Jacob Wong scite author profile

Cristae, the organized invaginations of the mitochondrial inner membrane, respond structurally to the energetic demands of the cell. The mechanism by which these dynamic changes are regulated and the consequences thereof are largely unknown. Optic atrophy 1 (OPA1) is the mitochondrial GTPase responsible for inner membrane fusion and maintenance of cristae structure. Here, we report that OPA1 responds dynamically to changes in energetic conditions to regulate cristae structure. This cristae regulation is independent of OPA1's role in mitochondrial fusion, since an OPA1 mutant that can still oligomerize but has no fusion activity was able to maintain cristae structure. Importantly, OPA1 was required for resistance to starvation-induced cell death, for mitochondrial respiration, for growth in galactose media and for maintenance of ATP synthase assembly, independently of its fusion activity. We identified mitochondrial solute carriers (SLC25A) as OPA1 interactors and show that their pharmacological and genetic blockade inhibited OPA1 oligomerization and function. Thus, we propose a novel way in which OPA1 senses energy substrate availability, which modulates its function in the regulation of mitochondrial architecture in a SLC25A protein-dependent manner.

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Altered mitochondrial fusion drives defensive glutathione synthesis in cells able to switch to glycolytic ATP production

Patten

McGuirk

Anilkumar

et al. 2021

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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β-catenin Is Essential for Efficient In Vitro Premyogenic Mesoderm Formation but Can Be Partially Compensated by Retinoic Acid Signalling

et al. 2013

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Previous studies have shown that P19 cells expressing a dominant negative β-catenin mutant (β-cat/EnR) cannot undergo myogenic differentiation in the presence or absence of muscle-inducing levels of retinoic acid (RA). While RA could upregulate premyogenic mesoderm expression, including Pax3/7 and Meox1, only Pax3/7 and Gli2 could be upregulated by RA in the presence of β-cat/EnR. However, the use of a dominant negative construct that cannot be compensated by other factors is limiting due to the possibility of negative chromatin remodelling overriding compensatory mechanisms. In this study, we set out to determine if β-catenin function is essential for myogenesis with and without RA, by creating P19 cells with reduced β-catenin transcriptional activity using an shRNA approach, termed P19[shβ-cat] cells. The loss of β-catenin resulted in a reduction of skeletal myogenesis in the absence of RA as early as premyogenic mesoderm, with the loss of Pax3/7, Eya2, Six1, Meox1, Gli2, Foxc1/2, and Sox7 transcript levels. Chromatin immunoprecipitation identified an association of β-catenin with the promoter region of the Sox7 gene. Differentiation of P19[shβ-cat] cells in the presence of RA resulted in the upregulation or lack of repression of all of the precursor genes, on day 5 and/or 9, with the exception of Foxc2. However, expression of Sox7, Gli2, the myogenic regulatory factors and terminal differentiation markers remained inhibited on day 9 and overall skeletal myogenesis was reduced. Thus, β-catenin is essential for in vitro formation of premyogenic mesoderm, leading to skeletal myogenesis. RA can at least partially compensate for the loss of β-catenin in the expression of many myogenic precursor genes, but not for myoblast gene expression or overall myogenesis.

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The Role of ATAD3A and SLC25 Proteins in OPA1 Function

Wong¹

2014

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Jacob Wong

OPA1‐dependent cristae modulation is essential for cellular adaptation to metabolic demand

Altered mitochondrial fusion drives defensive glutathione synthesis in cells able to switch to glycolytic ATP production

β-catenin Is Essential for Efficient In Vitro Premyogenic Mesoderm Formation but Can Be Partially Compensated by Retinoic Acid Signalling

The Role of ATAD3A and SLC25 Proteins in OPA1 Function

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