Mislocalization of Mitochondria and Compromised Renal Function and Oxidative Stress Resistance in Drosophila SesB Mutants

Overview

Journal Physiol Genomics

Publisher American Physiological Society

Specialties Genetics
Molecular Biology

Date 2009 Dec 17

PMID 20009008

Citations 20

Authors

Selim Terhzaz

Pablo Cabrero

Venkateswara R Chintapalli

Shireen-A Davies

Julian A T Dow

Affiliations

Soon will be listed here.

Abstract

Mitochondria accumulate at sites of intense metabolic activity within cells, but the adaptive value of this placement is not clear. In Drosophila, sesB encodes the ubiquitous isoform of adenine nucleotide translocase (ANT, the mitochondrial inner membrane ATP/ADP exchanger); null alleles are lethal, whereas hypomorphic alleles display sensitivity to a range of stressors. In the adult renal tubule, which is densely packed with mitochondria and hence enriched for sesB, both hypomorphic alleles and RNA interference knockdowns cause the mitochondria to lose their highly polarized distribution in the tissue and to become rounded. Basal cytoplasmic and mitochondrial calcium levels are both increased, and neuropeptide calcium response compromised, with concomitant defects in fluid secretion. The remaining mitochondria in sesB mutants are overactive and maintain depleted cellular ATP levels while generating higher levels of hydrogen peroxide than normal. When sesB expression is knocked down in just tubule principal cells, the survival of the whole organism upon oxidative stress is reduced, implying a limiting role for the tubule in homeostatic response to stressors. The physiological impacts of defective ANT expression are thus widespread and diverse.

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