MUL1 acts in parallel to the PINK1/parkin pathway in regulating mitofusin and compensates for loss of PINK1/parkin

Yun, Jina; Puri, Rajat; Yang, Huan; Lizzio, Michael A.; Wu, Chunlai; Sheng, Zu‐Hang; Guo, Ming

doi:10.7554/elife.01958

Cited by 258 publications

(266 citation statements)

References 69 publications

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“…By contrast, the mitochondrial E3 ubiquitin ligase MUL1 is transcriptionally upregulated under mitochondrial stress through a mechanism involving FoxO1 and FoxO3 transcription factors (Lokireddy et al, 2012). Elevated levels of MUL1 lead to the ubiquitylation and proteasomal degradation of Mfn2, finally culminating in mitophagy (Lokireddy et al, 2012;Yun et al, 2014). Either relocation of a cytosolic ligase to the mitochondria or transcriptional upregulation of a mitochondrial ligase under stress helps recruit the molecular components required for mitophagy.…”

Section: Discussionmentioning

confidence: 99%

Ubiquitin mediated regulation of the E3 ligase GP78 by Mahogunin in trans affects mitochondrial homeostasis

Mukherjee

Chakrabarti

2016

Journal of Cell Science

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Cellular quality control provides an efficient surveillance system to regulate mitochondrial turnover. This study elucidates a new interaction between the cytosolic E3 ligase mahogunin RING finger 1 (MGRN1) and the endoplasmic reticulum (ER) ubiquitin E3 ligase GP78 (also known as AMFR). Loss of Mgrn1 function has been implicated in late-onset spongiform neurodegeneration and congenital heart defects, among several developmental defects. Here, we show that MGRN1 ubiquitylates GP78 in trans through noncanonical K11 linkages. This helps maintain constitutively low levels of GP78 in healthy cells, in turn downregulating mitophagy. GP78, however, does not regulate MGRN1. When mitochondria are stressed, cytosolic Ca 2+ increases. This leads to a reduced interaction between MGRN1 and GP78 and its compromised ubiquitylation. Chelating Ca 2+ restores association between the two ligases and the in trans ubiquitylation. Catalytic inactivation of MGRN1 results in elevated levels of GP78 and a consequential increase in the initiation of mitophagy. This is important because functional depletion of MGRN1 by the membrane-associated disease-causing prion protein Ctm PrP affects polyubiquitylation and degradation of GP78, also leading to an increase in mitophagy events. This suggests that MGRN1 participates in mitochondrial quality control and could contribute to neurodegeneration in a subset of Ctm PrP-mediated prion diseases.

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Section: Discussionmentioning

confidence: 99%

Ubiquitin mediated regulation of the E3 ligase GP78 by Mahogunin in trans affects mitochondrial homeostasis

Mukherjee

Chakrabarti

2016

Journal of Cell Science

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“…Inhibition of ﬁssion reduces mitophagy, resulting in the accumulation of damaged mitochondria. Depolarization also causes the loss of Mfn1 and Mfn1 on mitochondria and thereby promotes mitochondrial fission, leading to Parkin-and/or Mul1-mediated mitophagy [46,68]. Another study by Lee et al [69] showed that inhibition of Drp1 or overexpression of Mfn1 prevented BNIP3-mediated mitophagy.…”

Section: Mitochondrial Fragmentation In Mitophagymentioning

confidence: 99%

“…Mul1 was shown to induce mitophagy in skeletal muscles [45]. A recent study in Drosophila and mammalian cells revealed that Mul1 acted in parallel to the PINK1/parkin pathway in regulating mitofusin degradation and compensated for the loss of PINK1/parkin, and Mul1 did not affect Parkin-mediated mitophagy [46]. …”

Section: Pink1-parkin Pathway Of Mitophagymentioning

confidence: 99%

Mitophagy: Basic Mechanism and Potential Role in Kidney Diseases

Tang

Liu

et al. 2015

Kidney Dis

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Background: Mitochondria play fundamental roles in cellular metabolism, signaling, and viability. Disruption of mitochondria not only leads to dysfunction of the organelles but also activates mechanisms of cell injury and death, contributing to the pathogenesis of various diseases. Summary: Removal of damaged mitochondria is therefore crucial for cellular homeostasis and survival. Mitophagy, the selective elimination of mitochondria via autophagy, is an important mechanism of mitochondrial quality control in physiological and pathological conditions. Defects in mitophagy have been implicated in a variety of human disorders, including both acute and chronic kidney diseases. However, the role and regulatory mechanisms of mitophagy in kidney cells and tissues remain largely unknown. Key Message: This review provides updated information on mitophagy and suggests a potential role of mitophagy in renal pathophysiology.

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“…It is not uncommon for an E3 ubiquitin ligase to be multifunctional and have different substrates. For example, MAPL itself has several known substrate proteins in different physiological processes, including the mitochondrial and peroxisomal fission factor dynaminrelated protein DRP1 (Braschi et al, 2009), E3 ubiquitin ligase TRAF2 in mitochondrial hyperfusion (Zemirli et al, 2014), ULK1 in mitophagy (Li et al, 2015), mitofusin in mitochondrial integrity maintenance (Yun et al, 2014), RIG-I in mitochondrial antiviral response (Jenkins et al, 2013), the Ser/Thr kinase Akt in cell proliferation and viability (Bae et al, 2012), and p53 and p73 when they translocate to mitochondria under cell stress (Jung et al, 2011;Min et al, 2015). When we performed a phylogenetic analysis using SP1, its two homologs from Arabidopsis SPL1 and SPL2, and homologous sequences from other eukaryotic species, MAPL was grouped together with SP1 and SPL1 in the same subclade conserved in plants and animals, whereas SPL2 belonged to a plant-specific subclade, suggesting a strong evolutionary relationship between SP1 and MAPL (Pan et al, 2016).…”

mentioning

confidence: 99%

The Arabidopsis E3 Ubiquitin Ligase SP1 Targets to Chloroplasts, Peroxisomes, and Mitochondria

Pan

2018

Plant Physiol.

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MUL1 acts in parallel to the PINK1/parkin pathway in regulating mitofusin and compensates for loss of PINK1/parkin

Cited by 258 publications

References 69 publications

Ubiquitin mediated regulation of the E3 ligase GP78 by Mahogunin in trans affects mitochondrial homeostasis

Ubiquitin mediated regulation of the E3 ligase GP78 by Mahogunin in trans affects mitochondrial homeostasis

Mitophagy: Basic Mechanism and Potential Role in Kidney Diseases

The Arabidopsis E3 Ubiquitin Ligase SP1 Targets to Chloroplasts, Peroxisomes, and Mitochondria

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