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14 results on '"Magni R"'

1. Heteroplasmy of wild type mitochondrial DNA variants in mice causes metabolic heart disease with pulmonary hypertension and frailty

Author

Lechuga-Vieco, A.V., Latorre-Pellicer, A., Calvo, E., Torroja, C., Pellico, J., Acín-Pérez, R., García-Gil, M.L., Santos, A., Bagwan, N., Bonzon-Kulichenko, E., Magni, R., Benito, M., Justo-Méndez, R., Simon, A.K., Sánchez-Cabo, F., Vázquez, J., Ruíz-Cabello, J., and Enríquez, J.A.

Abstract

BACKGROUND: In most eukaryotic cells, the mitochondrial DNA (mtDNA) is uniparentally transmitted and present in multiple copies derived from the clonal expansion of maternally inherited mtDNA. All copies are therefore near-identical, or homoplasmic. The presence of more than one mtDNA variant in the same cytoplasm can arise naturally or result from new medical technologies aimed at preventing mitochondrial genetic diseases and improving fertility. The latter is called divergent non-pathological mtDNAs heteroplasmy (DNPH). We hypothesized that DNPH is maladaptive and usually prevented by the cell. METHODS: We engineered and characterized DNPH mice throughout their lifespan using transcriptomic, metabolomic, biochemical, physiological and phenotyping techniques. We focused on in vivo imaging techniques for non-invasive assessment of cardiac and pulmonary energy metabolism. RESULTS: We show that DNPH impairs mitochondrial function, with profound consequences in critical tissues that cannot resolve heteroplasmy, particularly cardiac and skeletal muscle. Progressive metabolic stress in these tissues leads to severe pathology in adulthood, including pulmonary hypertension and heart failure, skeletal muscle wasting, frailty, and premature death. Symptom severity is strongly modulated by the nuclear context. CONCLUSIONS: Medical interventions that may generate DNPH should address potential incompatibilities between donor and recipient mtDNA.

Published
2022

2. Heteroplasmy of Wild-Type Mitochondrial DNA Variants in Mice Causes Metabolic Heart Disease with Pulmonary Hypertension and Frailty; 35236094

Author

Lechuga-Vieco, A., Latorre-Pellicer, A., Calvo, E., Torroja, C., Pellico, J., Acín-Pérez, R., García-Gil, M. L., Santos, A., Bagwan, N., Bonzon-Kulichenko, E., Magni, R., Benito, M., Justo-Méndez, R., Simon, A. K., Sánchez-Cabo, F., Vázquez, J., Ruíz-Cabello, J., and Enríquez, J. A.

Abstract

Background: In most eukaryotic cells, the mitochondrial DNA (mtDNA) is transmitted uniparentally and present in multiple copies derived from the clonal expansion of maternally inherited mtDNA. All copies are therefore near-identical, or homoplasmic. The presence of >1 mtDNA variant in the same cytoplasm can arise naturally or result from new medical technologies aimed at preventing mitochondrial genetic diseases and improving fertility. The latter is called divergent nonpathologic mtDNA heteroplasmy (DNPH). We hypothesized that DNPH is maladaptive and usually prevented by the cell. Methods: We engineered and characterized DNPH mice throughout their lifespan using transcriptomic, metabolomic, biochemical, physiologic, and phenotyping techniques. We focused on in vivo imaging techniques for noninvasive assessment of cardiac and pulmonary energy metabolism. Results: We show that DNPH impairs mitochondrial function, with profound consequences in critical tissues that cannot resolve heteroplasmy, particularly cardiac and skeletal muscle. Progressive metabolic stress in these tissues leads to severe pathology in adulthood, including pulmonary hypertension and heart failure, skeletal muscle wasting, frailty, and premature death. Symptom severity is strongly modulated by the nuclear context. Conclusions: Medical interventions that may generate DNPH should address potential incompatibilities between donor and recipient mtDNA. © 2022 Lippincott Williams and Wilkins. All rights reserved.

Published
2022

9. Pigmented Contact-Dermatitis From Deodorant

Author

Pincelli, Carlo, Magni, R., and Motolese, A.

Subjects
COSMETICS AND TOILETRIES, HYPERPIGMENTATION, ALLERGIC CONTACT DERMATITIS, DEODORANTS, FRAGRANCE
Published
1993

11. VEP pattern after photostress: an index of macular function

Author

Cordella M, Franchi A, Magni R, and Lodigiani L

Subjects
Adult, Carotid Artery Diseases, medicine.medical_specialty, genetic structures, Eye disease, Occlusive disease, Connective tissue, Visual evoked potentials, Audiology, Examination method, Cellular and Molecular Neuroscience, Retinal Diseases, Reference Values, Ophthalmology, Medicine, Humans, Macula Lutea, Aged, Retina, business.industry, Middle Aged, medicine.disease, Connective tissue disease, eye diseases, Sensory Systems, Macular function, medicine.anatomical_structure, Evoked Potentials, Visual, business, Photic Stimulation, Hydroxychloroquine
Abstract

Eighty-seven subjects were examined by means of visual evoked potentials (VEPs) to evaluate the recovery time of the amplitude of the pattern VEP after photostress. Twenty-eight subjects were normal and 59 patients were affected by carotid occlusive disease, vascular retinopathies with and without macular involvement, and connective tissue diseases treated with antimalarial drugs. This examination method emphasizes visual dysfunction in a stage where ophthalmological changes are absent or minimal and therefore may be a useful test for the investigation of macular function.

Published
1987

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