The Golgi Ca2+-ATPase KlPmr1p Function Is Required for Oxidative Stress Response by Controlling the Expression of the Heat-Shock ElementHSP60inKluyveromyces lactis-Reference-Cited by-同舟云学术

The Golgi Ca2+-ATPase KlPmr1p Function Is Required for Oxidative Stress Response by Controlling the Expression of the Heat-Shock ElementHSP60inKluyveromyces lactis

Published:2005-10 Issue:10 Volume:16 Page:4636-4647
ISSN:1059-1524
Container-title:Molecular Biology of the Cell
language:en
Short-container-title:MBoC

Author:

Uccelletti Daniela¹,Farina Francesca¹,Pinton Paolo²,Goffrini Paola³,Mancini Patrizia⁴,Talora Claudio⁴,Rizzuto Rosario²,Palleschi Claudio¹

Affiliation:

1. Department of Developmental and Cell Biology, University of Rome “La Sapienza,” 00185 Rome, Italy

2. Department of Experimental and Diagnostic Medicine, Section of General Pathology, University of Ferrara, 44100 Ferrara, Italy

3. Department of Genetics, Anthropology, and Evolution, University of Parma, 43100 Parma, Italy

4. Department of Experimental Medicine and Pathology, University of Rome “La Sapienza,” 00161 Rome, Italy

Abstract

The Golgi P-type Ca2+-ATPase, Pmr1p, is the major player for calcium homeostasis in yeast. The inactivation of KlPMR1 in Kluyveromyces lactis leads to high pleiotropic phenotypes that include reduced glycosylation, cell wall defects, and alterations of mitochondrial metabolism. In this article we found that cells lacking KlPmr1p have a morphologically altered mitochondrial network and that mitochondria (m) from Klpmr1Δ cells accumulate Ca2+more slowly and reach a lower [Ca2+]mlevel, when exposed to [Ca2+] < 5 μM, than wild-type cells. The Klpmr1Δ cells also exhibit traits of ongoing oxidative stress and present hyperphosphorylation of KlHog1p, the hallmark for the activation of stress response pathways. The mitochondrial chaperone KlHsp60 acts as a multicopy suppressor of phenotypes that occur in cells lacking the Ca2+-ATPase, including relief from oxidative stress and recovery of cell wall thickness and functionality. Inhibition of KlPMR1 function decreases KlHSP60 expression at both mRNA and protein levels. Moreover, KlPRM1 loss of function correlates with both decreases in HSF DNA binding activity and KlHSP60 expression. We suggest a role for KlPMR1 in HSF DNA binding activity, which is required for proper KlHSP60 expression, a key step in oxidative stress response.

Publisher

American Society for Cell Biology (ASCB)

Subject

Cell Biology,Molecular Biology

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