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Literature DB >> 26303067

Essential Role of X-Box Binding Protein-1 during Endoplasmic Reticulum Stress in Podocytes.

Hossam Hassan¹, Xuefei Tian², Kazunori Inoue², Nathan Chai², Chang Liu², Keita Soda², Gilbert Moeckel³, Alda Tufro¹, Ann-Hwee Lee⁴, Stefan Somlo², Sorin Fedeles², Shuta Ishibe⁵.

Abstract

Podocytes are terminally differentiated epithelial cells that reside along the glomerular filtration barrier. Evidence suggests that after podocyte injury, endoplasmic reticulum stress response is activated, but the molecular mechanisms involved are incompletely defined. In a mouse model, we confirmed that podocyte injury induces endoplasmic reticulum stress response and upregulated unfolded protein response pathways, which have been shown to mitigate damage by preventing the accumulation of misfolded proteins in the endoplasmic reticulum. Furthermore, simultaneous podocyte-specific genetic inactivation of X-box binding protein-1 (Xbp1), a transcription factor activated during endoplasmic reticulum stress and critically involved in the untranslated protein response, and Sec63, a heat shock protein-40 chaperone required for protein folding in the endoplasmic reticulum, resulted in progressive albuminuria, foot process effacement, and histology consistent with ESRD. Finally, loss of both Sec63 and Xbp1 induced apoptosis in podocytes, which associated with activation of the JNK pathway. Collectively, our results indicate that an intact Xbp1 pathway operating to mitigate stress in the endoplasmic reticulum is essential for the maintenance of a normal glomerular filtration barrier.

Entities: Disease Gene Species

Keywords: glomerular epithelial cells; glomerulosclerosis; proteinuria

Mesh：

Substances：

Year: 2015 PMID： 26303067 PMCID： PMC4814187 DOI： 10.1681/ASN.2015020191

Source DB: PubMed Journal: J Am Soc Nephrol ISSN： 1046-6673 Impact factor: 10.121

41 in total

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3. Renal tubular cell spliced X-box binding protein 1 (Xbp1s) has a unique role in sepsis-induced acute kidney injury and inflammation.

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6. Endoplasmic reticulum-associated degradation is required for nephrin maturation and kidney glomerular filtration function.

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