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This Article Full Text Full Text (PDF) Supplemental Figures All Versions of this Article: 297/2/F380    most recent 90433.2008v1 Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in Web of Science Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Google Scholar Articles by Chen, Y.-C. Articles by Clark, B. J. PubMed PubMed Citation Articles by Chen, Y.-C. Articles by Clark, B. J.

Steroidogenic acute regulatory-related lipid transfer domain protein 5 localization and regulation in renal tubules

Departments of ¹Biochemistry and Molecular Biology, ²Pediatrics, ³Medicine, and ⁴Anatomical Sciences and Neurobiology, ⁵Center for Genetics and Molecular Medicine, University of Louisville School of Medicine, Louisville; and ⁶Veterans Affairs Medical Center, Louisville, Kentucky

Submitted 22 July 2008 ; accepted in final form 25 May 2009

STARD5 is a cytosolic sterol transport protein that is predominantly expressed in liver and kidney. This study provides the first report on STARD5 protein expression and distribution in mouse kidney. Immunohistochemical analysis of C57BL/6J mouse kidney sections revealed that STARD5 is expressed in tubular cells within the renal cortex and medullar regions with no detectable staining within the glomeruli. Within the epithelial cells of proximal renal tubules, STARD5 is present in the cytoplasm with high staining intensity along the apical brush-border membrane. Transmission electronmicroscopy of a renal proximal tubule revealed STARD5 is abundant at the basal domain of the microvilli and localizes mainly in the rough endoplasmic reticulum (ER) with undetectable staining in the Golgi apparatus and mitochondria. Confocal microscopy of STARD5 distribution in HK-2 human proximal tubule cells showed a diffuse punctuate pattern that is distinct from the early endosome marker EEA1 but similar to the ER membrane marker GRP78. Treatment of HK-2 cells with inducers of ER stress increased STARD5 mRNA expression and resulted in redistribution of STARD5 protein to the perinuclear and cell periphery regions. Since recent reports show elevated ER stress response gene expression and increased lipid levels in kidneys from diabetic rodent models, we tested STARD5 and cholesterol levels in kidneys from the OVE26 type I diabetic mouse model. Stard5 mRNA and protein levels are increased 2.8- and 1.5-fold, respectively, in OVE26 diabetic kidneys relative to FVB control kidneys. Renal free cholesterol levels are 44% elevated in the OVE26 mice. Together, our data support STARD5 functioning in kidney, specifically within proximal tubule cells, and suggest a role in ER-associated cholesterol transport.

START; cholesterol transport; diabetic nephropathy; ER stress; proximal tubules