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81.
Jakob D. Wikstrom Gilad Twig Orian S. Shirihai 《The international journal of biochemistry & cell biology》2009,41(10):1914-1927
A growing body of evidence shows that mitochondria are heterogeneous in terms of structure and function. Increased heterogeneity has been demonstrated in a number of disease models including ischemia-reperfusion and nutrient-induced beta cell dysfunction and diabetes. Subcellular location and proximity to other organelles, as well as uneven distribution of respiratory components have been considered as the main contributors to the basal level of heterogeneity. Recent studies point to mitochondrial dynamics and autophagy as major regulators of mitochondrial heterogeneity. While mitochondrial fusion mixes the content of the mitochondrial network, fission dissects the mitochondrial network and generates depolarized segments. These depolarized mitochondria are segregated from the networking population, forming a pre-autophagic pool contributing to heterogeneity. The capacity of a network to yield a depolarized daughter mitochondrion by a fission event is fundamental to the generation of heterogeneity. Several studies and data presented here provide a potential explanation, suggesting that protein and membranous structures are unevenly distributed within the individual mitochondrion and that inner membrane components do not mix during a fusion event to the same extent as the matrix components do. In conclusion, mitochondrial subcellular heterogeneity is a reflection of the mitochondrial lifecycle that involves frequent fusion events in which components may be unevenly mixed and followed by fission events generating disparate daughter mitochondria, some of which may fuse again, others will remain solitary and join a pre-autophagic pool. 相似文献
82.
Aida Rodríguez‐Nuevo Angels Díaz‐Ramos Eduard Noguera Francisco Díaz‐Sáez Xavier Duran Juan Pablo Muñoz Montserrat Romero Natàlia Plana David Sebastián Caterina Tezze Vanina Romanello Francesc Ribas Jordi Seco Evarist Planet Susan R Doctrow Javier González Miquel Borràs Marc Liesa Manuel Palacín Joan Vendrell Francesc Villarroya Marco Sandri Orian Shirihai Antonio Zorzano 《The EMBO journal》2018,37(10)
Opa1 participates in inner mitochondrial membrane fusion and cristae morphogenesis. Here, we show that muscle‐specific Opa1 ablation causes reduced muscle fiber size, dysfunctional mitochondria, enhanced Fgf21, and muscle inflammation characterized by NF‐κB activation, and enhanced expression of pro‐inflammatory genes. Chronic sodium salicylate treatment ameliorated muscle alterations and reduced the muscle expression of Fgf21. Muscle inflammation was an early event during the progression of the disease and occurred before macrophage infiltration, indicating that it is a primary response to Opa1 deficiency. Moreover, Opa1 repression in muscle cells also resulted in NF‐κB activation and inflammation in the absence of necrosis and/or apoptosis, thereby revealing that the activation is a cell‐autonomous process and independent of cell death. The effects of Opa1 deficiency on the expression NF‐κB target genes and inflammation were absent upon mitochondrial DNA depletion. Under Opa1 deficiency, blockage or repression of TLR9 prevented NF‐κB activation and inflammation. Taken together, our results reveal that Opa1 deficiency in muscle causes initial mitochondrial alterations that lead to TLR9 activation, and inflammation, which contributes to enhanced Fgf21 expression and to growth impairment. 相似文献
83.
Kristen P. Nickens Jakob D. Wikstrom Orian S. Shirihai Steven R. Patierno Susan Ceryak 《Mitochondrion》2013,13(6):662-667
Apoptosis-resistance and metabolic imbalances are prominent features of cancer cells. We have recently reported on populations of human fibroblasts that exhibit resistance to mitochondrial-mediated apoptosis, acquired as a result of a single genotoxic exposure. The objective of the present study was to investigate the intrinsic bioenergetic profile of the death-resistant cells, as compared to the clonogenic control cells. Therefore, we analyzed the basic bioenergetic parameters including oxygen consumption and extracellular acidification rates, coupling efficiency, and spare respiratory capacity. Our data demonstrate a strong correlation between enhanced spare respiratory capacity and death-resistance, which we postulate to be indicative of the earliest stages of carcinogenesis. 相似文献