J. Wang scite author profile

J. Wang

3Publications

85Citation Statements Received

77Citation Statements Given

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102

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Emory University, Emory Healthcare

Publications

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A Mouse Model for Polyomavirus-Associated Nephropathy of Kidney Transplants

Lee

Kemball

Wang

et al. 2006

American Journal of Transplantation

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Polyomavirus-associated nephropathy is an important cause of dysfunction and failure of renal transplants. BK virus is an ubiquitous human polyoma virus that persistently infects the kidney. This otherwise silent infection can reactivate in immunosuppressed individuals, resulting in renal complications. Because polyoma viruses are highly species-specific, we developed a mouse polyoma virus-renal transplant model in order to investigate the pathogenesis of polyomavirus-associated nephropathy. Using this model, we found that polyoma virus preferentially replicates in the allogeneic kidney grafts, accelerating graft failure; thus, this animal model is able to mimic the polyomavirus-associated nephropathy seen in human renal transplant patients. Acute polyoma virus infection of mouse allograft recipients augmented the alloreactive CD8+ T-cell response, while maintaining the anti-viral CD8+ T-cell response. In addition to the known virus-induced cytopathology, these findings demonstrate a potential role for an enhanced anti-donor T-cell response in the pathogenesis of polyomavirus-associated nephropathy.

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Donor Lymphoid Organs Are a Major Site of Alloreactive T-Cell Priming Following Intestinal Transplantation

Wang

Dong

Sun

et al. 2006

American Journal of Transplantation

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We hypothesized that lymphoid organs within intestinal allografts contribute to their immunogenicity. Consistent with this hypothesis recipient T cells rapidly migrated to the lymph nodes and Peyer's patches of syngeneic and allogeneic intestinal grafts such that at 24 h approximately 50% of the lymphocytes isolated from donor lymphoid organs were of recipient origin. However, only in the lymphoid organs of allografts did recipient T cells display an activated phenotype, proliferate and produce IFNc . Rejection of allogeneic intestines lacking lymphoid organs was dramatically impaired in splenectomized, lymph node-deficient recipients compared to lymph node bearing, wild-type allogeneic intestines. This demonstrates the important role of donor lymphoid organs in the rejection process. Furthermore, recipient T cells proliferated more extensively and produced more IFNc in donor lymphoid organs than in recipient lymphoid organs, indicating that donor lymphoid organs play a dominant role in initiating the recipient anti-donor immune response following intestinal transplantation.

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Adaptive Immunity Rather Than Viral Cytopathology Mediates Polyomavirus-Associated Nephropathy in Mice

Albrecht

Dong

Wang

et al. 2012

American Journal of Transplantation

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Nephropathy associated with BK polyomavirus causes kidney allograft dysfunction and failure. Understanding the pathogenesis of polyomavirus‐associated allograft nephropathy (PVAN) is hampered by the species specificity of Polyomaviridae family members. Using a mouse polyomavirus (MPyV) kidney transplant model, we investigated clinically relevant variables that may contribute to PVAN. We found that the timing and source (i.e. donor vs. recipient) of MPyV infection and the titer of the viral inoculum have significant effects on the extent of allograft injury, with acute infection of the recipient by high‐titer MPyV inoculums producing the most profound PVAN. In contrast, altering the degree of MHC matching or increasing ischemia/reperfusion injury by prolonging the cold ischemic time of the allograft did not affect the severity of PVAN. Survival correlated positively with serum creatinine levels, but not with viral loads in the kidney allograft. Using splenectomized alymphoplasia mice, which are unable to mount primary adaptive immune responses, we further demonstrate that persistent high viral loads in the kidney are not sufficient to cause advanced PVAN. These findings suggest that the mechanism of PVAN in mice is not a direct consequence of viral cytopathology, but rather involves interplay between viral infection and the recipient antidonor immune response.

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J. Wang

A Mouse Model for Polyomavirus-Associated Nephropathy of Kidney Transplants

Donor Lymphoid Organs Are a Major Site of Alloreactive T-Cell Priming Following Intestinal Transplantation

Adaptive Immunity Rather Than Viral Cytopathology Mediates Polyomavirus-Associated Nephropathy in Mice

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