Co-localization of the sodium-glucose co-transporter-2 channel (SGLT-2) with endothelin ETA and ETB receptors in human cardiorenal tissue.

IF 3.8 3区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Bioscience Reports Pub Date : 2024-06-26 DOI:10.1042/BSR20240604
Thomas L Williams, Rhoda E Kuc, Anna L Paterson, George R Abraham, Anna L Pullinger, Janet J Maguire, Sanjay Sinha, Peter J Greasley, Philip Ambery, Anthony P Davenport
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Abstract

Endothelin (ET) receptor antagonists are being investigated in combination with sodium-glucose co-transporter-2 inhibitors (SGLT-2i). These drugs primarily inhibit the SGLT-2 transporter that, in humans, is thought to be mainly restricted to the renal proximal convoluted tubule, resulting in increased glucose excretion favouring improved glycaemic control and diuresis. This action reduces fluid retention with ET receptor antagonists. Studies have suggested SGLT-2 may also be expressed in cardiomyocytes of human heart. To understand the potential of combining the two classes of drugs, our aim was to compare the distribution of ET receptor sub-types in human kidney, with SGLT-2. Secondly, using the same experimental conditions, we determined if SGLT-2 expression could be detected in human heart and whether the transporter co-localised with ET receptors.

Methods: Immunocytochemistry localised SGLT-2, ETA and ETB receptors in sections of histologically normal kidney, left ventricle from patients undergoing heart transplantation or controls. Primary antisera were visualised using fluorescent microscopy. Image analysis was used to measure intensity compared with background in adjacent control sections.

Results: As expected, SGLT-2 localised to epithelial cells of the proximal convoluted tubules, and co-localised with both ET receptor sub-types. Similarly, ETA receptors predominated in cardiomyocytes; low (compared with kidney but above background) positive staining was also detected for SGLT-2.

Discussion: Whether low levels of SGLT-2 have a (patho)physiological role in cardiomyocytes is not known but results suggest the effect of direct blockade of sodium (and glucose) influx via SGLT-2 inhibition in cardiomyocytes should be explored, with potential for additive effects with ETA antagonists.

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人心肾组织中钠糖共转运体-2 通道(SGLT-2)与内皮素 ETA 和 ETB 受体的共定位。
目前正在研究内皮素(ET)受体拮抗剂与钠-葡萄糖协同转运体-2 抑制剂(SGLT-2i)的联合应用。这些药物主要抑制 SGLT-2 转运体,在人体中,该转运体被认为主要局限于肾近曲小管,从而增加葡萄糖排泄,有利于改善血糖控制和利尿。这种作用减少了 ET 受体拮抗剂的液体潴留。研究表明,SGLT-2 也可能在人体心脏的心肌细胞中表达。为了了解这两类药物结合使用的潜力,我们的目的是比较 ET 受体亚型与 SGLT-2 在人体肾脏中的分布情况。其次,在相同的实验条件下,我们确定了 SGLT-2 能否在人类心脏中表达,以及该转运体是否与 ET 受体共定位:免疫细胞化学法在组织学正常的肾脏、心脏移植患者的左心室或对照组的切片中定位 SGLT-2、ETA 和 ETB 受体。使用荧光显微镜观察原代抗血清。图像分析用于测量与邻近对照切片背景相比的强度:不出所料,SGLT-2 定位于近曲小管的上皮细胞,并与两种 ET 受体亚型共定位。同样,ETA 受体在心肌细胞中占主导地位;SGLT-2 也检测到低水平(与肾脏相比,但高于背景)阳性染色:低水平的 SGLT-2 在心肌细胞中是否具有(病理)生理作用尚不清楚,但研究结果表明,应探讨通过抑制心肌细胞中的 SGLT-2 直接阻断钠(和葡萄糖)流入的效果,以及与 ETA 拮抗剂产生叠加效应的可能性。
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来源期刊
Bioscience Reports
Bioscience Reports 生物-细胞生物学
CiteScore
8.50
自引率
0.00%
发文量
380
审稿时长
6-12 weeks
期刊介绍: Bioscience Reports provides a home for sound scientific research in all areas of cell biology and molecular life sciences. Since 2012, Bioscience Reports has been fully Open Access and publishes all papers under the liberal CC BY licence, giving the life science community quality research to share and discuss.Content before 2012 is subscription-only, and is accessible via archive purchase. Articles are assessed on soundness, providing a home for valid findings and data. We welcome papers that span disciplines (e.g. chemistry, medicine), including papers describing: -new methodologies -tools and reagents to probe biological questions -mechanistic details -disease mechanisms -metabolic processes and their regulation -structure and function -bioenergetics
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