实验大鼠中，钠-葡萄糖协同转运蛋白2抑制后近端肾小管增殖和延长的诱导作用。

Induction of proximal tubular proliferation and lengthening in response to sodium glucose linked cotransporter-2 inhibition in experimental rats.

作者信息

Wu Ellen, Macklin Sarah, Zhang Yanling, Thai Kerri, Nghiem Linda, Di Ciano-Oliveira Caterina, Coelho Nuno, Wang Hai, Advani Suzanne L, Desjardins Jean-François, Yuen Darren A, Misra Paraish, Connelly Kim A, Nyengaard Jens R, Gilbert Richard E

机构信息

Keenan Research Centre for Biomedical Science in the Li Ka Shing Knowledge Institute, St. Michael's Hospital, Toronto, Ontario, Canada.

Department of Medicine, University of Toronto, Toronto, Ontario, Canada.

出版信息

J Diabetes Investig. 2025 Jul;16(7):1232-1242. doi: 10.1111/jdi.70043. Epub 2025 Apr 22.

DOI:10.1111/jdi.70043

PMID:40260754

Abstract

AIMS/INTRODUCTION: While SGLT2 accounts for >90% of kidney glucose reabsorption, its pharmacological inhibition or genetic knockdown reduces glucose reabsorption by only 50%.

MATERIALS AND METHODS

We postulated that the less than expected glucosuric response to SGLT2 inhibition might result from a compensatory increase in the length of the proximal tubule as seen in experimental diabetes where early tubular proliferation is followed by tubular lengthening. Taking advantage of their differing anatomical locations, stereological techniques were used to differentiate the SGLT1 expressing straight proximal tubule that lies within the outer stripe of the outer medulla (S3 segment) and that of the predominantly SGLT2 expressing early proximal convoluted tubule located within the kidney cortex (S1, S2 segments).

RESULTS

The SGLT2 inhibitor, dapagliflozin, induced an early, transient hyperplastic response (3-fold increase of Ki67 labelling, P < 0.0001) in S3 proximal tubular cells followed by a 32% increase in its length (P < 0.0001). In contrast, the length of the SGLT2 expressing S1, S2 segments of the proximal tubule was unaffected.

CONCLUSIONS

The finding that SGLT2 inhibition leads to expansion of the S3 segment of the proximal tubule, the site of SGLT1, is suggestive of a physiological response to diminish urinary glucose loss akin to that occurring in experimental diabetes. These findings provide a cogent explanation for the less-thanthan-expected effect of this drug class on glucose reabsorption.

摘要

目的/引言：虽然钠-葡萄糖协同转运蛋白2（SGLT2）负责肾脏中超过90%的葡萄糖重吸收，但其药理学抑制或基因敲低仅使葡萄糖重吸收减少50%。

材料与方法

我们推测，对SGLT2抑制的糖尿反应低于预期，可能是由于近端小管长度的代偿性增加，如在实验性糖尿病中所见，早期肾小管增殖后接着肾小管延长。利用它们不同的解剖位置，采用体视学技术区分位于外髓质外带（S3段）的表达SGLT1的直近端小管和主要位于肾皮质（S1、S2段）的表达SGLT2的早期近端曲小管。

结果

SGLT2抑制剂达格列净在S3近端小管细胞中诱导了早期短暂的增生反应（Ki67标记增加3倍，P<0.0001），随后其长度增加32%（P<0.0001）。相比之下，近端小管表达SGLT2的S1、S2段的长度未受影响。

结论

SGLT2抑制导致近端小管S3段（SGLT1所在部位）扩张这一发现，提示了一种类似于实验性糖尿病中发生的减少尿糖丢失的生理反应。这些发现为这类药物对葡萄糖重吸收的作用低于预期提供了有力的解释。

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实验大鼠中，钠-葡萄糖协同转运蛋白2抑制后近端肾小管增殖和延长的诱导作用。

Induction of proximal tubular proliferation and lengthening in response to sodium glucose linked cotransporter-2 inhibition in experimental rats.

作者信息

机构信息

出版信息

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

材料与方法

结果

结论

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