S. Wang scite author profile

Kidney transplant injury occurs with ischemia and alloimmunity. Members of the receptor interacting protein kinase family (RIPK1,3) are key regulators of “necroptosis,” a newly recognized, regulated form of necrosis. Necroptosis and apoptosis death appear to be counterbalanced as caspase‐8 inhibition can divert death from apoptosis to necrosis. Inhibition of necroptosis in donor organs to limit injury has not been studied in transplant models. In this study, necroptosis was triggered in caspase inhibited tubular epithelial cells (TEC) exposed to tumor necrosis factor alpha in vitro, while RIPK1 inhibition with necrostatin‐1 or use of RIPK3−/− TEC, prevented necroptosis. In vivo, short hairpin RNA silencing of caspase‐8 in donor B6 mouse kidneys increased necroptosis, enhanced high‐mobility group box 1 release, reduced renal function and accelerated rejection when transplanted into BALB/c recipients. Using ethidium homodimer perfusion to assess necrosis in vivo, necrosis was abrogated in RIPK3−/− kidneys postischemia. Following transplantation, recipients receiving RIPK3−/− kidneys had longer survival (p = 0.002) and improved renal function (p = 0.03) when compared to controls. In summary, we show for the first time that RIPK3‐mediated necroptosis in donor kidneys can promote inflammatory injury, and has a major impact on renal ischemia–reperfusion injury and transplant survival. We suggest inhibition of necroptosis in donor organs may similarly provide a major clinical benefit.

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Decreased renal ischemia–reperfusion injury by IL-16 inactivation

Wang

Diao

Guan

et al. 2008

Kidney International

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T-cell-mediated renal injury is a major cause of kidney transplant rejection and renal failure; hence, understanding T-cell migration within the kidney is important for preventing renal injury. Interleukin (IL)-16 is a T-cell chemoattractant produced by leukocytes. Here we measured IL-16 expression in the kidney and its role in renal ischemia-reperfusion injury induced by different conditions in several strains of mice. IL-16 was strongly expressed in distal and proximal straight tubules of the kidney. The IL-16 precursor protein was cleaved to a chemotactic form in cultured tubular epithelial cells. Inactivation of IL-16 by antibody therapy or IL-16 deficiency prevented ischemia-reperfusion injury as shown by reduced levels of serum creatinine or blood urea nitrogen compared to control mice. Further studies indicated that fewer CD4-cells infiltrated the post-ischemic kidneys of IL-16-deficient mice and that the protective effect of IL-16 antibody treatment was lymphocyte-dependent. Our results suggest that IL-16 is a critical factor in the development of inflammation-mediated renal injury and may be a therapeutic target for prevention of ischemia-reperfusion injury of the kidney.

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Existence of 121 limit cycles in a perturbed planar polynomial Hamiltonian vector field of degree 11

Wang

2006

Chaos, Solitons & Fractals

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Hypoxia Induced Tubular Cell (Tec) Release of Hmgb1 Propagates Renal Injury by Effects on Tec Viability and Nk Cell Activation

Lau

Zhang

Wang

et al. 2010

Transplantation Journal

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Renal Tubular Cell (Tec) Expression of Spi-6 (Serpin Protease Inhibitor-6) Is Required for Protection From Granzyme B Mediated Effector Cell Injury Following Transplantation

Shek

Zhang

Khan

et al. 2010

Transplantation Journal

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S. Wang

RIPK3-Mediated Necroptosis Promotes Donor Kidney Inflammatory Injury and Reduces Allograft Survival

Decreased renal ischemia–reperfusion injury by IL-16 inactivation

Existence of 121 limit cycles in a perturbed planar polynomial Hamiltonian vector field of degree 11

Hypoxia Induced Tubular Cell (Tec) Release of Hmgb1 Propagates Renal Injury by Effects on Tec Viability and Nk Cell Activation

Renal Tubular Cell (Tec) Expression of Spi-6 (Serpin Protease Inhibitor-6) Is Required for Protection From Granzyme B Mediated Effector Cell Injury Following Transplantation

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