MassIVE MSV000083439

Partial Public PXD012696

Sirtuin 5 regulates proximal tubule fatty acid oxidation to protect against acute kidney injury

Description

Acute kidney injury (AKI) is a major health care concern. There are no therapies for the treatment of AKI. The primary site of damage during AKI is the proximal tubule, which are highly metabolically active cells that rely upon fatty acids for energy. Proximal tubules are notably mitochondria- and peroxisomes-rich cell type that mediate fatty acid oxidation (FAO). Sirtuins reverse post-translational lysine acylation and control many biological processes including FAO. Sirtuin1 and sirtuin3 are protective against AKI. However, the role of the mitochondrial Sirtuin5 (Sirt5) during AKI has yet to be determined. We found Sirt5 to be highly expressed in the proximal tubule. At baseline Sirtuin5 knockout (Sirt5-/-) animals had modestly decreased mitochondrial function but significantly increased FAO, which was localized to the peroxisome. While no overt kidney phenotype was observed in SIRT5-/- mice, following ischemia reperfusion injury Sirt5-/- animals had significantly improved kidney function and less tissue damage. This coincided with increased peroxisomal activity in the Sirt5-/- proximal tubules in preference to the mitochondria. Here we have identified a novel mechanism driving protection of kidneys from ischemic injury. If this can be harnessed it may prove to be an effective therapeutic. [doi:10.25345/C5S03S] [dataset license: CC0 1.0 Universal (CC0 1.0)]

Keywords: kidney ; ischemia ; succinylation ; Skyline

Contact

Principal Investigators:
(in alphabetical order)
Birgit Schilling, Buck Institute for Research on Aging, United States
Submitting User: bschilling
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