在链脲佐菌素诱导的糖尿病小鼠模型中，全身性缺氧诱导因子1α缺乏会加速肾损伤。

Renal injury is accelerated by global hypoxia-inducible factor 1 alpha deficiency in a mouse model of STZ-induced diabetes.

作者信息

Bohuslavova Romana, Cerychova Radka, Nepomucka Katerina, Pavlinkova Gabriela

机构信息

Laboratory of Molecular Pathogenetics, Institute of Biotechnology CAS, BIOCEV, Center of Excellence, Prumyslova 595, Vestec, 25242, Czechia.

Faculty of Science, Charles University, Prague, Czechia.

出版信息

BMC Endocr Disord. 2017 Aug 3;17(1):48. doi: 10.1186/s12902-017-0200-8.

DOI:10.1186/s12902-017-0200-8

PMID:28774305

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5543752/

Abstract

BACKGROUND

Hypoxia inducible factor 1 (HIF-1) activates protective pathways to counteract hypoxia and prevent tissue damage in conjunction with renal injury. The aim of this study was to evaluate a role of HIF-1 in diabetes-induced kidney damage.

METHODS

We used a streptozotocin-induced diabetes mouse model and compared biochemical, histological and molecular parameters associated with kidney damage in Hif1α deficient (Hif1α ) and wild-type mice.

RESULTS

We showed that Hif1α deficiency accelerated pathological changes in the early stage of DN. Six weeks after diabetes-induction, Hif1α deficient mice showed more prominent changes in biochemical serum parameters associated with glomerular injury, increased expression of podocyte damage markers, and loss of podocytes compared to wild-type mice. These results indicate that Hif1α deficiency specifically affects podocyte survival in the early phase of DN, resulting in diabetic glomerular injury. In contrast, renal fibrosis was not affected by the global reduction of Hif1α, at least not in the early phase of diabetic exposure.

CONCLUSIONS

Together our data reveal that HIF-1 has an essential role in the early response to prevent diabetes-induced tissue damage and that impaired HIF-1 signaling results in a faster progression of DN. Although the modulation of HIF-1 activity is a high-priority target for clinical treatments, further study is required to investigate HIF-1 as a potential therapeutic target for the treatment of DN.

摘要

背景

缺氧诱导因子1（HIF-1）激活保护途径以对抗缺氧，并在肾损伤时防止组织损伤。本研究的目的是评估HIF-1在糖尿病诱导的肾损伤中的作用。

方法

我们使用链脲佐菌素诱导的糖尿病小鼠模型，比较了Hif1α缺陷（Hif1α -/-）小鼠和野生型小鼠中与肾损伤相关的生化、组织学和分子参数。

结果

我们发现Hif1α缺陷加速了糖尿病肾病早期的病理变化。与野生型小鼠相比，糖尿病诱导6周后，Hif1α缺陷小鼠在与肾小球损伤相关的生化血清参数方面表现出更显著的变化，足细胞损伤标志物的表达增加，且足细胞丢失。这些结果表明，Hif1α缺陷在糖尿病肾病早期特异性地影响足细胞存活，导致糖尿病性肾小球损伤。相比之下，Hif1α的整体减少对肾纤维化没有影响，至少在糖尿病暴露的早期没有影响。

结论

我们的数据共同表明，HIF-1在预防糖尿病诱导的组织损伤的早期反应中起重要作用，且HIF-1信号受损导致糖尿病肾病进展更快。尽管调节HIF-1活性是临床治疗的高度优先目标，但仍需要进一步研究以探讨HIF-1作为治疗糖尿病肾病的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0524/5543752/136b2e678f11/12902_2017_200_Fig1_HTML.jpg

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在链脲佐菌素诱导的糖尿病小鼠模型中，全身性缺氧诱导因子1α缺乏会加速肾损伤。

Renal injury is accelerated by global hypoxia-inducible factor 1 alpha deficiency in a mouse model of STZ-induced diabetes.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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