Quinolinic acid impairs mitophagy promoting microglia senescence and poor healthspan in C. elegans: a mechanism of impaired aging process

Abstract: Senescent microglia are a distinct microglial phenotype present in aging brain that have been implicated in the progression of aging and age-related neurodegenerative diseases. However, the specific mechanisms that trigger microglial senescence are largely unknown. Quinolinic acid (QA) is a cytotoxic metabolite produced upon abnormal activation of microglia. Brain aging and age-related neurodegenerative diseases have an elevated concentration of QA. In the present study, we investigated whether QA promotes agi… Show more

“…59 Remarkably, restoration of mitochondrial autophagy using the inducer urolithin A prevents microglial senescence by stimulating mitochondrial lysosome formation and counteracting QA-induced mitochondrial turnover. 60 A study on the Cisd identified that JIANG ET AL.…”

Infectious viruses and neurodegenerative diseases: The mitochondrial defect hypothesis

“…59 Remarkably, restoration of mitochondrial autophagy using the inducer urolithin A prevents microglial senescence by stimulating mitochondrial lysosome formation and counteracting QA-induced mitochondrial turnover. 60 A study on the Cisd identified that JIANG ET AL.…”

Infectious viruses and neurodegenerative diseases: The mitochondrial defect hypothesis

The NRF2 activator RTA-408 ameliorates chronic alcohol exposure-induced cognitive impairment and NLRP3 inflammasome activation by modulating impaired mitophagy initiation

Hidden role of microglia during neurodegenerative disorders and neurocritical care: A mitochondrial perspective