Clueless, a protein required for mitochondrial function, interacts with the PINK1-Parkin complex in <i>Drosophila</i>

Sen, Aditya; Kalvakuri, Sreehari; Bodmer, Rolf; Cox, Rachel T.

doi:10.1242/dmm.019208

Cited by 41 publications

(77 citation statements)

References 52 publications

(114 reference statements)

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“…The peculiar mitochondrial phenotype had already been observed in adult muscles from the Drosophila clueless strain (Sen et al, 2015) but was absent in COS7 cells in which CLUH expression was silenced using siRNA (Gao et al, 2014), suggesting that stable CLUH-KO clones trigger adaptation processes that are not set in an acute model triggered by siRNA. The existence of two mitochondrial populations in KO cells could be related to the physical and functional interactions between CLUH and the PINKParkin pathway, which promote the turnover of mitochondria to eliminate any that are defective (Cox and Spradling, 2009;Sen et al, 2015;Wang et al, 2016). Indeed, a cross-talk between CLUH and mitophagy in Drosophila was found to be associated with the degradation of the valosin-containing protein Mitofusin (Marf ), in order to prevent the fusion between healthy and altered mitochondria (Wang et al, 2016).…”

Section: Discussionmentioning

confidence: 86%

“…However, in Arabidopsis, mutations in the CLU family gene FRIENDLY do not cause constrictions, but instead lead to increased association time during the mitochondrial fusion process, which was reported to favor clustering (El Zawily et al, 2014). In Drososphila, the CLU ortholog clueless interacts genetically (Cox and Spradling, 2009) and physically with the PINK1-Parkin pathway (Sen et al, 2015), to promote Valosin-Containing Protein (VCP)-mediated Marf degradation during the Parkindependent mitophagy (Wang et al, 2016). More recently, Gao et al have reported that human CLUH interacts with a subset of mRNAs encoding mitochondrial proteins, suggesting that CLUH is also involved in mitochondrial biogenesis (Gao et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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CLUH couples mitochondrial distribution to the energetic and metabolic status

Wakim

Goudenège

Perrot

et al. 2017

Journal of Cell Science

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Mitochondrial dynamics and distribution are critical for supplying ATP in response to energy demand. CLUH is a protein involved in mitochondrial distribution whose dysfunction leads to mitochondrial clustering, the metabolic consequences of which remain unknown. To gain insight into the role of CLUH on mitochondrial energy production and cellular metabolism, we have generated CLUHknockout cells using CRISPR/Cas9. Mitochondrial clustering was associated with a smaller cell size and with decreased abundance of respiratory complexes, resulting in oxidative phosphorylation (OXPHOS) defects. This energetic impairment was found to be due to the alteration of mitochondrial translation and to a metabolic shift towards glucose dependency. Metabolomic profiling by mass spectroscopy revealed an increase in the concentration of some amino acids, indicating a dysfunctional Krebs cycle, and increased palmitoylcarnitine concentration, indicating an alteration of fatty acid oxidation, and a dramatic decrease in the concentrations of phosphatidylcholine and sphingomyeline, consistent with the decreased cell size. Taken together, our study establishes a clear function for CLUH in coupling mitochondrial distribution to the control of cell energetic and metabolic status.

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Section: Discussionmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

CLUH couples mitochondrial distribution to the energetic and metabolic status

Wakim

Goudenège

Perrot

et al. 2017

Journal of Cell Science

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“…Since there are many small Clu particles present, it is possible that a larger fraction of mitochondria is associated with particles than we can see using fixed tissue imaging. Clu associates with several mitochondrial outer membrane proteins, including TOM20 and Porin, and also self-associates, however it is unclear how Clu particles associate with mitochondria (6). Attempts to simultaneously visualize mitochondria and Clu particles live have been stymied by follicle sensitivity to TMRE addition (the Clu particles disperse), though there is evidence that Clu particles in Arabidopsis do move with mitochondria (12).…”

Section: Drosophila Clu and Vertebrate Cluh Are Ribonucleoproteins Anmentioning

confidence: 99%

“…Female germ cells have been an excellent tissue in which to study Clu particles as they are highly metabolically active, are very large and have a large number of particles (Kato and Nakamura, 2012). In order to better understand Clu's role in the cell, we used live-imaging to dissect Clu particle dynamics and whether it recapitulates our previous observations in fixed tissues (Cox and Spradling, 2009;Sen et al, 2015). To do this, we imaged Clu-GFP in the GFP trap line clueless CA06604 (Buszczak et al, 2007).…”

Section: Clu Particles Are Abundant and Highly Dynamicmentioning

confidence: 99%

“…clu mutants are male and female sterile and mitochondria are clumped and mislocalized in female germ cells, which contain damaged, swollen mitochondria (Cox and Spradling, 2009). Drosophila Clu also physically and genetically interacts with the PINK1/Parkin mitophagy complex and thus may play a role as a sensor linking mitochondrial function with destruction (Sen et al, 2015). In mice, loss of Cluh is embryonic lethal (Schatton et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Clueless forms dynamic, insulin-responsive bliss particles sensitive to stress

Sheard

Thibault-Sennett

Sen

et al. 2019

Preprint

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Mitochondria perform a myriad of biochemical functions in the cell that integrate ATP production and metabolism. While mitochondria contain their own genome, mtDNA, it only encodes thirteen proteins required for oxidative phosphorylation, thus well over one thousand proteins required for all mitochondrial functions are encoded in the nucleus. One such protein is Drosophila Clueless (Clu), whose vertebrate homolog is Clustered mitochondria homolog (Cluh). Clu/Cluh is a ribonucleoprotein that regulates mRNAs destined for import into mitochondria and is an essential protein that regulates cellular metabolism. Clu forms large particles in the cytoplasm, although how these particles relate to nutrition and metabolic stress is unknown. Using liveimaging, we show Clu particles are highly dynamic. Clu particles appear to be unique as they do not colocalize with many known cytoplasmic bodies. In addition, Clu particle formation is highly dependent on diet as ovaries from starved females no longer contain Clu particles although Clu protein levels remain the same and insulin is necessary and sufficient for Clu particle formation. Oxidative stress also disperses particle. Since Clu particles are only present under optimal conditions we are naming them bliss particles. These observations identify Clu particles as unique, stress-sensitive cytoplasmic ribonucleoprotein particles whose absence corresponds with altered mitochondrial function and localization.

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The Dynamic Chondriome

Logan

Paszkiewicz

2017

Annual Plant Reviews, Volume 50

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Clueless, a protein required for mitochondrial function, interacts with the PINK1-Parkin complex in Drosophila

Cited by 41 publications

References 52 publications

CLUH couples mitochondrial distribution to the energetic and metabolic status

CLUH couples mitochondrial distribution to the energetic and metabolic status

Clueless forms dynamic, insulin-responsive bliss particles sensitive to stress

The Dynamic Chondriome

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