Regulation of Tumor Cell Mitochondrial Homeostasis by an Organelle-Specific Hsp90 Chaperone Network

Kang, Byoung Heon; Plescia, Janet; Dohi, Takehiko; Rosa, Jack; Doxsey, Stephen; Altieri, Dario C.

doi:10.1016/j.cell.2007.08.028

Cited by 408 publications

(670 citation statements)

References 38 publications

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“…Pridgeon et al (2007) report stable complex formation between PINK1 and TNF-receptor-associated protein 1 (TRAP1). TRAP1 is a mitochondrial molecular chaperone also known as heat shock protein 75 (Hsp75) that modulates the permeability transition pore to inhibit mitochondrial-associated cell death (Kang et al, 2007). In PC12 cells, PINK1 binds and co-localizes with TRAP1 in mitochondria and phosphorylates TRAP1.…”

Section: Other Mitochondrial Partners Of Pink1 In Mitochondrial Protementioning

confidence: 99%

PINK1 as a Molecular Checkpoint in the Maintenance of Mitochondrial Function and Integrity

Koh

Chung

2012

Molecules and Cells

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Parkinson's disease (PD), the most prevalent neurodegenerative movement disorder, is characterized by an agedependent selective loss of dopaminergic (DA) neurons. Although most PD cases are sporadic, more than 20 responsible genes in familial cases were identified recently. Genetic studies using Drosophila models demonstrate that PINK1, a mitochondrial kinase encoded by a PD-linked gene PINK1, is critical for maintaining mitochondrial function and integrity. This suggests that mitochondrial dysfunction is the main cause of PD pathogenesis. Further genetic and cell biological studies revealed that PINK1 recruits Parkin, an E3 ubiquitin ligase encoded by another PD-linked gene parkin, to mitochondria and regulates the mitochondrial remodeling process via the Parkin-mediated ubiquitination of various mitochondrial proteins. PINK1 also directly phosphorylates the mitochondrial proteins Miro and TRAP1, subsequently inhibiting mitochondrial transport and mitochondrial oxidative damage, respectively. Moreover, recent Drosophila genetic analyses demonstrate that the neuroprotective molecules Sir2 and FOXO specifically complement mitochondrial dysfunction and DA neuron loss in PINK1 null mutants, suggesting that Sir2 and FOXO protect mitochondria and DA neurons downstream of PINK1. Collectively, these recent results suggest that PINK1 plays multiple roles in mitochondrial quality control by regulating its mitochondrial, cytosolic, and nuclear targets.

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Section: Other Mitochondrial Partners Of Pink1 In Mitochondrial Protementioning

confidence: 99%

PINK1 as a Molecular Checkpoint in the Maintenance of Mitochondrial Function and Integrity

Koh

Chung

2012

Molecules and Cells

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“…5 Little is known about TRAP1 signal transduction: the first most important finding on TRAP1 function came from studies by the Altieri's group, which identified TRAP1 as a member of a cytoprotective network selectively active in the mitochondria of tumor tissues. 6 The same group has recently proposed TRAP1 as a novel molecular target in localized and metastatic prostate cancer, 7 and is now involved in a promising preclinical characterization of mitochondria-targeted smallmolecule HSP90 inhibitors. 8,9 Besides some well-characterized TRAP1 functions in mitochondria, during preparation of this manuscript it was reported that interference by HSP90 chaperones triggers an unfolded protein response (UPR) and activates autophagy in the mitochondria of tumor cells.…”

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confidence: 99%

TRAP1 and the proteasome regulatory particle TBP7/Rpt3 interact in the endoplasmic reticulum and control cellular ubiquitination of specific mitochondrial proteins

et al. 2011

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Tumor necrosis factor receptor-associated protein-1 (TRAP1) is a mitochondrial (MITO) antiapoptotic heat-shock protein. The information available on the TRAP1 pathway describes just a few well-characterized functions of this protein in mitochondria. However, our group's use of mass-spectrometric analysis identified TBP7, an AAA-ATPase of the 19S proteasomal subunit, as a putative TRAP1-interacting protein. Surprisingly, TRAP1 and TBP7 colocalize in the endoplasmic reticulum (ER), as demonstrated by biochemical and confocal/electron microscopic analyses, and interact directly, as confirmed by fluorescence resonance energy transfer analysis. This is the first demonstration of TRAP1's presence in this cellular compartment. TRAP1 silencing by short-hairpin RNAs, in cells exposed to thapsigargin-induced ER stress, correlates with upregulation of BiP/Grp78, thus suggesting a role of TRAP1 in the refolding of damaged proteins and in ER stress protection. Consistently, TRAP1 and/or TBP7 interference enhanced stress-induced cell death and increased intracellular protein ubiquitination. These experiments led us to hypothesize an involvement of TRAP1 in protein quality control for mistargeted/misfolded mitochondria-destined proteins, through interaction with the regulatory proteasome protein TBP7. Remarkably, expression of specific MITO proteins decreased upon TRAP1 interference as a consequence of increased ubiquitination. The proposed TRAP1 network has an impact in vivo, as it is conserved in human colorectal cancers, is controlled by ER-localized TRAP1 interacting with TBP7 and provides a novel model of the ER-mitochondria crosstalk. Tumor necrosis factor receptor-associated protein-1 (TRAP1) was initially identified as a TNF-receptor-associated protein and is a member of the heat-shock protein-90 (HSP90) chaperone family. 1,2 Through an mRNA-differential display analysis between oxidant-adapted and control osteosarcoma cells, our group identified, among other proteins, TRAP1, whose expression was highly induced upon oxidant adaptation. 3 Furthermore, TRAP1 showed antioxidant and antiapoptotic functions, 4 while an involvement of this mitochondrial (MITO) chaperone in the multi-drug resistance of human colorectal carcinoma (CRC) cells was also established. 5 Little is known about TRAP1 signal transduction: the first most important finding on TRAP1 function came from studies by the Altieri's group, which identified TRAP1 as a member of a cytoprotective network selectively active in the mitochondria of tumor tissues. 6 The same group has recently proposed TRAP1 as a novel molecular target in localized and metastatic prostate cancer, 7 and is now involved in a promising preclinical characterization of mitochondria-targeted smallmolecule HSP90 inhibitors. 8,9 Besides some well-characterized TRAP1 functions in mitochondria, during preparation of this manuscript it was reported that interference by HSP90 chaperones triggers an unfolded protein response (UPR) and activates autophagy in the mitochondria of tumor cells. 10 A put...

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“…As a member of the Hsp90 family of heat shock proteins known for the familial role played in signal transduction, TRAP1, an intramitochondrial protein, takes a more specialized approach to its molecular chaperone activity by acting as a cytoprotective chaperone (17,19,31,32). Phosphorylation of TRAP1 by PTEN-induced putative kinase 1 protects cancer cells against oxidative stress-induced apoptosis.…”

Section: Trap1-guarding the Furnacementioning

confidence: 99%

“…The Warburg effect, thought to provide the building blocks required by the rapidly proliferating cells and protect the mitochondria from ROS-induced membrane damage and initiation of apoptosis, has been reported in rapidly proliferating cancer, cancer stem cells and normal stem cells (13)(14)(15)(16). Molecular chaperones play a strong role in preventing apoptosis and the mitochondrial molecular chaperone, TRAP1, has been shown to protect cells against ROS-induced damage in cancer cell models (17)(18)(19)(20).…”

Section: Introductionmentioning

confidence: 99%

Guardian of the Furnace: Mitochondria, TRAP1, ROS and stem cell maintenance

et al. 2013

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Mitochondria are key to eukaryotic cell survival and their activity is linked to generation of reactive oxygen species (ROS) which in turn acts as both an intracellular signal and an effective executioner of cells with regards to cellular senescence. The mitochondrial molecular chaperone tumor necrosis factor receptor associated protein 1 (TRAP1) is often termed the cytoprotective chaperone for its role in cancer cell survival and protection from apoptosis. Here, we hypothesize that TRAP1 serves to modulate mitochondrial activity in stem cell maintenance, survival and differentiation. V C 2013 IUBMB Life, 66(1): [42][43][44][45] 2014

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Regulation of Tumor Cell Mitochondrial Homeostasis by an Organelle-Specific Hsp90 Chaperone Network

Cited by 408 publications

References 38 publications

PINK1 as a Molecular Checkpoint in the Maintenance of Mitochondrial Function and Integrity

PINK1 as a Molecular Checkpoint in the Maintenance of Mitochondrial Function and Integrity

TRAP1 and the proteasome regulatory particle TBP7/Rpt3 interact in the endoplasmic reticulum and control cellular ubiquitination of specific mitochondrial proteins

Guardian of the Furnace: Mitochondria, TRAP1, ROS and stem cell maintenance

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