Liver transplantation(LT)is the standard therapy for individuals afflicted with end-stage liver disease.Despite notable advancements in LT technology,the incidence of early allograft dysfunction(EAD)remains a critical...Liver transplantation(LT)is the standard therapy for individuals afflicted with end-stage liver disease.Despite notable advancements in LT technology,the incidence of early allograft dysfunction(EAD)remains a critical concern,exacerbating the current organ shortage and detrimentally affecting the prognosis of recipients.Unfortunately,the perplexing hepatic heterogeneity has impeded characterization of the cellular traits and molecular events that contribute to EAD.Herein,we constructed a pioneering single-cell transcriptomic landscape of human transplanted livers derived from non-EAD and EAD patients,with 12 liver samples collected from 7 donors during the cold perfusion and portal reperfusion stages.Comparison of the 75231 cells of non-EAD and EAD patients revealed an EAD-associated immune niche comprising mucosal-associated invariant T cells,granzyme B^(+)(GZMB^(+))granzyme K^(+)(GZMK^(+))natural killer cells,and S100 calcium binding protein A12^(+)(S100A12^(+))neutrophils.Moreover,we verified this immune niche and its association with EAD occurrence in two independent cohorts.Our findings elucidate the cellular characteristics of transplanted livers and the EAD-associated pathogenic immune niche at the single-cell level,thus,offering valuable insights into EAD onset.展开更多
The eukaryotic actin cytoskeleton is required for numerous cellular processes, including cell shape, development and movement, gene expression and signal transduction, and response to biotic and abiotic stress. In rec...The eukaryotic actin cytoskeleton is required for numerous cellular processes, including cell shape, development and movement, gene expression and signal transduction, and response to biotic and abiotic stress. In recent years,research in both plants and animal systems have described a function for actin as the ideal surveillance platform, linking the function and activity of primary physiological processes to the immune system. In this review, we will highlight recent advances that have defined the regulation and breadth of function of the actin cytoskeleton as a network required for defense signaling following pathogen infection. Coupled with an overview of recent work demonstrating specific targeting of the plant actin cytoskeleton by a diversity of pathogens,including bacteria, fungi and viruses, we will highlight the importance of actin as a key signaling hub in plants, one that mediates surveillance of cellular homeostasis and the activation of specific signaling responses following pathogen perception. B4 ased on the studies highlighted herein, we propose a working model that posits changes in actin filament organization is in and of itself a highly specific signal, which induces, regulates and physically directs stimulus-specific signaling processes, most importantly, those associated with response to pathogens.展开更多
In this study,four strains of Toxoplasma gondii with the same genetic type(Type I) originated from chicken,human,cat and swine were used to compare the immune responses in resistant chicken host to investigate the r...In this study,four strains of Toxoplasma gondii with the same genetic type(Type I) originated from chicken,human,cat and swine were used to compare the immune responses in resistant chicken host to investigate the relationships between the parasite origins and the pathogenicity in certain host.A total of 300,10-day-old chickens were allocated randomly into five groups which named JS(from chicken),CAT(from cat),CN(from swine),RH(from human) and a negative control group(—Ve) with 60 birds in each group.Tachyzoites of four different T.gondii strains(JS,CAT,CN and RH) were inoculated intraperitoneally with the dose of 1×10~7 in the four designed groups,respectively.The negative control(-Ve) group was mockly inoculated with phosphate-buffered saline(PBS) alone.Blood and spleen samples were obtained on the day of inoculation(day 0) and at days 4,11,25,39 and 53 post-infection to screen the immunopathological changes.The results demonstrated some different immune characters of T.gondii infected chickens with that of mice or swine previous reported.These differences included up-regulation of major histocompatibility complex class Ⅱ(MHC Ⅱ) molecules in the early stage of infection,early peak expressions of interleukin(IL)-12(IL-12) and-10(IL-10) and long keep of IL-17.These might partially contribute to the resistance of chicken to T.gondii infection.Comparisons to chickens infected with strains from human,cat and swine,chickens infected with strain from chicken showed significant high levels of CD4~+ and CD8~+ T cells,interferon gamma(IFN-γ),IL-12 and IL-10.It suggested that the strain from chicken had different ability to stimulate cellular immunity in chicken.展开更多
African swine fever(ASF) is a lethal hemorrhagic disease that affects wild and domestic swine. The etiological agent of ASF is African swine fever virus(ASFV). Since the first case was described in Kenya in 1921, the ...African swine fever(ASF) is a lethal hemorrhagic disease that affects wild and domestic swine. The etiological agent of ASF is African swine fever virus(ASFV). Since the first case was described in Kenya in 1921, the disease has spread to many other countries. No commercial vaccines are available to prevent ASF. In this study, we generated a recombinant Newcastle disease virus(r NDV) expressing ASFV protein 72(p72) by reverse genetics and evaluated its humoral and cellular immunogenicity in a mouse model. The recombinant virus, r NDV/p72, replicated well in embryonated chicken eggs and was safe to use in chicks and mice. The p72 gene in r NDV/p72 was stably maintained through ten passages. Mice immunized with r NDV/p72 developed high titers of ASFV p72 specific Ig G antibody, and had higher levels of Ig G1 than IgG2 a. Immunization also elicited T-cell proliferation and secretion of IFN-γ and IL-4. Taken together, these results indicate that r NDV expressing ASFV p72 might be a potential vaccine candidate for preventing ASF.展开更多
基金supported by the National Natural Science Foundation of China(82200725)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(ZYYCXTD-D-202002)+4 种基金the Fundamental Research Funds for the Central Universities(226-2023-00114,226-2022-00226,and 226-2023-00059)the Key Program of National Natural Science Foundation of China(81930016)the Key Research and Development Program of China(2021YFA1100500)the Major Research Plan of the National Natural Science Foundation of China(92159202)the Ningbo Top Medical and Health Research Program(2022030309).
文摘Liver transplantation(LT)is the standard therapy for individuals afflicted with end-stage liver disease.Despite notable advancements in LT technology,the incidence of early allograft dysfunction(EAD)remains a critical concern,exacerbating the current organ shortage and detrimentally affecting the prognosis of recipients.Unfortunately,the perplexing hepatic heterogeneity has impeded characterization of the cellular traits and molecular events that contribute to EAD.Herein,we constructed a pioneering single-cell transcriptomic landscape of human transplanted livers derived from non-EAD and EAD patients,with 12 liver samples collected from 7 donors during the cold perfusion and portal reperfusion stages.Comparison of the 75231 cells of non-EAD and EAD patients revealed an EAD-associated immune niche comprising mucosal-associated invariant T cells,granzyme B^(+)(GZMB^(+))granzyme K^(+)(GZMK^(+))natural killer cells,and S100 calcium binding protein A12^(+)(S100A12^(+))neutrophils.Moreover,we verified this immune niche and its association with EAD occurrence in two independent cohorts.Our findings elucidate the cellular characteristics of transplanted livers and the EAD-associated pathogenic immune niche at the single-cell level,thus,offering valuable insights into EAD onset.
基金supported in part by a Barnett Rosenberg Fellowship in Biological Sciences from Michigan State Universitysupported by the National Science Foundation(IOS-1021044)
文摘The eukaryotic actin cytoskeleton is required for numerous cellular processes, including cell shape, development and movement, gene expression and signal transduction, and response to biotic and abiotic stress. In recent years,research in both plants and animal systems have described a function for actin as the ideal surveillance platform, linking the function and activity of primary physiological processes to the immune system. In this review, we will highlight recent advances that have defined the regulation and breadth of function of the actin cytoskeleton as a network required for defense signaling following pathogen infection. Coupled with an overview of recent work demonstrating specific targeting of the plant actin cytoskeleton by a diversity of pathogens,including bacteria, fungi and viruses, we will highlight the importance of actin as a key signaling hub in plants, one that mediates surveillance of cellular homeostasis and the activation of specific signaling responses following pathogen perception. B4 ased on the studies highlighted herein, we propose a working model that posits changes in actin filament organization is in and of itself a highly specific signal, which induces, regulates and physically directs stimulus-specific signaling processes, most importantly, those associated with response to pathogens.
基金supported by the Special Fund for Public Welfare Industry of Ministry of Agriculture of China(200903036-04)the Priority Academic Program Development of Jiangsu Higher Education Institutions,China(PAPD)
文摘In this study,four strains of Toxoplasma gondii with the same genetic type(Type I) originated from chicken,human,cat and swine were used to compare the immune responses in resistant chicken host to investigate the relationships between the parasite origins and the pathogenicity in certain host.A total of 300,10-day-old chickens were allocated randomly into five groups which named JS(from chicken),CAT(from cat),CN(from swine),RH(from human) and a negative control group(—Ve) with 60 birds in each group.Tachyzoites of four different T.gondii strains(JS,CAT,CN and RH) were inoculated intraperitoneally with the dose of 1×10~7 in the four designed groups,respectively.The negative control(-Ve) group was mockly inoculated with phosphate-buffered saline(PBS) alone.Blood and spleen samples were obtained on the day of inoculation(day 0) and at days 4,11,25,39 and 53 post-infection to screen the immunopathological changes.The results demonstrated some different immune characters of T.gondii infected chickens with that of mice or swine previous reported.These differences included up-regulation of major histocompatibility complex class Ⅱ(MHC Ⅱ) molecules in the early stage of infection,early peak expressions of interleukin(IL)-12(IL-12) and-10(IL-10) and long keep of IL-17.These might partially contribute to the resistance of chicken to T.gondii infection.Comparisons to chickens infected with strains from human,cat and swine,chickens infected with strain from chicken showed significant high levels of CD4~+ and CD8~+ T cells,interferon gamma(IFN-γ),IL-12 and IL-10.It suggested that the strain from chicken had different ability to stimulate cellular immunity in chicken.
基金financially supported by the National Supporting Program(2013BAD12B05)Natural Science Foundation of China(NSFC)(no.31101839 and no.31302117)+1 种基金the key program of Gansu Province(no.1013JHTA008)Jiangsu Co-innovation Center program for Prevention and Control of Important Animal Infectious Diseases and Zoonoses
文摘African swine fever(ASF) is a lethal hemorrhagic disease that affects wild and domestic swine. The etiological agent of ASF is African swine fever virus(ASFV). Since the first case was described in Kenya in 1921, the disease has spread to many other countries. No commercial vaccines are available to prevent ASF. In this study, we generated a recombinant Newcastle disease virus(r NDV) expressing ASFV protein 72(p72) by reverse genetics and evaluated its humoral and cellular immunogenicity in a mouse model. The recombinant virus, r NDV/p72, replicated well in embryonated chicken eggs and was safe to use in chicks and mice. The p72 gene in r NDV/p72 was stably maintained through ten passages. Mice immunized with r NDV/p72 developed high titers of ASFV p72 specific Ig G antibody, and had higher levels of Ig G1 than IgG2 a. Immunization also elicited T-cell proliferation and secretion of IFN-γ and IL-4. Taken together, these results indicate that r NDV expressing ASFV p72 might be a potential vaccine candidate for preventing ASF.
