2021
DOI: 10.1080/15548627.2021.1888244
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Regulation of PRKN-independent mitophagy

Abstract: Mitochondria are dynamic, multifunctional cellular organelles that play a fundamental role in maintaining cellular homeostasis. Keeping the quality of mitochondria in check is of essential importance for functioning and survival of the cells. Selective autophagic clearance of flawed mitochondria, a process termed mitophagy, is one of the most prominent mechanisms through which cells maintain a healthy mitochondrial pool. The best-studied pathway through which mitophagy is exerted is the PINK1-PRKN pathway. How… Show more

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Cited by 116 publications
(72 citation statements)
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“…In support of this, cholesterol oxidase-based quantification of mitochondrial cholesterol revealed a similar increase of mitochondrial cholesterol in GRAMD1C KO cells compared to control cells (Figure 6c). At the same time, loss of GRAMD1C caused a reduction of ER cholesterol levels, as seen through an increase in SREBP target gene expression (Supplementary figure 4d), in line with a previous observations 40 . Additionally, the abundance of cholesterol-associated proteins (STARD9, ERLIN, SQLE, NPC2, and APOB) in GRAMD1C depleted cells were altered as seen through proteomic analysis of siGRAMD1C treated cells (Supplementary figure 4e, Table II).…”
Section: Resultssupporting
confidence: 92%
“…In support of this, cholesterol oxidase-based quantification of mitochondrial cholesterol revealed a similar increase of mitochondrial cholesterol in GRAMD1C KO cells compared to control cells (Figure 6c). At the same time, loss of GRAMD1C caused a reduction of ER cholesterol levels, as seen through an increase in SREBP target gene expression (Supplementary figure 4d), in line with a previous observations 40 . Additionally, the abundance of cholesterol-associated proteins (STARD9, ERLIN, SQLE, NPC2, and APOB) in GRAMD1C depleted cells were altered as seen through proteomic analysis of siGRAMD1C treated cells (Supplementary figure 4e, Table II).…”
Section: Resultssupporting
confidence: 92%
“…In addition to the PINK1/parkin-dependent mitophagy pathway described above, alternative parkin-independent pathways can recruit LC3 to mitochondria and promote their selective autophagic elimination ( 122 , 123 ). Two different parkin-independent mechanisms can be distinguished: (1) receptor-mediated or (2) ubiquitin-mediated mitophagy ( Fig.…”
Section: Parkin-independent Mitophagymentioning
confidence: 99%
“…Cardiolipin is a phospholipid normally residing at the MIM, which can be externalized under mitochondrial stress conditions by phospholipid scramblase-3. Such relocalization to the MOM allows cardiolipin to directly bind to LC3 ( 43 ), thus acting as a lipid kind of autophagy receptor in the regulation of parkin-independent mitophagy ( 122 ) ( Fig. 3 A ).…”
Section: Parkin-independent Mitophagymentioning
confidence: 99%
“…In the case of ubiquitin-independent pathways, a number of mitophagy receptors are recruited to damaged mitochondria (or exposed on their surface) to mediate interaction with the autophagic machinery [ 2 , 56–58 ]. BNIP3 and BNIP3L (or NIX) are two such receptors which regulate mitophagy under hypoxic conditions with BNIP3L also being essential for mitochondrial clearance during erythrocyte maturation and somatic cell reprogramming [ 2 , 56 ]. Both BNIP3 and BNIP3L contain oligopeptide domains that interact with ATG8 family proteins (LIR domains) and this is the mechanism for autophagosome recruitment.…”
Section: Formation Of a Mitophagosome: ‘Eat-me' Signals Adaptors And Receptorsmentioning
confidence: 99%
“…Another receptor involved in mitophagy independently of a ubiquitin ‘eat me' signal is FUNDC1, a transmembrane protein of the outer mitochondrial membrane that has been implicated in homeostatic pathways of cardiac cells. Interaction of FUNDC1 with the autophagic machinery during hypoxic conditions involves both a LIR domain exposed on the cytosolic side as well as binding to the ULK1 kinase [ 2 , 56 ]. All of these interactions between receptors and ATG8 family members are regulated by phosphorylation cascades thus modulating receptor affinity for the forming autophagosomal membrane.…”
Section: Formation Of a Mitophagosome: ‘Eat-me' Signals Adaptors And Receptorsmentioning
confidence: 99%