Human Molecular Genetics, Vol 6, 905-908, Copyright © 1997 by Oxford University Press
K Oexle and A Zwirner
Cell and tissue damage in respiratory chain disorders have been related to
increased production of reactive oxygen species (ROS). We measured telomere
lengths in such disorders since ROS have also been implicated with telomere
shortening. We investigated whole blood cell DNA of 14 patients with
MELAS-related mitochondriopathy and two patients with the LHON-associated
G11778A mutation of the mitochondrial genome. The phenotypes were variable
and included an unusual case of schizophrenia- like psychosis associated
with the A3243G mutation. As compared to healthy controls telomere
shortening in the patient group was advanced (P < or = 0.006). We
compare this finding with the accelerated telomere shortening in Down's
syndrome and in chromosomal breakage syndromes. We discuss possible
relations between advanced telomere shortening and selective constraints
that act on proliferating cells with respiratory chain dysfunction.
ARTICLES
Advanced telomere shortening in respiratory chain disorders
Abteilung Neuropadiatrie, Kinderklinik, Rudolf-Virchow Krankenhaus, Humboldt-Universitat, Berlin, Germany. +49773146505-1@t-online.de
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