Lisa E.L. Romano scite author profile

Mitochondria drive cellular adaptation to stress by retro-communicating with the nucleus. This process is known as mitochondrial retrograde response (MRR) and is induced by mitochondrial dysfunction. MRR results in the nuclear stabilization of prosurvival transcription factors such as the nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB). Here, we demonstrate that MRR is facilitated by contact sites between mitochondria and the nucleus. The translocator protein (TSPO) by preventing the mitophagy-mediated segregation o mitochonria is required for this interaction. The complex formed by TSPO with the protein kinase A (PKA), via the A-kinase anchoring protein acyl-CoA binding domain containing 3 (ACBD3), established the tethering. The latter allows for cholesterol redistribution of cholesterol in the nucleus to sustain the prosurvival response by blocking NF-κB deacetylation. This work proposes a previously unidentified paradigm in MRR: the formation of contact sites between mitochondria and nucleus to aid communication.

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A reduction in Drp1-mediated fission compromises mitochondrial health in autosomal recessive spastic ataxia of Charlevoix Saguenay

Bradshaw

Romano

Duncan

et al. 2016

Hum. Mol. Genet.

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The neurodegenerative disease autosomal recessive spastic ataxia of Charlevoix Saguenay (ARSACS) is caused by loss of function of sacsin, a modular protein that is required for normal mitochondrial network organization. To further understand cellular consequences of loss of sacsin, we performed microarray analyses in sacsin knockdown cells and ARSACS patient fibroblasts. This identified altered transcript levels for oxidative phosphorylation and oxidative stress genes. These changes in mitochondrial gene networks were validated by quantitative reverse transcription PCR. Functional impairment of oxidative phosphorylation was then demonstrated by comparison of mitochondria bioenergetics through extracellular flux analyses. Moreover, staining with the mitochondrial-specific fluorescent probe MitoSox suggested increased levels of superoxide in patient cells with reduced levels of sacsin.Key to maintaining mitochondrial health is mitochondrial fission, which facilitates the dynamic exchange of mitochondrial components and separates damaged parts of the mitochondrial network for selective elimination by mitophagy. Fission is dependent on dynamin-related protein 1 (Drp1), which is recruited to prospective sites of division where it mediates scission. In sacsin knockdown cells and ARSACS fibroblasts, we observed a decreased incidence of mitochondrial associated Drp1 foci. This phenotype persists even when fission is induced by drug treatment. Mitochondrial-associated Drp1 foci are also smaller in sacsin knockdown cells and ARSACS fibroblasts. These data suggest a model for ARSACS where neurons with reduced levels of sacsin are compromised in their ability to recruit or retain Drp1 at the mitochondrial membrane leading to a decline in mitochondrial health, potentially through impaired mitochondrial quality control.

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Oncometabolite induced primary cilia loss in pheochromocytoma

O'Toole

Watson

Novoselova

et al. 2019

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Primary cilia are sensory organelles involved in regulation of cellular signaling. Cilia loss is frequently observed in tumors; yet, the responsible mechanisms and consequences for tumorigenesis remain unclear. We demonstrate that cilia structure and function is disrupted in human pheochromocytomas – endocrine tumors of the adrenal medulla. This is concomitant with transcriptional changes within cilia-mediated signaling pathways that are associated with tumorigenesis generally and pheochromocytomas specifically. Importantly, cilia loss was most dramatic in patients with germline mutations in the pseudohypoxia-linked genes SDHx and VHL. Using a pheochromocytoma cell line derived from rat, we show that hypoxia and oncometabolite-induced pseudohypoxia are key drivers of cilia loss and identify that this is dependent on activation of an Aurora-A/HDAC6 cilia resorption pathway. We also show cilia loss drives dramatic transcriptional changes associated with proliferation and tumorigenesis. Our data provide evidence for primary cilia dysfunction contributing to pathogenesis of pheochromocytoma by a hypoxic/pseudohypoxic mechanism and implicates oncometabolites as ciliary regulators. This is important as pheochromocytomas can cause mortality by mechanisms including catecholamine production and malignant transformation, while hypoxia is a general feature of solid tumors. Moreover, pseudohypoxia-induced cilia resorption can be pharmacologically inhibited, suggesting potential for therapeutic intervention.

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CCG•CGG interruptions in high‐penetrance SCA8 families increase RAN translation and protein toxicity

et al. 2021

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Spinocerebellar ataxia type 8 (SCA8), a dominantly inherited neurodegenerative disorder caused by a CTG•CAG expansion, is unusual because most individuals that carry the mutation do not develop ataxia. To understand the variable penetrance of SCA8, we studied the molecular differences between highly penetrant families and more common sporadic cases (82%) using a large cohort of SCA8 families (n = 77). We show that repeat expansion mutations from individuals with multiple affected family members have CCG•CGG interruptions at a higher frequency than sporadic SCA8 cases and that the number of CCG•CGG interruptions correlates with age at onset. At the molecular level, CCG•CGG interruptions increase RNA hairpin stability, and in cell culture experiments, increase p-eIF2α and polyAla and polySer RAN protein levels. Additionally, CCG•CGG interruptions, which encode arginine interruptions in the polyGln frame, increase toxicity of the resulting proteins. In summary, SCA8 CCG•CGG interruptions increase polyAla and polySer RAN protein levels, polyGln protein toxicity, and disease penetrance and provide novel insight into the molecular differences between SCA8 families with high vs. low disease penetrance.

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The ataxia protein sacsin is required for integrin trafficking and synaptic organization

Romano

Hixson

et al. 2021

Preprint

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Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) is caused by mutations in SACS, which manifest as a childhood-onset cerebellar ataxia. Cellular ARSACS phenotypes include mitochondrial dysfunction, intermediate filament (IF) disorganization, and loss of Purkinje neurons. It is unclear how the loss of SACS causes these deficits, or why they manifest as cerebellar ataxia. We employed a multi-omics approach to characterize molecular and cellular deficiencies in SACS knockout (KO) cells. We identified alterations in microtubule structure and dynamics, protein trafficking, and mislocalization of synaptic and focal adhesion proteins. Targeting PTEN, a negative regulator of focal adhesions, rescued several cellular phenotypes in SACS KO cells. We found sacsin interacts with proteins implicated in vesicle transport, including HSP proteins, and interactions between structural and cell adhesion proteins were diminished in SACS KO cells. In all, this study suggests that trafficking and localization of synaptic adhesion proteins is a causal molecular deficiency in ARSACS.

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Multi-omic profiling reveals the ataxia protein sacsin is required for integrin trafficking and synaptic organization

Romano¹,

Aw²,

Hixson³

et al. 2022

Cell Reports

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Mitochondria form contact sites with the nucleus to couple pro-survival retrograde response

Desai

East

Hardy

et al. 2018

Preprint

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Cholesterol metabolism is pivotal to cellular homeostasis, hormone production, and membrane composition. Its dysregulation is associated with malignant reprogramming and therapy resistance in neoplastic progression. Cholesterol is trafficked into the mitochondria for steroidogenesis by the transduceome protein complex, which assembles on the outer mitochondrial membrane (OMM). The highly conserved, cholesterol-binding, stress-reactive, 18kDa translocator protein (TSPO) is a key component of this complex. Here, we modulate TSPO to study the process of mitochondrial retrograde signalling with the nucleus, by dissecting the role played by cholesterol and its oxidized forms. Using confocal and ultrastructural imaging, we describe that TSPO enriched mitochondria, remodel around the nucleus, forming cholesterol-enriched domains (or contact sites). This dynamic is controlled by the molecular and pharmacological modulation of TSPO, which is required to establish the Nucleus-Associated Mitochondria (NAM) and hence implement pro-survival signalling in aggressive forms of breast cancer. This work provides the first evidence for a functional and biomechanical tethering between mitochondria and nucleus thus establishing a new paradigm in cross-organelle communication.

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Antiproliferative effects of metformin in cellular models of pheochromocytoma

Meireles

Lima

Oliveira

et al. 2022

Molecular and Cellular Endocrinology

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Lisa E.L. Romano

Mitochondria form contact sites with the nucleus to couple prosurvival retrograde response

A reduction in Drp1-mediated fission compromises mitochondrial health in autosomal recessive spastic ataxia of Charlevoix Saguenay

Oncometabolite induced primary cilia loss in pheochromocytoma

CCG•CGG interruptions in high‐penetrance SCA8 families increase RAN translation and protein toxicity

The ataxia protein sacsin is required for integrin trafficking and synaptic organization

Multi-omic profiling reveals the ataxia protein sacsin is required for integrin trafficking and synaptic organization

Mitochondria form contact sites with the nucleus to couple pro-survival retrograde response

Antiproliferative effects of metformin in cellular models of pheochromocytoma

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