Bcl-2-associated athanogene 5 (BAG5) regulates Parkin-dependent mitophagy and cell death

Snoo, Mitchell L. de; Friesen, Erik Loewen; Zhang, Yu Tong; Earnshaw, Rebecca; Dorval, Geneviève; Kapadia, Minesh; O'Hara, Darren M; Agapova, Victoria; Chau, Hien; Pellerito, Ornella; Tang, Matthew Y. H.; Wang, Xinzhu; Schmitt‐Ulms, Gerold; Durcan, Thomas M.; Fon, Edward A.; Kalia, Lorraine V.; Kalia, Suneil K.

doi:10.1038/s41419-019-2132-x

Cited by 36 publications

(27 citation statements)

References 51 publications

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“…Much like PINK1, Parkin has been described as a neuroprotective agent (Feany and Pallanck 2003). Several interactions with apoptotic proteins have been described, including BCL-x L and BAG5 (De Snoo et al 2019;Hollville et al 2014). Parkin has also been suggested to directly influence apoptosis by ubiquitinating the BH3-binding site of BAK (Bernardini et al 2019).…”

Section: Parkin Activation Can Both Prevent and Promote Cell Deathmentioning

confidence: 99%

Kill one or kill the many: interplay between mitophagy and apoptosis

Wanderoy

Hees

Klesse

et al. 2020

Biological Chemistry

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Mitochondria are key players of cellular metabolism, Ca2+ homeostasis, and apoptosis. The functionality of mitochondria is tightly regulated, and dysfunctional mitochondria are removed via mitophagy, a specialized form of autophagy that is compromised in hereditary forms of Parkinson’s disease. Through mitophagy, cells are able to cope with mitochondrial stress until the damage becomes too great, which leads to the activation of pro-apoptotic BCL-2 family proteins located on the outer mitochondrial membrane. Active pro-apoptotic BCL-2 proteins facilitate the release of cytochrome c from the mitochondrial intermembrane space (IMS) into the cytosol, committing the cell to apoptosis by activating a cascade of cysteinyl-aspartate specific proteases (caspases). We are only beginning to understand how the choice between mitophagy and the activation of caspases is determined on the mitochondrial surface. Intriguingly in neurons, caspase activation also plays a non-apoptotic role in synaptic plasticity. Here we review the current knowledge on the interplay between mitophagy and caspase activation with a special focus on the central nervous system.

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Section: Parkin Activation Can Both Prevent and Promote Cell Deathmentioning

confidence: 99%

Kill one or kill the many: interplay between mitophagy and apoptosis

Wanderoy

Hees

Klesse

et al. 2020

Biological Chemistry

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“…Interestingly, unlike the interaction between BAG5 and p62, the association of BAG5 with this complex was at least partially facilitated by Hsp70 ( Beilina et al, 2014 ). More recently, we have demonstrated that BAG5 also modulates parkin-dependent mitophagy suggesting that this co-chaperone may have a more general role in regulating these processes ( De Snoo et al, 2019 ). Further investigation will be required to understand the mechanisms by which this occurs and the role that other BAG proteins may play in these complex intracellular processes required to maintain proteostasis.…”

Section: Discussionmentioning

confidence: 99%

“…Considering that BAG5 functionally interacts with LRRK2 to promote turnover of the TGN ( Beilina et al, 2014 ) and inhibits parkin-mediated mitophagy ( De Snoo et al, 2019 ), it may also be possible that BAG5 has a downstream inhibitory effect on autophagic flux, which, in turn, slows the degradation of p62 and alpha-synuclein via the ALP and promotes the accumulation of p62 and alpha-synuclein aggregates ( Wu et al, 2015 ). This notion is supported by the reduction in alpha-synuclein oligomers, soluble p62 protein levels, and perinuclear p62 aggregates following BAG5 KD.…”

Section: Discussionmentioning

confidence: 99%

“…BAG5 also interacts with and inhibits the ubiquitin E3 ligase activities of parkin and C-terminal Hsp70 interacting protein (CHIP) ( Kalia et al, 2004 , 2011 ). The inhibition of Hsp70, parkin, and CHIP by BAG5 disrupts proteostasis, mitophagy ( De Snoo et al, 2019 ), and promotes the formation of alpha-synuclein oligomers, as well as other protein aggregates, which contribute to neuronal death ( Kalia et al, 2013 ). Consistent with these findings, BAG5 was found to promote dopaminergic neuron death in the substantia nigra in rodent models of PD ( Kalia et al, 2004 ) and interact with other PD relevant proteins including LRRK2, PINK1, and DJ-1 ( Beilina et al, 2014 ; Wang et al, 2014 ; Qin et al, 2017 ; Tan et al, 2019 ; De Snoo et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

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BAG5 Promotes Alpha-Synuclein Oligomer Formation and Functionally Interacts With the Autophagy Adaptor Protein p62

Friesen

Zhang

Earnshaw

et al. 2020

Front. Cell Dev. Biol.

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Molecular chaperones are critical to maintaining intracellular proteostasis and have been shown to have a protective role against alpha-synuclein-mediated toxicity. Cochaperone proteins regulate the activity of molecular chaperones and connect the chaperone network to protein degradation and cell death pathways. Bcl-2 associated athanogene 5 (BAG5) is a co-chaperone that modulates proteostasis by inhibiting the activity of Heat shock protein 70 (Hsp70) and several E3 ubiquitin ligases, resulting in enhanced neurodegeneration in models of Parkinson's disease (PD). Here we identify a novel interaction between BAG5 and p62/sequestosome-1 (SQSTM1), suggesting that BAG5 may bridge the chaperone network to autophagy-mediated protein degradation. We found that BAG5 enhanced the formation of pathogenic alpha-synuclein oligomers and regulated the levels and subcellular distribution of p62. These results extend the role of BAG5 in alpha-synuclein processing and intracellular proteostasis.

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“…Recently, another study also demonstrated that BAG3 may promote mitophagy by recruiting Parkin to the depolarized mitochondria [ 135 ]. Conversely, BAG4 and BAG5 have been implicated in disturbing the translocation of PARKIN to the mitochondria, thus suppressing mitophagy [ 139 , 140 ]. Of note, BAG5 directly binds to Parkin to suppress its E3 ligase activity for mitophagy, but promotes Parkin-mediated proteolysis degradation for PCD upon depolarization of mitochondria, indicating a role of BAG5 in switching the pro-survival and pro-death activity of Parkin [ 139 ].…”

Section: Interplay Between Mitophagy and Pcd: A New Role Of The Bamentioning

confidence: 99%

Plant Mitophagy in Comparison to Mammals: What Is Still Missing?

Ren

Feng

Sun

et al. 2021

IJMS

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Mitochondrial homeostasis refers to the balance of mitochondrial number and quality in a cell. It is maintained by mitochondrial biogenesis, mitochondrial fusion/fission, and the clearance of unwanted/damaged mitochondria. Mitophagy represents a selective form of autophagy by sequestration of the potentially harmful mitochondrial materials into a double-membrane autophagosome, thus preventing the release of death inducers, which can trigger programmed cell death (PCD). Recent advances have also unveiled a close interconnection between mitophagy and mitochondrial dynamics, as well as PCD in both mammalian and plant cells. In this review, we will summarize and discuss recent findings on the interplay between mitophagy and mitochondrial dynamics, with a focus on the molecular evidence for mitophagy crosstalk with mitochondrial dynamics and PCD.

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Bcl-2-associated athanogene 5 (BAG5) regulates Parkin-dependent mitophagy and cell death

Cited by 36 publications

References 51 publications

Kill one or kill the many: interplay between mitophagy and apoptosis

Kill one or kill the many: interplay between mitophagy and apoptosis

BAG5 Promotes Alpha-Synuclein Oligomer Formation and Functionally Interacts With the Autophagy Adaptor Protein p62

Plant Mitophagy in Comparison to Mammals: What Is Still Missing?

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