Fas-dependent fratricidal apoptosis is a mechanism of tubular epithelial cell deletion in chronic renal failure.

JR Schelling, N Nkemere, JB Kopp… - … investigation; a journal …, 1998 - europepmc.org
JR Schelling, N Nkemere, JB Kopp, RP Cleveland
Laboratory investigation; a journal of technical methods and pathology, 1998europepmc.org
Renal tubular atrophy predicts a poor prognosis in chronic renal failure, but the molecular
mechanisms regulating this process remain unknown. Because the Fas apoptosis pathway
has recently been implicated in disease pathogenesis and Fas is expressed in the kidney,
we hypothesized that Fas-mediated apoptosis of renal tubule epithelial cells (RTC)
contributes to tubular atrophy in chronic renal failure. In vivo, immunohistochemical analyses
of renal sections from two murine models of progressive renal disease revealed coordinate …
Renal tubular atrophy predicts a poor prognosis in chronic renal failure, but the molecular mechanisms regulating this process remain unknown. Because the Fas apoptosis pathway has recently been implicated in disease pathogenesis and Fas is expressed in the kidney, we hypothesized that Fas-mediated apoptosis of renal tubule epithelial cells (RTC) contributes to tubular atrophy in chronic renal failure. In vivo, immunohistochemical analyses of renal sections from two murine models of progressive renal disease revealed coordinate increases in RTC Fas expression and apoptosis compared with tissue sections from age-matched control kidneys. Increased RTC apoptosis was not accompanied by compensatory hyperplasia, suggesting that RTC targeted for Fas-dependent apoptotic deletion contribute to tubular atrophy. These data are supported by in vitro studies showing that interleukin-1alpha and tumor necrosis factor-alpha, cytokines secreted in chronic renal failure, stimulated increases in Fas expression in cultured RTC. Both murine kidney cortex and RTC in culture demonstrated constitutive expression of transmembrane and soluble forms of RTC Fas ligand, features that are primarily restricted to lymphocytes and immune-privileged tissues and that have been previously unrecognized in RTC. Functional studies revealed that interleukin-1alpha-stimulated RTC Fas expression was accompanied by increased apoptosis, which was inhibited by blocking anti-Fas ligand antibodies. In contrast to the conventional paradigm, which holds that Fas-dependent apoptosis is initiated by the binding of lymphocyte Fas ligand to target cell Fas, our data suggest that up-regulated RTC Fas binds to Fas ligand on adjacent RTC, which then leads to RTC death by fratricide. We propose this pathway as an initiating mechanism of tubular atrophy.
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