livers of sulfadiazine and 500 mg Chinese herbs-treated mice displayed few changes while a clear cellular separation could be observed in the liver of PBS group mice that presented a morphologically incomplete and hepatocellular dysfunction. The lungs of sulfadiazine and Chinese herbs-treated mice possessed a significantly lower parasite load than that of the PBS control group (P<0.05) and the histological result verified this from the morphological perspective. The lungs of all T. gondii-infected mice displayed interstitial pneumonia which had much thicker alveolar walls compared to those of the blank control group. However, the situations of the PBS group, the 300 and 600 mg Chinese herbs-treated groups were the worst such that no complete pulmonary alveoli structure could be observed. This revealed the fact that the lungs barely functioned and resulted in rapid death at 7 dpi as shown in the survival curve. As for the spleen, the parasite in sulfadiazine and 500 mg Chinese herbstreated groups was at a significantly lower level than that in the PBS group at 7 dpi (P<0.05). The spleens of all infected mice showed necrosis and degeneration. Lymphoid follicles of the PBS group were barely observed, and those of sulfadiazine and 500 mg Chinese herbs-treated groups also had evidence of necrosis and degeneration with small scattered nodules of dead lymphoid cells. These results were in accordance with the survival curve that the mice of sulfadiazine and 500 mg Chinese herb groups lived much longer than the controls. Mice treated with 500 mg Chinese herbs ((9.8±0.69) d) showed a Pathological examinations were based on H & E-stained 5 µm-thick longitudinal sections of liver, lung, and spleen tissues in each group at 7 dpi. Liver (a-g), lung (h-n), and spleen (o-u) were collected from seven groups. Scale bars represent 20 µm (a-g) and 50 µm (h-u) significantly longer survival time (P<0.05) than the PBS-treated mice. In addition, the average survival time of 500 mg Chinese herbs-treated mice presented a similar level as many studies on DNA vaccines; the average survival time of rROP18-immunized ICR mice is 11.5 d (Qu et al., 2013) and Zheng et al. (2013) found that after being immunized with rROP5+ rSAG1, mice had prolonged survival time of 12.1 d. We assume that T. gondii was able to move to most tissues of mice through blood based on the fact that DNA copies of T. gondii had been detected in blood, liver, spleen, and lung. Actually, Dadimoghaddam et al. (2014) found T. gondii moved to various tissues within 24 h after i.p. injection and the largest number of parasites was observed in the heart, kidney, and liver. The movement trend of T. gondii and parasite load in tissues have been used mainly to evaluate the vaccine effect, anti-parasite and drug disease severity (Bell and Ranford-Cartwright, 2002; Romand et al., 2004) . The results gathered here suggested that these combined Chinese herbs could afford efficient protection against acute T. gondii infection. Machado et al. (2014) demonstrated that the increased monocytes and lymphocytes could be treated as a relevant hematological biomarker of acute retinochoroidal lesions caused by T. gondii. Thus we used an IDEXX ProCyte Dx ® hematology analyzer to determine the changes of cell proportions in blood at 3 and 7 dpi. We found that there was no significant difference among the T. gondii infected groups on eosinophil at 3 or 7 dpi. However, monocytes and neutrophils of infected mice were remarkably increased while lymphocytes were dramatically decreased compared to those of the blank control group at 7 dpi. On the other hand, the significantly lower lymphocyte and slighter lower monocyte of sulfadiazine and 500 mg Chinese herbs-treated mice than those of other Chinese herbs-treated mice suggests that effective drugs may decrease the cell proportions to hinder the cellular transmission of T. gondii. There are no differences between normal mice and infected mice at 3 dpi. We found T. gondii was capable of escaping the immune system in blood when combining the results of parasite load in blood at 3 dpi. In accordance with the results of Machado et al. (2014) , the monocytes were increased drastically at 7 dpi. The recruitment of monocytes is essential in restricting the replication of the T. gondii murine model (Mordue and Sibley, 2003; Robben et al., 2005) . On the other hand, monocytes as well as neutrophils and eosinophils are strong candidates for transport of T. gondii in blood in a way known as a "Trojan Horse" (Lachenmaier et al., 2011) , so the activity of monocyte must be carefully controlled. However, the trend of lymphocytes was opposite to that of Machado et al. (2014) . The percentage of lymphocytes was decreased in infected mice mainly because ICR mice were sensitive to T. gondii and failed to eliminate the parasite, which was in accordance with the result that all infected mice eventually died. In summary, mice treated with Chinese herbal medicines had been showed to elicit partial protection against acute T. gondii infection. 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