Kewang Li
University of Michigan
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Featured researches published by Kewang Li.
Gene Therapy | 2000
Lisa A. DeBruyne; Kewang Li; Jonathan S. Bromberg
Introducing immunomodulatory molecules into allografts by gene transfer may avoid the side-effects of systemic immunosuppression. vMIP-II and MC148 are two recently identified chemokine homologues encoded by human herpes virus 8 and Molluscum contagiosum, respectively, that have antagonistic activities against multiple different CC and CXC chemokine receptors. We hypothesized that introduction of these molecules into cardiac allografts may block leukocyte infiltration into the grafts and prolong survival. Vascularized and nonvascularized cardiac allografts in mice were performed and plasmid DNA encoding vMIP-II, MC148 and/or vIL-10 was transferred into the allograft at the time of transplantation. Gene transfer of either vMIP-II or MC148 into cardiac allografts markedly prolonged graft survival. Combining gene transfer of either one of these chemokine antagonists with vIL-10 gene transfer, which has a mechanistically different immunosuppressive action, further enhanced graft survival. vMIP-II and MC148 gene transfer both resulted in a marked decrease of donor-specific cytotoxic T lymphocytes (CTL) infiltrating the grafts and inhibited alloantibody production. These results demonstrate that plasmid-mediated gene transfer of virally encoded chemokine antagonists vMIP-II and MC148 can block donor-specific lymphocyte immunity within cardiac allografts and prolong graft survival. This is a new mechanistic approach to analyze, treat, and prevent graft rejection. Delivery of these or related molecules by gene transfer or conventional pharmacologic means may represent a novel therapeutic modality for alloactivation.
Nature Medicine | 1999
Sherri Y. Chan; Kewang Li; Joseph R. Piccotti; Marisa C. Louie; Thomas A. Judge; Laurence A. Turka; Ernst J. Eichwald; D. Keith Bishop
The immune response to adenoviral vectors can induce inflammation and loss of transgene expression in transfected tissues. This would limit the use of adenovirus-mediated gene transfer in disease states in which long-term gene expression is required. While studying the effect of the anti-adenoviral immune response in transplantation, we found that transgene expression persisted in cardiac isografts transfected with an adenovirus encoding β-galactosidase. Transfected grafts remained free of inflammation, despite the presence of an immune response to the vector. Thus, adenovirus-mediated gene transfer may have therapeutic value in cardiac transplantation and heart diseases. Furthermore, immunological limitations of adenoviral vectors for gene therapy are not universal for all tissue types.
Transplantation | 1999
Joseph R. Piccotti; Kewang Li; Sherri Y. Chan; Ernst J. Eichwald; D. Keith Bishop
BACKGROUND Transient depletion of CD4+ T cells in cardiac allograft recipients prolongs allograft survival; however, grafts exhibit signs of chronic rejection characterized by collagen deposition and neointima development. Although it is believed that Th1 cells promote acute graft rejection, the role of these cells in chronic rejection remains unclear. Hence, our study evaluated whether Th1 cells are associated with the development of chronic cardiac allograft rejection. METHODS Splenocytes obtained from C57BL/6 recipients bearing BALB/c hearts with signs of chronic rejection were adoptively transferred into C57BL/6 SCID cardiac allograft recipients. As a measure of Th1 function, interferon-y production was determined after restimulation of recipient splenocytes with donor alloantigens. RESULTS Transfer of splenocytes in SCID allograft recipients resulted in accelerated chronic rejection in the majority of mice. Characterization of these cells before transfer revealed hyporesponsive Th1 function. However, donor-specific proliferative responses and precursor interleukin-2 producing helper and cytotoxic T lymphocyte frequencies were comparable to that of naive splenocytes. Further, splenocytes obtained from SCID recipients with advanced signs of chronic rejection remained deficient in Th1 function, suggesting that Th1 are not involved in this disease process. This possibility was further supported by the development of chronic rejection in IL-12 knockout recipients. Finally, when splenocytes used for adoptive transfer retained Th1 function, transfer of these cells into SCID recipients resulted in acute allograft rejection. CONCLUSIONS We have established a model in which the mediators of chronic rejection may be further explored. In this system, the absence rather than the presence of donor-reactive Th1 is associated with chronic rejection. These data indicate that Th1-independent effector mechanisms are responsible for chronic rejection in this model.
Transplantation | 1999
Joseph R. Piccotti; Kewang Li; Sherri Y. Chan; Ernst J. Eichwald; D. Keith Bishop
BACKGROUND Interleukin-12 (IL-12) mediates its biologic activities via binding high-affinity receptors on T and natural killer cells. Although emphasis has been placed on the requirement for IL-12Rbeta2 in IL-12 bioactivity, the role of IL-12Rbeta1 is less well defined. The current study evaluated the effects of exogenous IL-12 on alloantigen-specific immune responses and determined the requirement for IL-12Rbeta1 in IL-12-mediated alloimmunity. METHODS The mouse heterotopic cardiac transplant model was employed to evaluate the effects of IL-12 on alloantigen-specific immune responses in vivo. In addition, IFN-gamma production in mixed lymphocyte cultures (MLC) supplemented with IL-12 was measured to assess the effects of IL-12 on Th1 function in vitro. Mice deficient in IL-12Rbeta1 (IL-12Rbeta1-/-) were used to determine the requirement for this receptor component in IL-12-driven alloimmune responses. RESULTS Addition of IL-12 to MLC consisting of wild-type splenocytes enhanced alloantigen-specific proliferative responses and Th1 development. In contrast, IL-12 did not alter these in vitro immune parameters in IL-12Rbeta1-/- MLC. Treatment of wild-type cardiac allograft recipients with IL-12 resulted in high concentrations of serum interferon-gamma (IFN-gamma) and a 10-fold increase in IFN-gamma production by recipient splenocytes after restimulation in vitro. However, this fulminate Th1 response did not accelerate allograft rejection. Importantly, IL-12 had no effect on serum IFN-gamma or in vivo priming of Thl in IL-12Rbeta1-/- recipients. Finally, administration of IL-12 to WT allograft recipients resulted in a bimodal alloantibody response: antibody production was suppressed at high doses of IL-12, and enhanced at lower doses. CONCLUSIONS IL-12 markedly enhances alloantigen-specific immune function; however, these exaggerated Th1-driven responses do not culminate in accelerated allograft rejection. Further, these data indicate that IL-12Rbeta1 is essential for the enhancement of both in vitro and in vivo alloimmune responses by exogenous IL-12.
Journal of Immunology | 1998
Joseph R. Piccotti; Kewang Li; Sherri Y. Chan; Jessica Ferrante; Jeanne Magram; Ernst J. Eichwald; D. Keith Bishop
Journal of Immunology | 1997
Joseph R. Piccotti; Sherri Y. Chan; Kewang Li; Ernst J. Eichwald; D K Bishop
Archive | 1999
Joseph R. Piccotti; Kewang Li; Sherri Y. Chan; Ernst J. Eichwald; D. Keith Bishop
Transplantation | 1999
Lisa A. DeBruyne; Kewang Li; D. Keith Bishop; Jonathan S. Bromberg
Transplantation | 1999
Meera J. Nathan; Kewang Li; D. Keith Bishop
Transplantation | 1998
Meera J. Nathan; Kewang Li; Joseph R. Piccotti; Sherri Y. Chan; Richard E. Goodman; Thomas P. Shanley; Ernst J. Eichwald; D. Keith Bishop