Collectin-11 detects stress-induced L-fucose pattern to trigger renal epithelial injury
Conrad A. Farrar, David Tran, Ke Li, Weiju Wu, Qi Peng, Wilhelm Schwaeble, Wuding Zhou, Steven H. Sacks
Conrad A. Farrar, David Tran, Ke Li, Weiju Wu, Qi Peng, Wilhelm Schwaeble, Wuding Zhou, Steven H. Sacks
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Research Article Nephrology

Collectin-11 detects stress-induced L-fucose pattern to trigger renal epithelial injury

Abstract

Physiochemical stress induces tissue injury as a result of the detection of abnormal molecular patterns by sensory molecules of the innate immune system. Here, we have described how the recently discovered C-type lectin collectin-11 (CL-11, also known as CL-K1 and encoded by COLEC11) recognizes an abnormal pattern of L-fucose on postischemic renal tubule cells and activates a destructive inflammatory response. We found that intrarenal expression of CL-11 rapidly increases in the postischemic period and colocalizes with complement deposited along the basolateral surface of the proximal renal tubule in association with L-fucose, the potential binding ligand for CL-11. Mice with either generalized or kidney-specific deficiency of CL-11 were strongly protected against loss of renal function and tubule injury due to reduced complement deposition. Ex vivo renal tubule cells showed a marked capacity for CL-11 binding that was induced by cell stress under hypoxic or hypothermic conditions and prevented by specific removal of L-fucose. Further analysis revealed that cell-bound CL-11 required the lectin complement pathway–associated protease MASP-2 to trigger complement deposition. Given these results, we conclude that lectin complement pathway activation triggered by ligand–CL-11 interaction in postischemic tissue is a potent source of acute kidney injury and is amenable to sugar-specific blockade.

Authors

Conrad A. Farrar, David Tran, Ke Li, Weiju Wu, Qi Peng, Wilhelm Schwaeble, Wuding Zhou, Steven H. Sacks

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Figure 4

Contribution of kidney-derived CL-11 in post-transplantation ischemic injury.

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Contribution of kidney-derived CL-11 in post-transplantation ischemic in...
Quantification of histological injury and/or renal dysfunction is shown for Colec11+/+ mice transplanted with kidneys from Colec11+/+ or Colec11–/– littermates. The donor organ was kept on ice for 25 minutes prior to implantation. (A) Histology with PAS staining 24 hours after transplantation representing the peak of injury (n = 2 mice/group). Enlarged panel (original magnification, ×200) with an arrow illustrates necrotic renal tubules seen in a longitudinal section. Scale bars: 100 μm. (B) Severity scores for the renal tubular injury represented in A. (C) BUN measurement in the recovery phase on day 7 after transplantation for recipients of Colec11+/+ or Colec11–/– donor kidneys, following the remaining native nephrectomy on day 6 (n = 6 mice/group). Dashed line represents the BUN baseline in normal, nonmanipulated mice. (D) Severity scores for the renal tubular injury in mice represented in C. *P < 0.05 and **P < 0.01, by unpaired, 2-tailed Student’s test.