Role of Alström syndrome 1 in the regulation of blood pressure and renal function
Ankita Bachhawat Jaykumar, Paulo S. Caceres, Keyona N. King-Medina, Tang-Dong Liao, Indrani Datta, Dipak Maskey, Jürgen K. Naggert, Mariela Mendez, William H. Beierwaltes, Pablo A. Ortiz
Ankita Bachhawat Jaykumar, Paulo S. Caceres, Keyona N. King-Medina, Tang-Dong Liao, Indrani Datta, Dipak Maskey, Jürgen K. Naggert, Mariela Mendez, William H. Beierwaltes, Pablo A. Ortiz
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Research Article Cell biology

Role of Alström syndrome 1 in the regulation of blood pressure and renal function

Abstract

Elevated blood pressure (BP) and renal dysfunction are complex traits representing major global health problems. Single nucleotide polymorphisms identified by genome-wide association studies have identified the Alström syndrome 1 (ALMS1) gene locus to render susceptibility for renal dysfunction, hypertension, and chronic kidney disease (CKD). Mutations in the ALMS1 gene in humans causes Alström syndrome, characterized by progressive metabolic alterations including hypertension and CKD. Despite compelling genetic evidence, the underlying biological mechanism by which mutations in the ALMS1 gene lead to the above-mentioned pathophysiology is not understood. We modeled this effect in a KO rat model and showed that ALMS1 genetic deletion leads to hypertension. We demonstrate that the link between ALMS1 and hypertension involves the activation of the renal Na+/K+/2Cl– cotransporter NKCC2, mediated by regulation of its endocytosis. Our findings establish a link between the genetic susceptibility to hypertension, CKD, and the expression of ALMS1 through its role in a salt-reabsorbing tubular segment of the kidney. These data point to ALMS1 as a potentially novel gene involved in BP and renal function regulation.

Authors

Ankita Bachhawat Jaykumar, Paulo S. Caceres, Keyona N. King-Medina, Tang-Dong Liao, Indrani Datta, Dipak Maskey, Jürgen K. Naggert, Mariela Mendez, William H. Beierwaltes, Pablo A. Ortiz

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Figure 2

Expression and colocalization of ALMS1 and NKCC2 in rat TAL.

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Expression and colocalization of ALMS1 and NKCC2 in rat TAL. (A) Represe...
(A) Representative immunoblot of ALMS1 indicating ALMS1 protein expression in rat thick ascending limb (TAL) corresponding to 230 kDa protein; n = 4. (B) Representative image for immunofluorescent labeling of ALMS1 in isolated, perfused TAL, indicating apical and subapical vesicular localization of ALMS1 by confocal imaging in a cross-section of TAL; n = 3. Scale bars: 5 μm. (C) Representative image for immunofluorescent labeling of NKCC2 and ALMS1 in rat TAL primary cultured cells; n = 3. NKCC2 (green); ALMS1 (red); tight junction protein zonula occludens 1 (blue). Merged image from a subapical plane (1.5 μm from the apical plane) showing overlap of internalized NKCC2 and ALMS1 indicated with an arrow. Scale bars: 5 μm. (D) Representative image for immunofluorescent labeling of NKCC2 (green) and ALMS1 (red) in a single TAL cross-section obtained from perfusion-fixed rat kidney slices (n = 4). Scale bars: 10 µm.