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Novel regulation of kidney function by gastrointestinal hormones
Abstract only The control of whole-body energy metabolism involves intricate crosstalk between multiple organ systems including the gut and the brain that play well-recognized roles in this process. However, the important contributions and mechanisms by other organs are poorly understood. Errors in...
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Published in: | Physiology (Bethesda, Md.) Md.), 2024-05, Vol.39 (S1) |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | Abstract only
The control of whole-body energy metabolism involves intricate crosstalk between multiple organ systems including the gut and the brain that play well-recognized roles in this process. However, the important contributions and mechanisms by other organs are poorly understood. Errors in metabolic regulation can lead to human metabolic diseases including diabetes and obesity that affect 75% of the population and can lead to significant comorbidities. Improving our mechanistic understanding of multi-organ metabolic crosstalk in health and disease is essential for developing highly effcient and new therapeutic approaches. Macula densa (MD) cells in the kidney are chief regulators of renal blood flow and tissue remodeling. We hypothesized that the kidney is a major player in body metabolism via a new mechanism of gut-kidney crosstalk that involves the gut hormones gastrin and cholecystokinine (CCK) activating intrarenal, MD-specific mechanisms to increase blood flow and filtration, progenitor cells and tissue growth factors. High-resolution MD bulk and single-cell transcriptome analysis was performed from freshly isolated, enriched MD cells using MD-GFP mouse kidneys. Single cell MD Ca2+ signaling was analyzed in vivo using intravital multiphoton microscopy (MPM) of Sox2-GT mice that express the ratiometric Ca2+ reporter GCaMP6f/tdTomato in all renal cells. The altered expression of MD specific markers in response to gastrin/CCK8 stimuli was studied using western blot and the novel MD
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immortalized cell line cultured in vitro. RNA sequencing and transcriptome analysis identified the gastrin/CCK receptor Cckbr as one of the highest expressed genes in MD versus control kidney cells. Intravital multiphoton imaging of Sox2-GCaMP6 reporter mouse kidneys revealed robust and entirely MD cell-specific calcium signaling in response to systemic gastrin/CCK injection. Using the novel MD
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immortalized cell line cultured in vitro, CCK8 treatment led to 3-fold increases in MD cell synthesis of Prostaglandin E2 (PGE2)-generating COX2 and CCN1 that are established mediators of MD-induced glomerular hyperfiltration and tissue remodeling, respectively. Chronic treatment of Ren1d-Confetti mice with Darunavir, an HIV protease inhibitor significantly increased plasma CCK levels, Ren+ mesenchymal progenitor cell number and clonality, renal cell proliferation and tissue hypertrophy. This study uncovered new regulatory mechanisms of systemic metabolism especially th |
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ISSN: | 1548-9213 1548-9221 |
DOI: | 10.1152/physiol.2024.39.S1.2167 |