Anil Karihaloo scite author profile

The paradigm for recovery of the renal tubule from acute tubular necrosis is that surviving cells from the areas bordering the injury must migrate into the regions of tubular denudation and proliferate to re-establish the normal tubular epithelium. However, therapies aimed at stimulating these events have failed to alter the course of acute renal failure in human trials. In the present study, we demonstrate that Lin -Sca-1 + cells from the adult mouse bone marrow are mobilized into the circulation by transient renal ischemia and home specifically to injured regions of the renal tubule. There they differentiate into renal tubular epithelial cells and appear to constitute the majority of the cells present in the previously necrotic tubules. Loss of stem cells following bone marrow ablation results in a greater rise in blood urea nitrogen after renal ischemia, while stem cell infusion after bone marrow ablation reverses this effect. Thus, therapies aimed at enhancing the mobilization, propagation, and/or delivery of bone marrow stem cells to the kidney hold potential as entirely new approaches for the treatment of acute tubular necrosis.This article was published online in advance of the print edition. The date of publication is available from the JCI website, http://www.jci.org.

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Activating AMP-activated protein kinase (AMPK) slows renal cystogenesis

Takiar

Nishio

Seo-Mayer

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

287

238

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Renal cyst development and expansion in autosomal dominant polycystic kidney disease (ADPKD) involves both fluid secretion and abnormal proliferation of cyst-lining epithelial cells. The chloride channel of the cystic fibrosis transmembrane conductance regulator (CFTR) participates in secretion of cyst fluid, and the mammalian target of rapamycin (mTOR) pathway may drive proliferation of cyst epithelial cells. CFTR and mTOR are both negatively regulated by AMP-activated protein kinase (AMPK). Metformin, a drug in wide clinical use, is a pharmacological activator of AMPK. We find that metformin stimulates AMPK, resulting in inhibition of both CFTR and the mTOR pathways. Metformin induces significant arrest of cystic growth in both in vitro and ex vivo models of renal cystogenesis. In addition, metformin administration produces a significant decrease in the cystic index in two mouse models of ADPKD. Our results suggest a possible role for AMPK activation in slowing renal cystogenesis as well as the potential for therapeutic application of metformin in the context of ADPKD.

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Cell Surface Glypicans Are Low-Affinity Endostatin Receptors

et al. 2001

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Endostatin, a collagen XVIII fragment, is a potent anti-angiogenic protein. We sought to identify its endothelial cell surface receptor(s). Alkaline phosphatase- tagged endostatin bound endothelial cells revealing two binding affinities. Expression cloning identified glypican, a cell surface proteoglycan as the lower-affinity receptor. Biochemical and genetic studies indicated that glypicans' heparan sulfate glycosaminoglycans were critical for endostatin binding. Furthermore, endostatin selected a specific octasulfated hexasaccharide from a sequence in heparin. We have also demonstrated a role for endostatin in renal tubular cell branching morphogenesis and show that glypicans serve as low-affinity receptors for endostatin in these cells, as in endothelial cells. Finally, antisense experiments suggest the critical importance of glypicans in mediating endostatin activities.

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Macrophages Promote Cyst Growth in Polycystic Kidney Disease

et al. 2011

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Bone marrow stem cells contribute to repair of the ischemically injured renal tubule

Kale¹,

Karihaloo²,

Clark³

et al. 2003

J. Clin. Invest.

154

143

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Anil Karihaloo

Bone marrow stem cells contribute to repair of the ischemically injured renal tubule

Activating AMP-activated protein kinase (AMPK) slows renal cystogenesis

Cell Surface Glypicans Are Low-Affinity Endostatin Receptors

Macrophages Promote Cyst Growth in Polycystic Kidney Disease

Bone marrow stem cells contribute to repair of the ischemically injured renal tubule

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