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磷酸盐、自噬和 αKlotho 在维持健康中的三方相互作用。

The tripartite interaction of phosphate, autophagy, and αKlotho in health maintenance.

机构信息

Charles and Jane Pak Center for Mineral Metabolism and Clinical Research, University of Texas Southwestern Medical Center, Dallas, TX, USA.

Departments of Internal Medicine, University of Texas Southwestern Medical Center, Dallas, TX, USA.

出版信息

FASEB J. 2020 Feb;34(2):3129-3150. doi: 10.1096/fj.201902127R. Epub 2020 Jan 5.

DOI:10.1096/fj.201902127R
PMID:31908069
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7286356/
Abstract

Aging-related organ degeneration is driven by multiple factors including the cell maintenance mechanisms of autophagy, the cytoprotective protein αKlotho, and the lesser known effects of excess phosphate (Pi), or phosphotoxicity. To examine the interplay between Pi, autophagy, and αKlotho, we used the BK/BK mouse (homozygous for mutant Becn1 ) with increased autophagic flux, and αKlotho-hypomorphic mouse (kl/kl) with impaired urinary Pi excretion, low autophagy, and premature organ dysfunction. BK/BK mice live longer than WT littermates, and have heightened phosphaturia from downregulation of two key NaPi cotransporters in the kidney. The multi-organ failure in kl/kl mice was rescued in the double-mutant BK/BK;kl/kl mice exhibiting lower plasma Pi, improved weight gain, restored plasma and renal αKlotho levels, decreased pathology of multiple organs, and improved fertility compared to kl/kl mice. The beneficial effects of heightened autophagy from Becn1 was abolished by chronic high-Pi diet which also shortened life span in the BK/BK;kl/kl mice. Pi promoted beclin 1 binding to its negative regulator BCL2, which impairs autophagy flux. Pi downregulated αKlotho, which also independently impaired autophagy. In conclusion, Pi, αKlotho, and autophagy interact intricately to affect each other. Both autophagy and αKlotho antagonizes phosphotoxicity. In concert, this tripartite system jointly determines longevity and life span.

摘要

衰老相关的器官退化是由多种因素驱动的,包括自噬的细胞维持机制、细胞保护蛋白 αKlotho 和不太为人知的过量磷酸盐(Pi)或磷毒性的影响。为了研究 Pi、自噬和 αKlotho 之间的相互作用,我们使用了自噬通量增加的 BK/BK 小鼠(Becn1 突变纯合子)和尿 Pi 排泄减少、低自噬和过早器官功能障碍的 αKlotho 低功能小鼠(kl/kl)。BK/BK 小鼠比 WT 同窝仔活得更长,并且由于肾脏中两个关键的 NaPi 协同转运蛋白下调而出现高磷尿症。kl/kl 小鼠的多器官衰竭在双重突变体 BK/BK;kl/kl 小鼠中得到挽救,其表现为较低的血浆 Pi、体重增加改善、血浆和肾脏 αKlotho 水平恢复、多个器官的病理减轻以及与 kl/kl 小鼠相比生育能力提高。慢性高 Pi 饮食消除了来自 Becn1 的增强自噬的有益作用,这也缩短了 BK/BK;kl/kl 小鼠的寿命。Pi 促进 beclin 1 与其负调节剂 BCL2 结合,从而损害自噬通量。Pi 下调了 αKlotho,这也独立地损害了自噬。总之,Pi、αKlotho 和自噬相互交织地相互影响。自噬和 αKlotho 均拮抗磷毒性。协同作用下,这个三方系统共同决定了寿命和寿命。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/143e/7286356/2fc723e43ab2/nihms-1584400-f0008.jpg
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