Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, ...Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, our understanding of the role of gC in facilitating attachment of other alpha-herpes viruses such as the duck plague virus (DPV) remains preliminary. To study the role of gC during DPV infection, we used a gC-deleted mutant virus (DPV-AgC-EGFP). Examination of the viral copy number by real-time PCR, as well as time course studies of viral adsorption and proliferation revealed that gC was involved in the viral binding to the cell surface. The affinity of viral glycoproteins (gB-DPV, gC-DPV, and gE-DPV) to HS was assessed using a prokaryotic expression system and HJTrapTM HeparJn HP column chromatography. In addition, to confirm that gC played a role in the interaction between DPV and HS, viruses were treated with the HS analogue heparin and host cells were treated with its inhibitors heparinase prior to exposure to DPV-△gC-EGFP or wild-type strain Chinese virulent duck plague virus (DPV-CHv). The effects of heparin and heparinase on virus infectivity demonstrated that function of gC on Viral adsorption is independent of interactions between gC and heparin sulfate on cell surface. All in all, this study demonstrated that the gC of DPV can mediate viral adsorption in an HS-independent manner, which distinguish it from the gC of some other alpha-herpes viruses. Future studies will be required to identify the receptors involved in gC protein binding to cells. This work provides us a foundation for further studies of examining the roles of gC in the adsorption during duck plague virus infection.展开更多
The present study investigated acute and subchronic toxicity and safety pharmacology of modified pulsatilla granules(MPG)to provide a basis for a comprehensive understanding of MPG toxicity.The results of acute toxi...The present study investigated acute and subchronic toxicity and safety pharmacology of modified pulsatilla granules(MPG)to provide a basis for a comprehensive understanding of MPG toxicity.The results of acute toxicity testing showed that the median lethal dose of MPG was more than 5 000 mg kg^-1,suggesting that MPG was considered as practically non-toxic.The subchronic toxicity study for 30 days was conducted by daily oral administration at doses of 375,750 and 1 500 mg kg^-1 in Sprague-Dawley rats.The results of subchronic toxicity study showed that the body weight and relative organ weight were not significantly changed by administration of MPG.The clinical chemistry study showed that MPG could induce kidney and liver damages.In histopathological,mild lesions in liver and kidney were also observed,suggesting that the liver and kidney might be potential target organs of MPG.In the safety pharmacology study,MPG did not exhibited any side effects to rats in cardiovascular system,respiratory system and central nervous system.These results suggested that MPG could be considered safe for veterinary use.展开更多
The 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester from neem oil was investigated for antibacterial activity against three bacterial strains viz., Staphylococcus aureus ATCC No. 25923, Escherichi...The 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester from neem oil was investigated for antibacterial activity against three bacterial strains viz., Staphylococcus aureus ATCC No. 25923, Escherichia coli ATCC No. 44102 and Salmonella sp. ATCC No. 50 041 in vitro. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) values of the 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester were determined by using the broth microdilution dilution (BMD) method at different concentrations ranging from 20 to 0.625 mg mL-1. Its time-inhibition curve against E. coli was also tested and showed that the MIC values for the bacterial strains S. aureus, E. coli and Salmonella sp. were 20, 5 and 10 mg mL-1, respectively. Its MBC values were 20, 20 and 10 mg mL-1, respectively. The antibacterial activity of 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester against three strain tested showed the relationship with time and concentration.展开更多
Recombinant virus-vectored vaccines are novel agents that can effectively activate specific and nonspecific immunity,are multivalent and multieffective,and have high safety ratings.Animal alphaherpesviruses have a lar...Recombinant virus-vectored vaccines are novel agents that can effectively activate specific and nonspecific immunity,are multivalent and multieffective,and have high safety ratings.Animal alphaherpesviruses have a large genome,contain multiple nonessential regions that do not affect viral replication and are capable of accepting the insertion of an exogenous gene and expressing the antigen protein.Furthermore,animal alphaherpesviruses have a wide host spectrum,can replicate in the host and continuously stimulate the animal to produce immunity to the corresponding pathogen,thus making them ideal carriers for recombinant virus-vectored vaccines.With the development of gene-editing technology,recombinant viruses capable of expressing foreign genes can be constructed by various methods.Currently,studies on recombinant virusvectored vaccines constructed based on animal alphaherpesviruses have involved poultry,pigs,cattle,sheep,and companion animals.Studies have shown that the construction of recombinant animal alphaherpesviruses enables the acquisition of immunity to multiple diseases.This article mainly summarizes the current progress on animal alphaherpesvirus-vectored vaccines,aiming to provide reference for the development of new animal alphaherpesvirus-vectored vaccines.展开更多
Duck hepatitis B virus(DHBV) shares many basic characteristics with hepatitis B virus(HBV) and is an attractive model for vaccine development. In this study, DHBV DNA vaccines were designed to express envelope and cap...Duck hepatitis B virus(DHBV) shares many basic characteristics with hepatitis B virus(HBV) and is an attractive model for vaccine development. In this study, DHBV DNA vaccines were designed to express envelope and capsid fusion proteins to enhance the breadth of immune response in ducks. Attenuated Salmonella typhimurium(SL7207) was used as a carrier and adjuvant to boost the magnitude of immune response. Based on this strategy, novel DNA vaccines(SL7207-p VAX1-LC and SL7207-p VAX1-SC) were generated. Growth kinetics, genetic stabilities and relative transcription levels of the L, S and C genes introduced by these vaccine strains were measured before inoculation to guarantee safety and efficacy. The relative transcript levels of the CD4 and CD8 T genes and the antibody levels(Ig Y) in ducks receiving the vaccines were higher than those in single gene delivered groups. Additionally, the copy number of covalently closed circular DNA in hepatocytes after DHBV challenge also provided evidence that our fusion vaccines could enhance the protective efficiency against DHBV infection in ducks.展开更多
The capsid (Cap) protein, which is the only structural protein of duck circovirus (DuCV), is the most important antigen for the development of vaccines against DuCV and the virus's serological diagnostic methods....The capsid (Cap) protein, which is the only structural protein of duck circovirus (DuCV), is the most important antigen for the development of vaccines against DuCV and the virus's serological diagnostic methods. In order to use yeast expression system to produce a large quantities of DuCVCap protein which is close to its natural form to display the antigen peptides perfectly, the Cap gene was optimized into the codon-optimized capsid (Opt-Cap) gene towards the preference of yeast firstly. Then, the genes of Cap and Opt-Cap were separately cloned into pPIC9K plasmid and transformed into Picha pas- toris GSl15. The strains that displayed the phenotype of Mut~ and contained multiple inserts of expression cassette were selected from those colonies. After the induction expression, the secretory type of Cap protein, which was about 43 kDa, was best expressed under 0.5% (v/v) methanol and sorbitol induction. Compared with the Cap gene, the expression level of Opt-Cap gene was much higher. What's more, the purified Cap protein had a good reactivity to its specific polyclone antibody and DuCV-positive serum, and it was able to self-assemble into virus-like particles (VLPs). These VLPs, with a diameter of 15-20 nm and without a nucleic acid structure, showed a high level of similarity to DuCV particles in size and shape. All of the resultsdemonstrated that, based on the codon-optimization, it is suitable to use the P. pastoris expression system to produce DuCV VLPs on a large scale. It is the first time that a large amounts of DuCV VLPs were produced successfully in P. pastoris, which might be particularly useful for the further studies of serological diagnosis and vaccines of DuCV.展开更多
Pseudorabies virus(PRV),in the family Herpesviridae,is a pathogen of Aujeszky’s disease,which causes great economic losses to the pig industry.Recent outbreaks of Pseudorabies imply that new control measures are urge...Pseudorabies virus(PRV),in the family Herpesviridae,is a pathogen of Aujeszky’s disease,which causes great economic losses to the pig industry.Recent outbreaks of Pseudorabies imply that new control measures are urgently needed.The present study shows that kaempferol is a candidate drug for controlling PRV infection,as it possesses the ability to inhibit PRV replication in a dose-dependent manner in vitro.Kaempferol at a concentration of 52.40μmol L^(-1) could decrease PRV-induced cell death by 90%.With an 50%inhibitory concentration(IC50)value of 25.57μmol L^(-1),kaempferol was more effective than acyclovir(positive control)which has an IC50 value of 54.97μmol L^(-1).A mode of action study indicated that kaempferol inhibited viral penetration and replication stages,decreasing viral loads by 4-and 30-fold,respectively.Addition of kaempferol within 16 h post infection(hpi)could significantly inhibit virus replication,and viral genome copies were decreased by almost 15-fold when kaempferol was added at 2 hpi.Kaempferol regulated the NF-κB and MAPKs signaling pathways involved in PRV infection and changed the levels of the target genes of the MAPKs(ATF-2 and c-Jun)and NF-κB(IL-1α,IL-1βand IL-2)signaling pathways.The findings of the current study suggest that kaempferol could be an alternative measure to control PRV infection.展开更多
CD8, a glycoprotein on the surface of T cells, is involved in the defense against viral infection and plays significant roles in antigen presentation and in the antiviral immune response. CD8 is composed of two chains...CD8, a glycoprotein on the surface of T cells, is involved in the defense against viral infection and plays significant roles in antigen presentation and in the antiviral immune response. CD8 is composed of two chains. Of these, the CD8α chain was chosen for the detection because it involved in both the CD8αα homodimer and the CD8αβ heterodimer. Here, we established a double antibody sandwich enzyme-linked immunosorbent assay(DAS-ELISA) for specific detection of goose CD8α(go CD8α). The results showed that the optimal coated antibody and antigen dilutions were 1:50(the antibody titer was 1:12 800) and 1:32(0.3 ng m L^–1), respectively, while the optimal capture antibody and horseradish peroxidase(HRP)-labelled goat anti-rabbit Ig G dilutions were 1:50(the antibody titer was 1:51 200) and 1:4 000(the antibody titer was 1:5 000), respectively. The optimal blocking buffer was 5% bovine serum albumin(BSA). The best incubating condition was overnight at 4℃, the best blocking time was 120 min and the best anti-capture antibody working time was 150 min. In addition, the minimum dose detectable by DAS-ELISA was 5×10^–3 ng m L^–1. Most importantly, go CD8α expression levels in goose spleen mononuclear cells(MNCs) post-Goose parvoviruse(GPV) infection were found to be significantly up-regulated using the DAS-ELISA method, which was consistent with previous results obtained using real-time quantitative PCR. In conclusion, the DAS-ELISA method reported here is a novel, specific technique for the clinical detection of go CD8α.展开更多
Saponin frsom Cortex Albiziae(SCA) are extensively used in the clinical treatment of tumor and depression. However, SCA may cause several adverse effects, including reproductive toxicity. The present study was designe...Saponin frsom Cortex Albiziae(SCA) are extensively used in the clinical treatment of tumor and depression. However, SCA may cause several adverse effects, including reproductive toxicity. The present study was designed to assess the mechanism by which SCA cause reproductive toxicity in female mice. The general reproductive toxicity testing was accomplished in female Kunming mice. The animals were divided into four groups: three groups that were treated by oral gavage with 135, 270, and 540 mg·kg-1·d-1 of SCA prepared in physiological saline, respectively, and one vehicle control group that was treated with physiological saline only. The gestational toxicity tests were conducted at 540 mg·kg-1·d-1. The general reproductive toxicity results showed that the pregnancy rate of the SCA-treated group decreased with the pregnancy rate being decreased by 70% at 540 mg·kg-1·d-1. SCA elicited maternal toxicity in the ovary and the uterus, but no fetal toxicity or teratogenicity was observed. The rates of implantation in the early, middle, and late pregnancy were all decreased, with stillbirths and maternal deaths being observed. Histopathological changes showed that SCA adversely affected the ovary and the uterus. In conclusion, SCA-induced reproductive toxicity in female mice is most likely caused by its damage to the ovary and the uterus.展开更多
基金supported by the grants from the National Natural Science Foundation of China(31072157)the National Key Technologies R&D Program of China during the 12th Five-Year Plan period(2015BAD12B05)+1 种基金the Foundation of China Agricultural Research System(CARS-43-8)the Major Project of Education Department in Sichuan,China(16ZA0027)
文摘Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, our understanding of the role of gC in facilitating attachment of other alpha-herpes viruses such as the duck plague virus (DPV) remains preliminary. To study the role of gC during DPV infection, we used a gC-deleted mutant virus (DPV-AgC-EGFP). Examination of the viral copy number by real-time PCR, as well as time course studies of viral adsorption and proliferation revealed that gC was involved in the viral binding to the cell surface. The affinity of viral glycoproteins (gB-DPV, gC-DPV, and gE-DPV) to HS was assessed using a prokaryotic expression system and HJTrapTM HeparJn HP column chromatography. In addition, to confirm that gC played a role in the interaction between DPV and HS, viruses were treated with the HS analogue heparin and host cells were treated with its inhibitors heparinase prior to exposure to DPV-△gC-EGFP or wild-type strain Chinese virulent duck plague virus (DPV-CHv). The effects of heparin and heparinase on virus infectivity demonstrated that function of gC on Viral adsorption is independent of interactions between gC and heparin sulfate on cell surface. All in all, this study demonstrated that the gC of DPV can mediate viral adsorption in an HS-independent manner, which distinguish it from the gC of some other alpha-herpes viruses. Future studies will be required to identify the receptors involved in gC protein binding to cells. This work provides us a foundation for further studies of examining the roles of gC in the adsorption during duck plague virus infection.
基金supported by the National Natural Science Foundation of China (31372477)the International Cooperation Projects of Sichuan Province, China (2014HH0058, 2013HH0042)the Sichuan Youth Science and Technology Innovation Research Team for waterfowl disease prevention and control, China (2013TD0015)
文摘The present study investigated acute and subchronic toxicity and safety pharmacology of modified pulsatilla granules(MPG)to provide a basis for a comprehensive understanding of MPG toxicity.The results of acute toxicity testing showed that the median lethal dose of MPG was more than 5 000 mg kg^-1,suggesting that MPG was considered as practically non-toxic.The subchronic toxicity study for 30 days was conducted by daily oral administration at doses of 375,750 and 1 500 mg kg^-1 in Sprague-Dawley rats.The results of subchronic toxicity study showed that the body weight and relative organ weight were not significantly changed by administration of MPG.The clinical chemistry study showed that MPG could induce kidney and liver damages.In histopathological,mild lesions in liver and kidney were also observed,suggesting that the liver and kidney might be potential target organs of MPG.In the safety pharmacology study,MPG did not exhibited any side effects to rats in cardiovascular system,respiratory system and central nervous system.These results suggested that MPG could be considered safe for veterinary use.
基金supported by the program for Changjiang Scholars and Innovative Research Team in University,China (PCSIRT0848)Sichuan Agricultural University Youth Fundation,China(2006C18)the State Key Laboratory of Veterinary Etiologocal Biology,Lanzhou Veterinary Research Institute,Chinese Acad-emy of Agricultural Sciences(SKLVEB2009KFKT022)
文摘The 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester from neem oil was investigated for antibacterial activity against three bacterial strains viz., Staphylococcus aureus ATCC No. 25923, Escherichia coli ATCC No. 44102 and Salmonella sp. ATCC No. 50 041 in vitro. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) values of the 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester were determined by using the broth microdilution dilution (BMD) method at different concentrations ranging from 20 to 0.625 mg mL-1. Its time-inhibition curve against E. coli was also tested and showed that the MIC values for the bacterial strains S. aureus, E. coli and Salmonella sp. were 20, 5 and 10 mg mL-1, respectively. Its MBC values were 20, 20 and 10 mg mL-1, respectively. The antibacterial activity of 9-octadecanoic acid-hexadecanoic acid-tetrahydrofuran-3,4-diyl ester against three strain tested showed the relationship with time and concentration.
基金supported by grants from the National Key Research and Development Program of China(2017YFD0500800)the earmarked fund for China Agriculture Research System(CARS-42-17)+1 种基金the Integration and Demonstration of Key Technologies for Goose Industrial Chain in Sichuan Province,China(2018NZ0005)the Sichuan Veterinary Medicine and Drug Innovation Group of China Agriculture Research System(SCCXTD-2020-18)。
文摘Recombinant virus-vectored vaccines are novel agents that can effectively activate specific and nonspecific immunity,are multivalent and multieffective,and have high safety ratings.Animal alphaherpesviruses have a large genome,contain multiple nonessential regions that do not affect viral replication and are capable of accepting the insertion of an exogenous gene and expressing the antigen protein.Furthermore,animal alphaherpesviruses have a wide host spectrum,can replicate in the host and continuously stimulate the animal to produce immunity to the corresponding pathogen,thus making them ideal carriers for recombinant virus-vectored vaccines.With the development of gene-editing technology,recombinant viruses capable of expressing foreign genes can be constructed by various methods.Currently,studies on recombinant virusvectored vaccines constructed based on animal alphaherpesviruses have involved poultry,pigs,cattle,sheep,and companion animals.Studies have shown that the construction of recombinant animal alphaherpesviruses enables the acquisition of immunity to multiple diseases.This article mainly summarizes the current progress on animal alphaherpesvirus-vectored vaccines,aiming to provide reference for the development of new animal alphaherpesvirus-vectored vaccines.
基金supported by the National Key Technology R&D Program of China(2015BAD12B05)the earmarked fund for China Agricultural Research System(CARS-43-8)+1 种基金the Integration and Demonstration of Key Technologies for Duck Industry in Sichuan Province,China(2014NZ0030)the Sichuan Province Research Programs,China(2014-002)
文摘Duck hepatitis B virus(DHBV) shares many basic characteristics with hepatitis B virus(HBV) and is an attractive model for vaccine development. In this study, DHBV DNA vaccines were designed to express envelope and capsid fusion proteins to enhance the breadth of immune response in ducks. Attenuated Salmonella typhimurium(SL7207) was used as a carrier and adjuvant to boost the magnitude of immune response. Based on this strategy, novel DNA vaccines(SL7207-p VAX1-LC and SL7207-p VAX1-SC) were generated. Growth kinetics, genetic stabilities and relative transcription levels of the L, S and C genes introduced by these vaccine strains were measured before inoculation to guarantee safety and efficacy. The relative transcript levels of the CD4 and CD8 T genes and the antibody levels(Ig Y) in ducks receiving the vaccines were higher than those in single gene delivered groups. Additionally, the copy number of covalently closed circular DNA in hepatocytes after DHBV challenge also provided evidence that our fusion vaccines could enhance the protective efficiency against DHBV infection in ducks.
基金supported by the National Science and Technology Support Program(2015BAD12B05)the China Agricultural Research System(CARS-43-8)+2 种基金the Integration and Demonstration of Key Technologies for Duck Industrial in Sichuan Province,China(2014NZ0030)the Ministry of Education Program of China(20125103110013)the Sichuan Province Research Programs,China(2013HH0042/2013 TD0015/2014-002)
文摘The capsid (Cap) protein, which is the only structural protein of duck circovirus (DuCV), is the most important antigen for the development of vaccines against DuCV and the virus's serological diagnostic methods. In order to use yeast expression system to produce a large quantities of DuCVCap protein which is close to its natural form to display the antigen peptides perfectly, the Cap gene was optimized into the codon-optimized capsid (Opt-Cap) gene towards the preference of yeast firstly. Then, the genes of Cap and Opt-Cap were separately cloned into pPIC9K plasmid and transformed into Picha pas- toris GSl15. The strains that displayed the phenotype of Mut~ and contained multiple inserts of expression cassette were selected from those colonies. After the induction expression, the secretory type of Cap protein, which was about 43 kDa, was best expressed under 0.5% (v/v) methanol and sorbitol induction. Compared with the Cap gene, the expression level of Opt-Cap gene was much higher. What's more, the purified Cap protein had a good reactivity to its specific polyclone antibody and DuCV-positive serum, and it was able to self-assemble into virus-like particles (VLPs). These VLPs, with a diameter of 15-20 nm and without a nucleic acid structure, showed a high level of similarity to DuCV particles in size and shape. All of the resultsdemonstrated that, based on the codon-optimization, it is suitable to use the P. pastoris expression system to produce DuCV VLPs on a large scale. It is the first time that a large amounts of DuCV VLPs were produced successfully in P. pastoris, which might be particularly useful for the further studies of serological diagnosis and vaccines of DuCV.
基金This work was supported by the Program of Sichuan Veterinary Medicine and Drug Innovation Group of China Agricultural Research System(SCCXTD-2020-18)the Science and Technology Project of Sichuan Province,China(2018NZ0043,2018NZ0064 and 2018HH0076).
文摘Pseudorabies virus(PRV),in the family Herpesviridae,is a pathogen of Aujeszky’s disease,which causes great economic losses to the pig industry.Recent outbreaks of Pseudorabies imply that new control measures are urgently needed.The present study shows that kaempferol is a candidate drug for controlling PRV infection,as it possesses the ability to inhibit PRV replication in a dose-dependent manner in vitro.Kaempferol at a concentration of 52.40μmol L^(-1) could decrease PRV-induced cell death by 90%.With an 50%inhibitory concentration(IC50)value of 25.57μmol L^(-1),kaempferol was more effective than acyclovir(positive control)which has an IC50 value of 54.97μmol L^(-1).A mode of action study indicated that kaempferol inhibited viral penetration and replication stages,decreasing viral loads by 4-and 30-fold,respectively.Addition of kaempferol within 16 h post infection(hpi)could significantly inhibit virus replication,and viral genome copies were decreased by almost 15-fold when kaempferol was added at 2 hpi.Kaempferol regulated the NF-κB and MAPKs signaling pathways involved in PRV infection and changed the levels of the target genes of the MAPKs(ATF-2 and c-Jun)and NF-κB(IL-1α,IL-1βand IL-2)signaling pathways.The findings of the current study suggest that kaempferol could be an alternative measure to control PRV infection.
基金funded by the National Natural Science Foundation of China (31201891)the Ph D Programs Foundation of Ministry of Education of China (20125103120012)+3 种基金the Innovative Research Team Program in Education Department of Sichuan Province, China (2013TD0015)the National Key Technology R&D Program of China (2015BAD12B05)the Integration and Demonstration of Key Technologies for Duck Industrial in Sichuan Province, China (2014NZ0030)the China Agricultural Research System (CARS-43-8)
文摘CD8, a glycoprotein on the surface of T cells, is involved in the defense against viral infection and plays significant roles in antigen presentation and in the antiviral immune response. CD8 is composed of two chains. Of these, the CD8α chain was chosen for the detection because it involved in both the CD8αα homodimer and the CD8αβ heterodimer. Here, we established a double antibody sandwich enzyme-linked immunosorbent assay(DAS-ELISA) for specific detection of goose CD8α(go CD8α). The results showed that the optimal coated antibody and antigen dilutions were 1:50(the antibody titer was 1:12 800) and 1:32(0.3 ng m L^–1), respectively, while the optimal capture antibody and horseradish peroxidase(HRP)-labelled goat anti-rabbit Ig G dilutions were 1:50(the antibody titer was 1:51 200) and 1:4 000(the antibody titer was 1:5 000), respectively. The optimal blocking buffer was 5% bovine serum albumin(BSA). The best incubating condition was overnight at 4℃, the best blocking time was 120 min and the best anti-capture antibody working time was 150 min. In addition, the minimum dose detectable by DAS-ELISA was 5×10^–3 ng m L^–1. Most importantly, go CD8α expression levels in goose spleen mononuclear cells(MNCs) post-Goose parvoviruse(GPV) infection were found to be significantly up-regulated using the DAS-ELISA method, which was consistent with previous results obtained using real-time quantitative PCR. In conclusion, the DAS-ELISA method reported here is a novel, specific technique for the clinical detection of go CD8α.
基金supported by the Public Welfare Industry(Agriculture)Research Project(No.201203041)Sichuan Province Science and Technology Support Plan(No.13ZC1635)Sichuan Youth Science and Technology Innovation Research Team for waterfowl disease prevention and control(No.2013TD0015)
文摘Saponin frsom Cortex Albiziae(SCA) are extensively used in the clinical treatment of tumor and depression. However, SCA may cause several adverse effects, including reproductive toxicity. The present study was designed to assess the mechanism by which SCA cause reproductive toxicity in female mice. The general reproductive toxicity testing was accomplished in female Kunming mice. The animals were divided into four groups: three groups that were treated by oral gavage with 135, 270, and 540 mg·kg-1·d-1 of SCA prepared in physiological saline, respectively, and one vehicle control group that was treated with physiological saline only. The gestational toxicity tests were conducted at 540 mg·kg-1·d-1. The general reproductive toxicity results showed that the pregnancy rate of the SCA-treated group decreased with the pregnancy rate being decreased by 70% at 540 mg·kg-1·d-1. SCA elicited maternal toxicity in the ovary and the uterus, but no fetal toxicity or teratogenicity was observed. The rates of implantation in the early, middle, and late pregnancy were all decreased, with stillbirths and maternal deaths being observed. Histopathological changes showed that SCA adversely affected the ovary and the uterus. In conclusion, SCA-induced reproductive toxicity in female mice is most likely caused by its damage to the ovary and the uterus.
