The aim of this study is to explore the immunogenicity of African swine fever virus p37 recombinant protein in mice.C57BL/6J mice were immunized subcutaneously in the abdomen using p37 recombinant protein as antigen.The second immunization was performed 21 d after the first immunization.Serum-specific antibody levels were detected by ELISA;serum cytokine levels were detected using a multifactor assay technique;mice splenic lymphocytes were isolated 7 d after sec-ondary immunization,and the number of splenic lymphocytes secreting IFN-γ after recombinant protein stimulation was detected by ELISpot;and the ratio of CD4+T cells to CD8+T cells was detected by flow cytometry.The results of indirect ELISA showed that p37 recombinant protein could stimulate mice to produce high levels of specific antibodies;ELISpot showed that p37 recom-binant protein could significantly stimulate splenic lymphocytes to produce IFN-γ(P＜0.001)and activate cellular immune responses;the results of flow cytometry showed that it could signifi-cantly stimulate the differentiation of T-lymphocytes to CD4+T-lymphocytes(P＜0.001).In ad-dition,serum levels of IL-2,IL-4,IFN-γ,and TNF-α immune-related cytokines were significantly higher after the second immunization.Immunization of mice with p37 recombinant protein induced strong humoral and cellular immune responses with good immunogenicity,providing reference for the subsequent epitope identification and functional study of p37 protein and the antigen screening of ASF mRNA vaccine.

Objective:To analyze the epidemiological and clinical features of infectious diseases of the central nervous system (CNS).Methods:A cross-sectional study and analysis were conducted to summarize the epidemiological and clinical characteristics of 9 918 patients with CNS infectious diseases, who were diagnosed and treated at 29 hospitals across China from January 1, 2001 to December 31, 2020. Data collected included demographic data, clinical manifestations, health economic indicators, and prognostic outcomes.Results:Among the 9 918 collected cases of CNS infectious diseases, 5 559 were male (56.0%) and 4 359 were female (44.0%), with an onset age of 38 (25, 53) years. Education level: slightly more junior high school education (2 651 cases, 26.7%), and less elementary school education and below (2 181 cases, 22.0%) were found. Occupational distribution: farmers were found predominant (3 215 cases, 32.4%), followed by workers (1 826 cases, 18.4%) and students (1 633 cases, 16.5%). Clinical manifestations: headache (6 074 cases, 61.2%), fever (5 869 cases, 59.2%) and positive meningeal irritation signs (2 273 cases, 22.9%) were the 3 most common clinical manifestations, followed by nausea and (or) vomiting (2 095 cases, 21.1%), impaired consciousness (2 077 cases, 20.9%), psychiatric symptom (1 866 cases, 18.8%) and epilepsy (1 627 cases, 16.4%), etc., and cranial nerve involvement was found in 669 cases (6.7%). Major pathogens included viruses in 6 814 cases (68.7%), Mycobacterium tuberculosis in 1 677 cases (16.9%), common bacteria in 864 cases (8.7%), fungi in 254 cases (2.6%), spirochetes of syphilis in 183 cases (1.8%), parasites in 121 cases (1.2%), and rickettsiae in 5 cases (0.1%). Urban-rural distribution: slightly more cases were found in the countryside (5 418 cases, 54.6%) than in the towns (4 500 cases, 45.4%). Distribution of onset by season: 2 412 cases (24.3%) fell ill in spring, 2 835 cases (28.6%) in summer, 2 187 cases (22.1%) in fall, and 2 484 cases (25.0%) in winter. Health economics: the duration of hospitalization was 15 (8, 27) days, and the cost of hospitalization was 1.53 (0.91, 3.02)×10 000 yuan. Prognosis: 9 531 cases (96.1%) were cured or improved, and 92 cases (0.9%) died. Conclusions:The pathogens responsible for CNS infectious diseases are predominantly viruses. Although the incidence is slightly higher during the summer months, the overall seasonal pattern is not particularly pronounced. These infections are more commonly observed in young and middle-aged males and present with a diverse range of clinical manifestations, contributing to a significant disease burden.

Objective:To develop a novel ovarian biological age prediction model based on DNA methylation for ovarian aging assessment.Methods:A prospective cohort study method was used. From March 2024 to January 2025, we collected 96 ovarian granulosa cell samples of infertility patients due to fallopian tube factors or male factors from the Reproductive Medicine Center of the Second Affiliated Hospital of Naval Medical University. Then we analyzed DNA methylation patterns across five age-associated gene regions ( ELOVL2, miR29B2C, TRIM59, KLF14 and FHL2) in a discovery cohort comprising 63 human ovarian granulosa cell samples. Targeted bisulfite sequencing was performed through PCR amplification followed by next-generation DNA sequencing. Leveraging elastic net regression analysis, we developed a predictive model incorporating 29 methylation sites that demonstrated strong age correlation. The model was subsequently validated using an independent cohort comprising 33 human ovarian granulosa cell samples. Results:The DNA methylation age prediction model based on ovarian granulosa cells showed the following results in the discovery cohort as follows: median absolute error (MAE) was 2.534 ( R=0.742, P<0.001). In the independent validation cohort, MAE was 3.019 ( R=0.729, P<0.001). Conclusion:In this study, we utilized human ovarian granulosa cells as experimental samples to develop a novel DNA methylation-based model for predicting ovarian biological age. By integrating multiple methylation sites across five age-related gene regions, this model serves as a robust indicator of ovarian aging status.

Objective:To develop a novel ovarian biological age prediction model based on DNA methylation for ovarian aging assessment.Methods:A prospective cohort study method was used. From March 2024 to January 2025, we collected 96 ovarian granulosa cell samples of infertility patients due to fallopian tube factors or male factors from the Reproductive Medicine Center of the Second Affiliated Hospital of Naval Medical University. Then we analyzed DNA methylation patterns across five age-associated gene regions ( ELOVL2, miR29B2C, TRIM59, KLF14 and FHL2) in a discovery cohort comprising 63 human ovarian granulosa cell samples. Targeted bisulfite sequencing was performed through PCR amplification followed by next-generation DNA sequencing. Leveraging elastic net regression analysis, we developed a predictive model incorporating 29 methylation sites that demonstrated strong age correlation. The model was subsequently validated using an independent cohort comprising 33 human ovarian granulosa cell samples. Results:The DNA methylation age prediction model based on ovarian granulosa cells showed the following results in the discovery cohort as follows: median absolute error (MAE) was 2.534 ( R=0.742, P<0.001). In the independent validation cohort, MAE was 3.019 ( R=0.729, P<0.001). Conclusion:In this study, we utilized human ovarian granulosa cells as experimental samples to develop a novel DNA methylation-based model for predicting ovarian biological age. By integrating multiple methylation sites across five age-related gene regions, this model serves as a robust indicator of ovarian aging status.

The aim of this study is to explore the immunogenicity of African swine fever virus p37 recombinant protein in mice.C57BL/6J mice were immunized subcutaneously in the abdomen using p37 recombinant protein as antigen.The second immunization was performed 21 d after the first immunization.Serum-specific antibody levels were detected by ELISA;serum cytokine levels were detected using a multifactor assay technique;mice splenic lymphocytes were isolated 7 d after sec-ondary immunization,and the number of splenic lymphocytes secreting IFN-γ after recombinant protein stimulation was detected by ELISpot;and the ratio of CD4+T cells to CD8+T cells was detected by flow cytometry.The results of indirect ELISA showed that p37 recombinant protein could stimulate mice to produce high levels of specific antibodies;ELISpot showed that p37 recom-binant protein could significantly stimulate splenic lymphocytes to produce IFN-γ(P＜0.001)and activate cellular immune responses;the results of flow cytometry showed that it could signifi-cantly stimulate the differentiation of T-lymphocytes to CD4+T-lymphocytes(P＜0.001).In ad-dition,serum levels of IL-2,IL-4,IFN-γ,and TNF-α immune-related cytokines were significantly higher after the second immunization.Immunization of mice with p37 recombinant protein induced strong humoral and cellular immune responses with good immunogenicity,providing reference for the subsequent epitope identification and functional study of p37 protein and the antigen screening of ASF mRNA vaccine.

Objective:To analyze the epidemiological and clinical features of infectious diseases of the central nervous system (CNS).Methods:A cross-sectional study and analysis were conducted to summarize the epidemiological and clinical characteristics of 9 918 patients with CNS infectious diseases, who were diagnosed and treated at 29 hospitals across China from January 1, 2001 to December 31, 2020. Data collected included demographic data, clinical manifestations, health economic indicators, and prognostic outcomes.Results:Among the 9 918 collected cases of CNS infectious diseases, 5 559 were male (56.0%) and 4 359 were female (44.0%), with an onset age of 38 (25, 53) years. Education level: slightly more junior high school education (2 651 cases, 26.7%), and less elementary school education and below (2 181 cases, 22.0%) were found. Occupational distribution: farmers were found predominant (3 215 cases, 32.4%), followed by workers (1 826 cases, 18.4%) and students (1 633 cases, 16.5%). Clinical manifestations: headache (6 074 cases, 61.2%), fever (5 869 cases, 59.2%) and positive meningeal irritation signs (2 273 cases, 22.9%) were the 3 most common clinical manifestations, followed by nausea and (or) vomiting (2 095 cases, 21.1%), impaired consciousness (2 077 cases, 20.9%), psychiatric symptom (1 866 cases, 18.8%) and epilepsy (1 627 cases, 16.4%), etc., and cranial nerve involvement was found in 669 cases (6.7%). Major pathogens included viruses in 6 814 cases (68.7%), Mycobacterium tuberculosis in 1 677 cases (16.9%), common bacteria in 864 cases (8.7%), fungi in 254 cases (2.6%), spirochetes of syphilis in 183 cases (1.8%), parasites in 121 cases (1.2%), and rickettsiae in 5 cases (0.1%). Urban-rural distribution: slightly more cases were found in the countryside (5 418 cases, 54.6%) than in the towns (4 500 cases, 45.4%). Distribution of onset by season: 2 412 cases (24.3%) fell ill in spring, 2 835 cases (28.6%) in summer, 2 187 cases (22.1%) in fall, and 2 484 cases (25.0%) in winter. Health economics: the duration of hospitalization was 15 (8, 27) days, and the cost of hospitalization was 1.53 (0.91, 3.02)×10 000 yuan. Prognosis: 9 531 cases (96.1%) were cured or improved, and 92 cases (0.9%) died. Conclusions:The pathogens responsible for CNS infectious diseases are predominantly viruses. Although the incidence is slightly higher during the summer months, the overall seasonal pattern is not particularly pronounced. These infections are more commonly observed in young and middle-aged males and present with a diverse range of clinical manifestations, contributing to a significant disease burden.

Objective:To investigate the expression pattern,clinical significance,and the regulatory role of 2',5'-oligoadenylate synthetase 1(OAS1)in the proliferation of pancreatic ductal adenocarcinoma(PDAC)cells.Methods:Public databases such as Gene Expression Omnibus(GEO)and The Cancer Genome Atlas(TCGA)were used to analyze the expression of OAS1 in pancreatic cancer tissues.Immunohistochemical staining was applied to validate the expression level of OAS1 in PDAC tissue microarrays,and the association between OAS1 expression level and the prognosis of patients was analyzed.Real-time fluorescence quantitative PCR was performed to examine the expression level of OAS1 mRNA in different PDAC cell lines.CCK-8 assay and colony formation assay was used to assess the effect of OAS1 on the proliferation of PDAC cells after OAS1 silencing in Patu-8988 and PDC0034 cells by siRNA treatment.Further,Gene Set enrichment analysis(GSEA)was performed to screen for possible molecular mechanism of the regulatory role of OAS1 in PDAC.Cell viability and cholesterol level was analyzed after treatment with mTOR signaling activator MHY1485 in OAS1-silenced Patu-8988 and PDC0034 cells in order to verify the underlying mechanism of the regulatory role of OAS1 in PDAC cell proliferation.Results:Database analysis showed significant upregulation of OAS1 expression in pancreatic cancer tissues(P<0.05).Immunohistochemical staining results from PDAC tissue microarray showed that OAS1 expression was significantly upregulated in PDAC tissues compared with the paired paracancerous tissues,and high OAS1 expression was associated with poor prognosis(P<0.05).Real-time fluorescence quantitative PCR and Western blotting analysis show that OAS1 expression was higher in PDAC cells lines compared with normal ductal cells of the pancreas.The proliferative activity of PDAC cells decreased significantly after OAS1 silencing in Patu-8988 and PDC0034 cells(P<0.001).GSEA results indicated that OAS1 may affect PDAC cell proliferation through mTOR signaling pathway and cholesterol metabolism associated pathway.The mTOR signaling pathway may be inhibited and the total cellular cholesterol decreased after OAS1 silencing.Treatment with mammalian target of rapamycin(mTOR)activator MHY1485 partially reversed the inhibitory effect of OAS1 silencing on the proliferation and cholesterol metabolism of PDAC cells.Conclusion:OAS1 expression is upregulated in PDAC tumor tissues and cells and is associated with poor prognosis.OAS1 may promote the proliferation of pancreatic cancer cells by enhancing cholesterol metabolism through activation of the mTOR signaling pathway.

African swine fever(ASF)is a highly contagious disease caused by the African swine fe-ver virus(ASFV).To evaluate the immunogenicity of the pp62(CP530R)protein of ASFV,the recombinant CP530R protein was expressed in HEK 293F cells transfected with the plasmid pMAL-Fc-CP530R.Six-week-old female C57BL/6J mice were immunized with 10 μg of purified pp62 protein via subcutaneous injection,followed by a booster immunization with the same dosage at 21 days(enhanced).The humoral and cellular immune responses in the mice were then assessed using ELISA,flow cytometry,and ELISpot assays.Western blot analysis confirmed that the pp62 protein was successfully expressed,with a molecular weight of approximately 118.5 kDa.ELISA results indicated that a high level of specific antibodies was detected in the immunized mice,with antibody titers reaching up to 1∶1 638 400 at 7 days after the secondary immunization.The pro-portion of CD8+T lymphocytes in the immunized mice increased compared to the control group(P＜0.05).Results from the Q-PlexTM Mouse Cytokine Screen demonstrated that the secretion levels of IFN-γ,IL-2,IL-4,and IL-10 in serum were significantly upregulated in the immunized mice following secondary immunization(P＜0.001).In summary,these findings indicate that the pp62 protein can significantly stimulate both humoral and cellular immunity in mice,laying the groundwork for further studies on the function of the ASFV pp62 protein and the identification of novel vaccine antigens for ASF.

African swine fever(ASF)is a highly contagious disease caused by the African swine fe-ver virus(ASFV).To evaluate the immunogenicity of the pp62(CP530R)protein of ASFV,the recombinant CP530R protein was expressed in HEK 293F cells transfected with the plasmid pMAL-Fc-CP530R.Six-week-old female C57BL/6J mice were immunized with 10 μg of purified pp62 protein via subcutaneous injection,followed by a booster immunization with the same dosage at 21 days(enhanced).The humoral and cellular immune responses in the mice were then assessed using ELISA,flow cytometry,and ELISpot assays.Western blot analysis confirmed that the pp62 protein was successfully expressed,with a molecular weight of approximately 118.5 kDa.ELISA results indicated that a high level of specific antibodies was detected in the immunized mice,with antibody titers reaching up to 1∶1 638 400 at 7 days after the secondary immunization.The pro-portion of CD8+T lymphocytes in the immunized mice increased compared to the control group(P＜0.05).Results from the Q-PlexTM Mouse Cytokine Screen demonstrated that the secretion levels of IFN-γ,IL-2,IL-4,and IL-10 in serum were significantly upregulated in the immunized mice following secondary immunization(P＜0.001).In summary,these findings indicate that the pp62 protein can significantly stimulate both humoral and cellular immunity in mice,laying the groundwork for further studies on the function of the ASFV pp62 protein and the identification of novel vaccine antigens for ASF.

Objective:To investigate the expression pattern,clinical significance,and the regulatory role of 2',5'-oligoadenylate synthetase 1(OAS1)in the proliferation of pancreatic ductal adenocarcinoma(PDAC)cells.Methods:Public databases such as Gene Expression Omnibus(GEO)and The Cancer Genome Atlas(TCGA)were used to analyze the expression of OAS1 in pancreatic cancer tissues.Immunohistochemical staining was applied to validate the expression level of OAS1 in PDAC tissue microarrays,and the association between OAS1 expression level and the prognosis of patients was analyzed.Real-time fluorescence quantitative PCR was performed to examine the expression level of OAS1 mRNA in different PDAC cell lines.CCK-8 assay and colony formation assay was used to assess the effect of OAS1 on the proliferation of PDAC cells after OAS1 silencing in Patu-8988 and PDC0034 cells by siRNA treatment.Further,Gene Set enrichment analysis(GSEA)was performed to screen for possible molecular mechanism of the regulatory role of OAS1 in PDAC.Cell viability and cholesterol level was analyzed after treatment with mTOR signaling activator MHY1485 in OAS1-silenced Patu-8988 and PDC0034 cells in order to verify the underlying mechanism of the regulatory role of OAS1 in PDAC cell proliferation.Results:Database analysis showed significant upregulation of OAS1 expression in pancreatic cancer tissues(P<0.05).Immunohistochemical staining results from PDAC tissue microarray showed that OAS1 expression was significantly upregulated in PDAC tissues compared with the paired paracancerous tissues,and high OAS1 expression was associated with poor prognosis(P<0.05).Real-time fluorescence quantitative PCR and Western blotting analysis show that OAS1 expression was higher in PDAC cells lines compared with normal ductal cells of the pancreas.The proliferative activity of PDAC cells decreased significantly after OAS1 silencing in Patu-8988 and PDC0034 cells(P<0.001).GSEA results indicated that OAS1 may affect PDAC cell proliferation through mTOR signaling pathway and cholesterol metabolism associated pathway.The mTOR signaling pathway may be inhibited and the total cellular cholesterol decreased after OAS1 silencing.Treatment with mammalian target of rapamycin(mTOR)activator MHY1485 partially reversed the inhibitory effect of OAS1 silencing on the proliferation and cholesterol metabolism of PDAC cells.Conclusion:OAS1 expression is upregulated in PDAC tumor tissues and cells and is associated with poor prognosis.OAS1 may promote the proliferation of pancreatic cancer cells by enhancing cholesterol metabolism through activation of the mTOR signaling pathway.