Guy Fayet scite author profile

Increased susceptibility to apoptosis has been shown in many models of mitochondrial defects but its relevance to human diseases is still discussed. We addressed the presence of apoptosis in muscle from patients with mitochondrial DNA (mtDNA) disorders. Taking advantage of the mosaic pattern of muscle morphological anomalies associated with heteroplasmic mtDNA alterations, we have used an in situ approach to address the relationship between apoptosis and respiratory defect, mitochondrial proliferation and mutation load. Different patterns of mitochondrial morphological alterations were provided by the analysis of muscles with large mtDNA deletion (16 cases) or with the MELAS mutation (4 cases). The patient's age at biopsy ranged from 0.4 to 66 years and the muscle mutant mtDNA proportion from 32 to 82%. Apoptotic muscle fibres were observed in a small proportion of muscle fibres of 16 out of the 20 biopsies by three different detection methods for different steps of apoptosis: caspase 3 activation, fragmentation of nuclear DNA [terminal deoxynucleotidyl transferase-mediated dUTP nick end labelling (TUNEL) assay] or overexpression of the pro-apoptotic factor Bax. Analysis of apoptotic features in parallel to cytochrome c oxidase (COX) and succinate dehydrogenase activity of more than 34,000 individual muscle fibres showed that apoptosis occurred only in muscle fibres with mitochondrial proliferation (ragged red fibres, RRF) irrespective of their COX activity. Molecular analyses of single muscle fibres evidenced that, as expected, the presence of COX defect was associated with higher proportion of mutant mtDNA and lower amount of normal mtDNA. Within COX-defective fibres, the presence of mitochondrial proliferation was associated with increase of the mtDNA content but without change in the ratio between normal and mutant mtDNA molecules, thus showing that mitochondrial proliferation was accompanied by similar amplification of normal and mutant mtDNA molecules. Within RRF, apoptosis was associated with higher mutation proportion, suggesting that it was provoked by severe respiratory defect in the same time as increased mitochondrial mass. In conclusion, apoptosis most probably contributes to mitochondrial pathology. It is tightly linked to mitochondrial proliferation and high mutation load. When considering training therapeutics, one will have to take into account the possibility to induce apoptosis in parallel to mitochondrial proliferation.

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βA4 deposits are constant in the brain of the oldest old: An immunocytochemical study of 20 french centenarians

Delaère

Fayet

et al. 1993

Neurobiology of Aging

133

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Mitochondrial DNA transfer RNA gene sequence variations in patients with mitochondrial disorders

Sternberg

Chatzoglou²,

Laforêt³

et al. 2001

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Many different pathogenic mutations in the mitochondrial (mt) transfer RNA (tRNA) genes have been reported for patients with mitochondrial encephalomyopathy. Although some of them are recurrent, most have only been described once and appear to be restricted to one patient or to one family. The incidence of mt tRNA gene alterations is not known, even though the frequency of some recurrent mutations has been analysed both in patients and in the general population. In this study, we describe the results of stepwise screening for sequence variations in the mt tRNA genes of 166 patients selected according to several criteria. Extensive sequence analysis of the tRNA genes was performed using denaturing gradient gel electrophoresis. A total of 31 patients (19%) were found to harbour significant levels of a pathogenic mutation, thus confirming the importance of mt tRNA mutations in human pathology. Forty-three different sequence variations were found, illustrating the great diversity of the mtDNA sequence in humans. The functional assessment of all these sequence variations represented a difficult task; it was mostly based on indirect data, such as the phylogenetic conservation of modified nucleotides and the proportions of variant species in different tissues of the index case or in blood of maternal relatives. Direct demonstration of a correlation between the proportion of heteroplasmic sequence variations and the cytochrome c oxidase defect was performed at the single muscle-fibre level. Eleven heteroplasmic sequence variations were found, six of which are new mutations. One is a known Caucasian polymorphism but the other 10 are pathogenic. Two of them are the well-known pathogenic MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) (A3243G) and MERRF (myoclonic epilepsy with ragged-red fibres) (A8344G) point mutations. They were found in 23 patients. The eight other mutations were restricted to one patient. The pathogenic nature of these mutations was demonstrated directly for five of them and hypothesized from indirect arguments for the other three. Thirty-two homoplasmic sequence variations were found. Twenty-nine were considered to be polymorphisms, even though 15 of these were found for the first time in our patients and two others had been reported previously as pathogenic. The pathogenic nature of three homoplasmic variants remains questionable.

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Muscle strength and body composition in adult women with Marfan syndrome

Percheron¹,

Fayet

Ningler

et al. 2007

Rheumatology

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Force-sharing within the Triceps Surae: An Achilles Heel in Achilles Tendinopathy

Crouzier

Tucker

Lacourpaille

et al. 2019

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Medicine & Science in Sports & Exercise ® Published ahead of Print contains articles in unedited manuscript form that have been peer reviewed and accepted for publication. This manuscript will undergo copyediting, page composition, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered that could affect the content.

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Thyrotrophin‐Induced Aggregation and Reorganization into Follicles of Isolated Porcine‐Thyroid Cells

Lissitzky¹,

Fayet²,

Giraud³

et al. 1971

European Journal of Biochemistry

137

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The thyrotrophin-induced reorganization of isolated porcine-thyroid cells into follicles is specifically mediated by cyclic AMP. Both dibutyryl cyclic AMP and theophylline a t concentrations of 0.1 mM and 0.05 mM, respectively, mimic the effect of thyrotrophin. Puromycin and cycloheximide acutely inhibit the cyclic AMP-induced histiotypic reassociation of cells. Actinomycin-D inhibits cell organization when added a t zero-time or 12 h after the onset of the culture but not when added 24 h later. Therefore, the intracellular increase in cyclic AMP is most likely a prerequisite to the reassociation into follicles of isolated thyroid cells. Cyclic AMP stimulates the production of new RNA(s) which, in turn, induces the synthesis of protein(s) involved in intercellular recognition.Isolated thyroid cells grow as a monolayer in the absence of thyrotrophin or cyclic AMP. Between the first and the second day of culturing, they lose the capacity to concentrate iodide. From the third to the thirteenth day neither iodide trapping nor organification can be detected.

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Guy Fayet

Ageing muscle: clonal expansions of mitochondrial DNA point mutations and deletions cause focal impairment of mitochondrial function

Effect of 1-Year Oral Administration of Dehydroepiandrosterone to 60- to 80-Year-Old Individuals on Muscle Function and Cross-sectional Area

Apoptosis in mitochondrial myopathies is linked to mitochondrial proliferation

βA4 deposits are constant in the brain of the oldest old: An immunocytochemical study of 20 french centenarians

Mitochondrial DNA transfer RNA gene sequence variations in patients with mitochondrial disorders

Muscle strength and body composition in adult women with Marfan syndrome

Force-sharing within the Triceps Surae: An Achilles Heel in Achilles Tendinopathy

Thyrotrophin‐Induced Aggregation and Reorganization into Follicles of Isolated Porcine‐Thyroid Cells

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