Johanna Annunen-Rasila scite author profile

We have recently shown disorganization of the vimentin network in cultured cells deficient in oxidative phosphorylation (OXPHOS). We describe here the cellular responses to OXPHOS deficiency in osteosarcoma cells upon complex I (CI) and complex IV (CIV) inhibition, and upon the lack of mitochondrial DNA (rho0 cells). We examined the cytoskeletal organization and the distribution of mitochondria and analysed total proteome by 2-DE and vimentin expression by ELISA. Upon CIV inhibition and in rho0 cells, the vimentin network had collapsed around the nucleus and formed thick bundles. The mitochondria formed a perinuclear crescent upon CIV inhibition, whereas they accumulated around the nucleus in the rho0 cells, where the amount of vimentin was increased. Analysis of the total proteome revealed that a lack of mitochondrial DNA or inhibition of CI or CIV led to changes in the expression of cytoskeletal and cytoskeleton-associated proteins and proteins involved in apoptosis, OXPHOS, glycolysis, the tricarboxylic acid cycle, and oxidative stress responses. Our findings suggest that a deficiency in the energy converting system and oxidative stress can lead to cytoskeletal changes.

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Mitochondrial DNA sequence variation and mutation rate in patients with CADASIL

Annunen-Rasila

Finnilä

Mykkänen

et al. 2006

Neurogenetics

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Mutations in the NOTCH3 gene cause cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), which is clinically characterised by recurrent ischemic strokes, migraine with aura, psychiatric symptoms, cognitive decline and dementia. We have previously described a patient with CADASIL caused by a R133C mutation in the NOTCH3 gene and with a concomitant myopathy caused by a 5650G>A mutation in the MTTA gene in mitochondrial DNA (mtDNA). We assume that the co-occurrence of the two mutations is not coincidental and that mutations in the NOTCH3 gene may predispose the mtDNA to mutations. We therefore examined the nucleotide variation in the mtDNA coding region sequences in 20 CADASIL pedigrees with 77 affected patients by conformation-sensitive gel electrophoresis and sequencing. The sequence variation in mtDNA was then compared with that among 192 healthy Finns. A total of 180 mtDNA coding region sequence differences were found relative to the revised Cambridge reference sequence, including five novel synonymous substitutions, two novel nonsynonymous substitutions and one novel tRNA substitution. We found that maternal relatives in two pedigrees differed from each other in their mtDNA. Furthermore, the average number of pairwise differences in sequences from the 41 unrelated maternal lineages with CADASIL was higher than that expected among haplogroup-matched controls. The numbers of polymorphic sites and polymorphisms that were present in only one sequence were also higher among the CADASIL sequences than among the control sequences. Our results show that mtDNA sequence variation is increased within CADASIL pedigrees. These findings suggest a relationship between NOTCH3 and mtDNA.

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Cytoskeletal structure in cells harboring two mutations: R133C in NOTCH3 and 5650G>A in mitochondrial DNA

et al. 2007

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