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Featured researches published by Chuan Su.


PLOS Neglected Tropical Diseases | 2011

Dynamics of Th17 Cells and Their Role in Schistosoma japonicum Infection in C57BL/6 Mice

Xiaoyun Wen; Lei He; Ying Chi; Sha Zhou; Jason Shih Hoellwarth; Cui Zhang; Jifeng Zhu; Calvin Wu; Shawn Dhesi; Xuefeng Wang; Feng Liu; Chuan Su

Background The current knowledge of immunological responses to schistosomiasis, a major tropical helminthic disease, is insufficient, and a better understanding of these responses would support vaccine development or therapies to control granuloma-associated immunopathology. CD4+ T cells play critical roles in both host immune responses against parasitic infection and immunopathology in schistosomiasis. The induction of T helper (Th)1, Th2 and T regulatory (Treg) cells and their roles in schistosome infections are well-illustrated. However, little in vivo data are available on the dynamics of Th17 cells, another important CD4+ T cell subset, after Schistosoma japonicum infection or whether these cells and their defining IL-17 cytokine mediate host protective responses early in infection. Methodology Levels of Th17 and the other three CD4+ T cell subpopulations and the cytokines related to induction or repression of Th17 cell generation in different stages of S. japonicum infection were observed. Contrary to reported in vitro studies, our results showed that the Th17 cells were induced along with the Th1, Th2, Treg cells and the IFN-γ and IL-4 cytokines in S. japonicum infected mice. The results also suggested that S. japonicum egg antigens but not adult worm antigens preferentially induced Th17 cell generation. Furthermore, decreasing IL-17 with a neutralizing anti-IL-17 monoclonal antibody (mAb) increased schistosome-specific antibody levels and partial protection against S. japonicum infection in mice. Conclusions Our study is the first to report the dynamics of Th17 cells during S. japonicum infection and indicate that Th17 cell differentiation results from the integrated impact of inducing and suppressive factors promoted by the parasite. Importantly, our findings suggest that lower IL-17 levels may result in favorable host protective responses. This study significantly contributes to the understanding of immunity to schistosomiasis and may aid in developing interventions to protect hosts from infection or restrain immunopathology.


Aging Cell | 2011

Novel role of aquaporin-4 in CD4+ CD25+ T regulatory cell development and severity of Parkinson's disease.

Ying Chi; Yi Fan; Lei He; Wei Liu; Xiaoyun Wen; Sha Zhou; Xuefeng Wang; Cui Zhang; Hui Kong; Laura Sonoda; Prem B. Tripathi; Carrie J. Li; Michelle S. Yu; Chuan Su; Gang Hu

Aquaporin‐4 (AQP4) is highly expressed in mammalian brains and is involved in the pathophysiology of cerebral disorders, including stroke, tumors, infections, hydrocephalus, epilepsy, and traumatic brain injury. We found that AQP4‐deficient mice were hypersensitive to stimulations such as 1‐methyl‐4‐phenyl‐1,2,3,6‐tetrahydropyridine (MPTP) or lipopolysaccharide compared to wild‐type (WT) littermates. In a mouse model of MPTP‐induced Parkinson’s disease (PD), AQP4‐deficient animals show more robust microglial inflammatory responses and more severe loss of dopaminergic neurons (DNs) compared with WT mice. However, a few studies have investigated the association of abnormal AQP4 levels with immune dysfunction. Here, for the first time, we report AQP4 expression in mouse thymus, spleen, and lymph nodes. Furthermore, the significantly lower numbers of CD4+u2003CD25+ regulatory T cells in AQP4‐deficient mice compared to WT mice, perhaps resulting from impaired thymic generation, may be responsible for the uncontrolled microglial inflammatory responses and subsequent severe loss of DNs in the substantia nigra pars compacta in the MPTP‐induced PD model. These novel findings suggest that AQP4 deficiency may disrupt immunosuppressive regulators, resulting in hyperactive immune responses and potentially contributing to the increased severity of PD or other immune‐associated diseases.


European Journal of Immunology | 2009

CD4+CD25+ Treg induction by an HSP60-derived peptide SJMHE1 from Schistosoma japonicum is TLR2 dependent

Xuefeng Wang; Sha Zhou; Ying Chi; Xiaoyun Wen; Jason Hoellwarth; Lei He; Feng Liu; Calvin Wu; Shawn Dhesi; Jiaqing Zhao; Wei Hu; Chuan Su

Chronic schistosome infection results in the suppression of host immune responses, allowing long‐term schistosome survival and restricting pathology. Current theories suggest that Treg play an important role in this regulation. However, the mechanism of Treg induction during schistosome infection is still unknown. The aim of this study was to determine the mechanism behind the induction of CD4+CD25+ T cells by Schistosoma japonicum HSP60 (SjHSP60)‐derived peptide SJMHE1 as well as to elucidate the cellular and molecular basis for the induction of CD4+CD25+ T cells during S. japonicum infection. Mice immunized with SJMHE1 or spleen and LN cells from naïve mice pretreated with SJMHE1 in vitro all displayed an increase in CD4+CD25+ T‐cell populations. Release of IL‐10 and TGF‐β by SJMHE1 stimulation may contribute to suppression. Adoptively transferred SJMHE1‐induced CD4+CD25+ T cells inhibited delayed‐type hypersensitivity in BALB/c mice. Additionally, SJMHE1‐treated APC were tolerogenic and induced CD4+ cells to differentiate into suppressive CD4+CD25+ Treg. Furthermore, our data support a role for TLR2 in SJMHE1‐mediated CD4+CD25+ Treg induction. These findings provide the basis for a more complete understanding of the S. japonicum–host interactions that contribute to host homeostatic mechanisms, preventing an excessive immune response.


BioMed Research International | 2010

Activation-Induced T Helper Cell Death Contributes to Th1/Th2 Polarization following Murine Schistosoma japonicum Infection

Xinyu Xu; Xiaoyun Wen; Ying Chi; Lei He; Sha Zhou; Xuefeng Wang; Jiaqing Zhao; Feng Liu; Chuan Su

In chronic infectious diseases, such as schistosomiasis, pathogen growth and immunopathology are affected by the induction of a proper balanced Th1/Th2 response to the pathogen and by antigen-triggered activation-induced T cell death. Here, by using S. japonicum infection or schistosome antigens-immunized mouse model, or antigens in vitro stimulation, we report that during the early stage of S. japonicum infection, nonegg antigens trigger Th2 cell apoptosis via the granzyme B signal pathway, contributing to Th1 polarization, which is thought to be associated with worm clearance and severe schistosomiasis. Meanwhile, after the adult worms lay their eggs, the egg antigens trigger Th1 cell apoptosis via the caspase pathway, contributing to Th2 polarization, which is associated with mild pathology and enhanced survival of both worms and their hosts. Thus, our study suggests that S. japonicum antigen-induced Th1 and Th2 cell apoptosis involves the Th1/Th2 shift and favorites both hosts and parasites.


Parasites & Vectors | 2014

Parasitic antigens alter macrophage polarization during Schistosoma japonicum infection in mice

Jifeng Zhu; Zhipeng Xu; Xiaojun Chen; Sha Zhou; Weiwei Zhang; Ying Chi; Wei Li; Feng Liu; Chuan Su

BackgroundSchistosome eggs are trapped in host liver and elicit severe hepatic granulomatous inflammation, which can lead to periportal fibrosis, portal hypertension, hemorrhage, or even death in the host. It was reported that the macrophage plays an important role in host immune responses to schistosome infection. Nitric oxide (NO) produced by classically activated macrophages (M1 macrophages) is cytotoxic to schistosomula and can prevent hepatic schistosomal fibrosis, while arginase-1 (Arg-1) expressed by alternatively activated macrophages (M2 macrophages) promotes hepatic schistosomal fibrosis. However, the dynamics of macrophage polarization, as well as the possible factors that regulate macrophage polarization, during schistosome infection remain unclear.MethodsWe first analyzed M1 and M2-phenotypic markers of peritoneal macrophages from mice infected with Schistosoma japonicum (S. japonicum) at indicated time points using flow cytometry (FCM) analysis and real-time PCR. Then we treated peritoneal macrophages from normal mice with schistosome worm antigen (SWA) or schistosome soluble egg antigen (SEA) and determined M1 and M2-phenotypic markers, in order to identify macrophage polarization in responding to schistosomal antigens.ResultsIn this study, we showed that macrophages were preferentially differentiated into the M1 subtype during the acute stage of S. japonicum infection. However, the level of M1 macrophages decreased and M2 macrophages significantly increased during the chronic stage of infection. Furthermore, we showed that SWA favors the generation of M1 macrophages, whereas SEA preferentially promotes M2-polarized phenotype.ConclusionThese findings not only reveal the parasite antigen-driven dynamic changes in macrophage polarization, but also suggest that manipulation of macrophage polarization may be of therapeutic benefit in controlling excessive hepatic granulomas and fibrosis in the host with schistosomiasis.


PLOS Pathogens | 2014

Follicular helper T cells promote liver pathology in mice during Schistosoma japonicum infection.

Xiaojun Chen; Yang Xw; Yong Li; Jifeng Zhu; Sha Zhou; Zhipeng Xu; Lei He; Xue Xue; Weiwei Zhang; Dong Xx; Henry Wu; Carrie J. Li; Hsiang-Ting Hsu; Wenjun Kong; Feng Liu; Prem B. Tripathi; Michelle S. Yu; Jason Chang; Liang Zhou; Chuan Su

Following Schistosoma japonicum (S. japonicum) infection, granulomatous responses are induced by parasite eggs trapped in host organs, particular in the liver, during the acute stage of disease. While excessive liver granulomatous responses can lead to more severe fibrosis and circulatory impairment in chronically infected host. However, the exact mechanism of hepatic granuloma formation has remained obscure. In this study, we for the first time showed that follicular helper T (Tfh) cells are recruited to the liver to upregulate hepatic granuloma formation and liver injury in S. japonicum-infected mice, and identified a novel function of macrophages in Tfh cell induction. In addition, our results showed that the generation of Tfh cells driven by macrophages is dependent on cell–cell contact and the level of inducible costimulator ligand (ICOSL) on macrophages which is regulated by CD40–CD40L signaling. Our findings uncovered a previously unappreciated role for Tfh cells in liver pathology caused by S. japonicum infection in mice.


PLOS Neglected Tropical Diseases | 2013

Combined TLR7/8 and TLR9 Ligands Potentiate the Activity of a Schistosoma japonicum DNA Vaccine

Xuefeng Wang; Liyang Dong; Hongchang Ni; Sha Zhou; Zhipeng Xu; Jason Shih Hoellwarth; Xiaojun Chen; Rongbo Zhang; Qiaoyun Chen; Feng Liu; Jun Wang; Chuan Su

Background Toll-like receptor (TLR) ligands have been explored as vaccine adjuvants for tumor and virus immunotherapy, but few TLR ligands affecting schistosoma vaccines have been characterized. Previously, we developed a partially protective DNA vaccine encoding the 26-kDa glutathione S-transferase of Schistosoma japonicum (pVAX1-Sj26GST). Methodology/Principal Findings In this study, we evaluated a TLR7/8 ligand (R848) and a TLR9 ligand (CpG oligodeoxynucleotides, or CpG) as adjuvants for pVAX1-Sj26GST and assessed their effects on the immune system and protection against S. japonicum. We show that combining CpG and R848 with pVAX1-Sj26GST immunization significantly increases splenocyte proliferation and IgG and IgG2a levels, decreases CD4+CD25+Foxp3+ regulatory T cells (Treg) frequency in vivo, and enhances protection against S. japonicum. CpG and R848 inhibited Treg-mediated immunosuppression, upregulated the production of interferon (IFN)-γ, tumor necrosis factor (TNF)-α, interleukin (IL)-4, IL-10, IL-2, and IL-6, and decreased Foxp3 expression in vitro, which may contribute to prevent Treg suppression and conversion during vaccination and allow expansion of antigen-specific T cells against pathogens. Conclusions Our data shows that selective TLR ligands can increase the protective efficacy of DNA vaccines against schistosomiasis, potentially through combined antagonism of Treg-mediated immunosuppression and conversion.


PLOS ONE | 2015

Heat Shock Protein 60 in Eggs Specifically Induces Tregs and Reduces Liver Immunopathology in Mice with Schistosomiasis Japonica.

Sha Zhou; Xin Jin; Xiaojun Chen; Jifeng Zhu; Zhipeng Xu; Xuefeng Wang; Feng Liu; Wei Hu; Liang Zhou; Chuan Su

Background Parasitic helminths need to suppress the host immune system to establish chronic infections. Paradoxically, immunosuppression induced by the worm also benefits the host by limiting excessive inflammation and tissue damage, which remains the major cause leading to serious morbidity and mortality. Regulatory T cells (Tregs) are key immune regulators of this mutualism. The successive rise in Tregs during schistosome infection plays a critical role in immunoregulation. We and others previously showed that Schistosoma japonicum (S. japonicum) egg antigens (SEA) induce Tregs both in vitro and in vivo. In addition, we identified that SjHSP60 derived from SEA significantly induces Tregs in vivo and in vitro. However, the contribution of SjHSP60 in SEA to Treg induction and the related mechanisms of the Treg induction have not yet been identified. Methodology/Principal Findings In this study, we showed that S. japonicum stress protein HSP60 (SjHSP60) was constitutively and extensively expressed in eggs of S. japonicum. SjHSP60 specially induced Tregs in vivo and in vitro without inducing other CD4+ T sub-populations including Th1, Th2 and Th17 cells. Furthermore, we showed that the SjHSP60-depleted SEA almost lost the ability in vitro and displayed a significant impaired ability to induce Tregs in vivo. Finally, our study illustrated that the mechanisms of SjHSP60-mediated induction of Tregs are through both conversion of CD4+CD25- T cells into CD4+CD25+Foxp3+ Tregs and expansion of preexisting CD4+CD25+Foxp3+ Tregs in a TLR4-dependent manner. Conclusions/Significance Collectively, our findings identify SjHSP60 as a major parasitic contributor of Treg induction in S. japonicum egg antigens, which not only contributes to the better understanding of the mechanism of immunoregulation during helminth infection, but also suggests its potential as a therapeutic target for control of immunopathology, allergic and autoimmune diseases.


Parasites & Vectors | 2010

The nature and combination of subunits used in epitope-based Schistosoma japonicum vaccine formulations affect their efficacy

Xuefeng Wang; Lei Zhang; Ying Chi; Jason Shih Hoellwarth; Sha Zhou; Xiaoyun Wen; Lei He; Feng Liu; Calvin Wu; Chuan Su

BackgroundSchistosomiasis remains a major public health problem in endemic countries and is caused by infections with any one of three primary schistosome species. Although there are no vaccines available to date, this strategy appears feasible since natural immunity develops in individuals suffering from repeated infection during a lifetime. Since vaccinations resulting in both Th1- and Th2-type responses have been shown to contribute to protective immunity, a vaccine formulation with the capacity for stimulating multiple arms of the immune response will likely be the most effective. Previously we developed partially protective, single Th- and B cell-epitope-based peptide-DNA dual vaccines (PDDV) (T3-PDDV and B3-PDDV, respectively) capable of eliciting immune responses against the Schistosoma japonicum 22.6 kDa tegument antigen (Sj22.6) and a 62 kDa fragment of myosin (Sj62), respectively.ResultsIn this study, we developed PDDV cocktails containing multiple epitopes of S. japonicum from Sj22.6, Sj62 and Sj97 antigens by predicting cytotoxic, helper, and B-cell epitopes, and evaluated vaccine potential in vivo. Results showed that mice immunized with a single-epitope PDDV elicited either Tc, Th, or B cell responses, respectively, and mice immunized with either the T3- or B3- single-epitope PDDV formulation were partially protected against infection. However, mice immunized with a multicomponent (3 PDDV components) formulation elicited variable immune responses that were less immunoprotective than single-epitope PDDV formulations.ConclusionsOur data show that combining these different antigens did not result in a more effective vaccine formulation when compared to each component administered individually, and further suggest that immune interference resulting from immunizations with antigenically distinct vaccine targets may be an important consideration in the development of multicomponent vaccine preparations.


PLOS ONE | 2012

Partial Regulatory T Cell Depletion Prior to Schistosomiasis Vaccination Does Not Enhance the Protection

Xuefeng Wang; Fan Liu; Sha Zhou; Zhipeng Xu; Jason Shih Hoellwarth; Xiaojun Chen; Lei He; Rongbo Zhang; Feng Liu; Jun Wang; Chuan Su

CD4+CD25+ regulatory T cells (Tregs) do not only influence self-antigen specific immune responses, but also dampen the protective effect induced by a number of vaccines. The impact of CD4+CD25+ Tregs on vaccines against schistosomiasis, a neglected tropical disease that is a major public health concern, however, has not been examined. In this study, a DNA vaccine encoding a 26 kDa glutathione S-transferase of Schistosoma japonicum (pVAX1-Sj26GST) was constructed and its potential effects were evaluated by depleting CD25+ cells prior to pVAX1-Sj26GST immunization. This work shows that removal of CD25+ cells prior to immunization with the pVAX1-Sj26GST schistosomiasis DNA vaccine significantly increases the proliferation of splenocytes and IgG levels. However, CD25+ cell-depleted mice immunized with pVAX1-Sj26GST show no improved protection against S. japonicum. Furthermore, depletion of CD25+ cells causes an increase in both pro-inflammatory cytokines (e.g. IFN-γ, GM-CSF and IL-4) and an anti-inflammatory cytokine (e.g. IL-10), with CD4+CD25- T cells being one of the major sources of both IFN-γ and IL-10. These findings indicate that partial CD25+ cell depletion fails to enhance the effectiveness of the schistosome vaccine, possibly due to IL-10 production by CD4+CD25- T cells, or other cell types, after CD25+ cell depletion during vaccination.

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Sha Zhou

Nanjing Medical University

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Feng Liu

Nanjing Medical University

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Xiaojun Chen

Nanjing Medical University

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Jifeng Zhu

Nanjing Medical University

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Zhipeng Xu

Nanjing Medical University

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Xuefeng Wang

Nanjing Medical University

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Lei He

Nanjing Medical University

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Wei Li

Nanjing Medical University

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Lei Xu

Nanjing Medical University

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Ying Chi

Nanjing Medical University

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