Ultrastructural and functional abnormalities of mitochondria in cultivated fibroblasts from α-mannosidosis patients

α -Mannosidosis is a lysosomal storage disorder caused by α -mannosidase deficiency. Clinical course of the disease ranges from severe infantile to milder juvenile type and includes mental retardation, skeletal deformities, coarse facies, hepatomegaly and hearing loss. The aim of the study was to an...

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Bibliographic Details
Published inBiológia Vol. 64; no. 2; pp. 394 - 401
Main Authors Brantova, Olga, Asfaw, Befekadu, Sladkova, Jana, Poupetova, Helena, Zivny, Jan, Magner, Martin, Krusek, Jan, Vesela, Katerina, Hansikova, Hana, Ledvinova, Jana, Tesarova, Marketa, Zeman, Jiri
Format Journal Article
LanguageEnglish
Published Heidelberg SP Versita 01.04.2009
Versita
Subjects
Biomedical and Life Sciences
Cell Biology
endoplasmatic reticulum
Life Sciences
Microbiology
mitochondria
Plant Sciences
ultrastructure
Zoology
α-mannosidosis
mannosidosis
ultrastructure
endoplasmatic reticulum
mitochondria
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Summary:α -Mannosidosis is a lysosomal storage disorder caused by α -mannosidase deficiency. Clinical course of the disease ranges from severe infantile to milder juvenile type and includes mental retardation, skeletal deformities, coarse facies, hepatomegaly and hearing loss. The aim of the study was to analyse mitochondrial ultrastructure and function in cultivated fibroblasts from three patients with α -mannosidosis. All patients were homozygous for the c.2248C>T mutation in the MAN2B1 gene encoding lysosomal α -mannosidase. The mutation results in incorrect protein folding and severe decrease of α -mannosidase activity. The misfolded protein is retained by the control system of endoplasmic reticulum (ER). In analysed fibroblasts, we observed dilated ER, higher amount of aberrant mitochondria and reduced mitochondrial mass compared to controls. Respiratory chain complex IV, cytochrome c oxidase (COX), activity and the ratio between COX and citrate synthase (control enzyme) were significantly increased in comparison to controls ( P < 0.05). Furthermore, the activity at least from one of other respiratory chain complexes was increased in each studied cell line. Mitochondrial membrane potential as well as reactive oxygen species production were comparable with controls. Based on our results, we hypothesize more profound effect of swelled and damaged mitochondria and ER dilatation on tissues with higher energy demand than fibroblasts have.
ISSN:0006-3088
1336-9563
DOI:10.2478/s11756-009-0054-2