Objective To construct the eukaryotic expression recombinant plasmid, pcIFN γ, as a genetic adjuvant and observe the immune responses elicited by pcDNA3 rhoptry protein 1 (pc ROP1) combined with pcIFN γ aga...Objective To construct the eukaryotic expression recombinant plasmid, pcIFN γ, as a genetic adjuvant and observe the immune responses elicited by pcDNA3 rhoptry protein 1 (pc ROP1) combined with pcIFN γ against Toxoplasma gondii (T gondii) infection in mice Methods A fragment of the IFN γ gene was directly inserted into the pcDNA3 plasmid and identified by two restriction endonucleases digestion pcIFN and pcROP1 DNA was injected into the left leg muscle of mice at a dosage of 100?μg, and a booster vaccination was given at the same dosage after two weeks Control groups were injected with pcDNA3 blank plasmid or normal saline At 30, 50 and 70 days after booster injection, kinetic tests were carried out: MTT assay for the proliferation response of T lymphocyte cells and the activity of NK cells, sandwich ABC ELISA for the determination of IFN γ, IL 2 and IL 10; a serum enzymetic aassay for nitric oxide (NO) in sera and ELISA for the titer of IgG antibody in sera Results The recombinant plasmid, pcIFN γ was constructed The proliferation response of spleen T lymph cells, NK cell killing activity, and serum levels of IFN γ, IL 2 and NO in mice injected with pcROP1 and pcIFN γ were higher than in those injected with pcROP1 alone There was no difference in IgG antibody levels between the two groups Conclusion The genetic adjuvant, pcIFN γ, could enhance the cellular immune response induced by DNA vaccine of pcROP1 in mice against Toxoplasma gondii infection展开更多
Objective To observe the immune responses elicited in BALB/c mice by a DNA vaccine. A gene encoding rhoptry protein 1 (ROP1) from Toxoplasma gondii (T. gondii) was cloned into vector pcDNA3. Methods Amplifyied gene ...Objective To observe the immune responses elicited in BALB/c mice by a DNA vaccine. A gene encoding rhoptry protein 1 (ROP1) from Toxoplasma gondii (T. gondii) was cloned into vector pcDNA3. Methods Amplifyied gene fragments coding for ROP1 from the genomic DNA of T.gondii ZS2 were inserted into cloning vector, pUC18, and sub-cloned into pcDNA3. Mice were injected at a dosage of 100?μg recombinant plasmid DNA by intramuscular injection and boosted after 2 weeks. pcDNA3 and normal saline were used as control. 30, 50 and 70 days after the second immunization, NK cell activity, T lymphocyte proliferation and sub-clusters and serum IgG antibody were assayed.Results The specific gene fragment coding for ROP1 was amplified and a pcROP1 recombinant was constructed. At 30 days after immunization, the spleens of the mice were obviously enlarged evidently. NKC activity and the proliferation of spleen T lymphocytes seen on MTT assay were higher in pcROP1 group than in the controls. The number of CD4+ T cells exhibited no obvious increase compared with that of the control, but CD8+ T cells were obviously increased (P<0.05). At 90 days after vaccination, the titer of IgG antibody in the serum of vaccinated mice was positive (1∶100). Conclusion pcROP1 was constructed and it could elicit both cellular and humoral immune responses in immunized mice.展开更多
Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host...Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host’s immune system is compromised.Rhoptry proteins are major virulence factors that enable T.gondii to invade host cells.This study aims to construct a T.gondii rhoptry protein 41(rop41/ROP41)gene knockout strain and preliminarily investigate the biological function of rop41.Methods:Using CRISPR/Cas9 technology,a specific single-guide RNA(sgRNA)for the target gene was designed and linked to a recombinant plasmid.Homologous fragments were fused with a pyrimethamine resistance gene for selection purposes.The recombinant plasmid and the homologous fragments were electroporated into T.gondii,and PCR identification was performed after drug selection and monoclonal screening.Plaque assays were used to comprehensively assess whether rop41 affected the growth and proliferation of T.gondii in host cells.Invasion and proliferation assays were conducted to evaluate the invasion ability of the knockout strain into host cells and its intracellular proliferation capacity.The STRING database was utilized to construct a protein-protein interaction(PPI)network,and functional enrichment analysis was performed to predict the signaling pathways in which ROP41 might be involved.Results:The T.gondii rop41 gene knockout strain(RHΔku80Δrop41)was successfully constructed and stably inherited.Plaque assays showed that compared with the parental strain,the number of plaques formed by the rop41 gene knockout strain did not significantly decrease,but the reduction in plaque size was statistically significant(P<0.05).After the rop41 gene was knocked out,the invasion ability of T.gondii was reduced,but there was no statistically significant difference in its proliferation ability(P>0.05).The PPI network revealed that ROP41 was associated with other protein kinases and autophagy related proteins.Enrichment analysis indicated that proteins interacting with ROP41 may be involved in signal transduction,biosynthesis,metabolism,and autophagy-related pathways and could be components of various kinase complexes and phagocytic vesicles.Conclusion:The T.gondii RHΔku80Δrop41 strain has been successfully constructed.ROP41 primarily affects the ability of T.gondii to invade host cells and may play a role in signal transduction and autophagy-related pathways between T.gondii and the host.展开更多
Toxoplasma gondii is a protozoan of worldwide distribution and the agent of toxoplasmosis.It is estimated that 30%–50%of the world population could be infected with this parasite.Although the infection in immunocompe...Toxoplasma gondii is a protozoan of worldwide distribution and the agent of toxoplasmosis.It is estimated that 30%–50%of the world population could be infected with this parasite.Although the infection in immunocompetent individuals is mostly asymptomatic,the disease in immunosuppressed and pregnant is a risk condition.As a member of the phylum Apicomplexa,T.gondii has an obligatory intracellular lifestyle;therefore,invading a host cell and establishing it inside a parasitophorous vacuole(PV)are mandatories for the survival of this parasite.The construction of a perfect intracellular niche for T.gondii requires the secretion of an arsenal of proteins from unique secretory organelles.These proteins will remodel the vacuolar environment and the host cell organization and functions,allowing the parasite to access essential nutrients and stay“invisible”inside a host cell.In the present review,we will discuss the main steps involved in the PV formation and its differentiation to tissue cyst,focusing mainly on the strategies employed in the acquisition of nutrients and proteins involved in host cell modification.展开更多
文摘Objective To construct the eukaryotic expression recombinant plasmid, pcIFN γ, as a genetic adjuvant and observe the immune responses elicited by pcDNA3 rhoptry protein 1 (pc ROP1) combined with pcIFN γ against Toxoplasma gondii (T gondii) infection in mice Methods A fragment of the IFN γ gene was directly inserted into the pcDNA3 plasmid and identified by two restriction endonucleases digestion pcIFN and pcROP1 DNA was injected into the left leg muscle of mice at a dosage of 100?μg, and a booster vaccination was given at the same dosage after two weeks Control groups were injected with pcDNA3 blank plasmid or normal saline At 30, 50 and 70 days after booster injection, kinetic tests were carried out: MTT assay for the proliferation response of T lymphocyte cells and the activity of NK cells, sandwich ABC ELISA for the determination of IFN γ, IL 2 and IL 10; a serum enzymetic aassay for nitric oxide (NO) in sera and ELISA for the titer of IgG antibody in sera Results The recombinant plasmid, pcIFN γ was constructed The proliferation response of spleen T lymph cells, NK cell killing activity, and serum levels of IFN γ, IL 2 and NO in mice injected with pcROP1 and pcIFN γ were higher than in those injected with pcROP1 alone There was no difference in IgG antibody levels between the two groups Conclusion The genetic adjuvant, pcIFN γ, could enhance the cellular immune response induced by DNA vaccine of pcROP1 in mice against Toxoplasma gondii infection
文摘Objective To observe the immune responses elicited in BALB/c mice by a DNA vaccine. A gene encoding rhoptry protein 1 (ROP1) from Toxoplasma gondii (T. gondii) was cloned into vector pcDNA3. Methods Amplifyied gene fragments coding for ROP1 from the genomic DNA of T.gondii ZS2 were inserted into cloning vector, pUC18, and sub-cloned into pcDNA3. Mice were injected at a dosage of 100?μg recombinant plasmid DNA by intramuscular injection and boosted after 2 weeks. pcDNA3 and normal saline were used as control. 30, 50 and 70 days after the second immunization, NK cell activity, T lymphocyte proliferation and sub-clusters and serum IgG antibody were assayed.Results The specific gene fragment coding for ROP1 was amplified and a pcROP1 recombinant was constructed. At 30 days after immunization, the spleens of the mice were obviously enlarged evidently. NKC activity and the proliferation of spleen T lymphocytes seen on MTT assay were higher in pcROP1 group than in the controls. The number of CD4+ T cells exhibited no obvious increase compared with that of the control, but CD8+ T cells were obviously increased (P<0.05). At 90 days after vaccination, the titer of IgG antibody in the serum of vaccinated mice was positive (1∶100). Conclusion pcROP1 was constructed and it could elicit both cellular and humoral immune responses in immunized mice.
基金supported by the National Natural Science Foundation of China(32170510)the Innovation Training Program of Central South University(20240026020055),China.
文摘Objective:Toxoplasmosis is a zoonotic parasitic disease caused by Toxoplasma gondii(T.gondii),which can lead to complications such as encephalitis and ocular toxoplasmosis.The disease becomes more severe when the host’s immune system is compromised.Rhoptry proteins are major virulence factors that enable T.gondii to invade host cells.This study aims to construct a T.gondii rhoptry protein 41(rop41/ROP41)gene knockout strain and preliminarily investigate the biological function of rop41.Methods:Using CRISPR/Cas9 technology,a specific single-guide RNA(sgRNA)for the target gene was designed and linked to a recombinant plasmid.Homologous fragments were fused with a pyrimethamine resistance gene for selection purposes.The recombinant plasmid and the homologous fragments were electroporated into T.gondii,and PCR identification was performed after drug selection and monoclonal screening.Plaque assays were used to comprehensively assess whether rop41 affected the growth and proliferation of T.gondii in host cells.Invasion and proliferation assays were conducted to evaluate the invasion ability of the knockout strain into host cells and its intracellular proliferation capacity.The STRING database was utilized to construct a protein-protein interaction(PPI)network,and functional enrichment analysis was performed to predict the signaling pathways in which ROP41 might be involved.Results:The T.gondii rop41 gene knockout strain(RHΔku80Δrop41)was successfully constructed and stably inherited.Plaque assays showed that compared with the parental strain,the number of plaques formed by the rop41 gene knockout strain did not significantly decrease,but the reduction in plaque size was statistically significant(P<0.05).After the rop41 gene was knocked out,the invasion ability of T.gondii was reduced,but there was no statistically significant difference in its proliferation ability(P>0.05).The PPI network revealed that ROP41 was associated with other protein kinases and autophagy related proteins.Enrichment analysis indicated that proteins interacting with ROP41 may be involved in signal transduction,biosynthesis,metabolism,and autophagy-related pathways and could be components of various kinase complexes and phagocytic vesicles.Conclusion:The T.gondii RHΔku80Δrop41 strain has been successfully constructed.ROP41 primarily affects the ability of T.gondii to invade host cells and may play a role in signal transduction and autophagy-related pathways between T.gondii and the host.
文摘Toxoplasma gondii is a protozoan of worldwide distribution and the agent of toxoplasmosis.It is estimated that 30%–50%of the world population could be infected with this parasite.Although the infection in immunocompetent individuals is mostly asymptomatic,the disease in immunosuppressed and pregnant is a risk condition.As a member of the phylum Apicomplexa,T.gondii has an obligatory intracellular lifestyle;therefore,invading a host cell and establishing it inside a parasitophorous vacuole(PV)are mandatories for the survival of this parasite.The construction of a perfect intracellular niche for T.gondii requires the secretion of an arsenal of proteins from unique secretory organelles.These proteins will remodel the vacuolar environment and the host cell organization and functions,allowing the parasite to access essential nutrients and stay“invisible”inside a host cell.In the present review,we will discuss the main steps involved in the PV formation and its differentiation to tissue cyst,focusing mainly on the strategies employed in the acquisition of nutrients and proteins involved in host cell modification.
