Osmotic stress response in Dictyostelium is mediated by cAMP

Alexander Ott; Felix Oehme; Heike Keller; Stephan C. Schuster

doi:10.1093/emboj/19.21.5782

Osmotic stress response in Dictyostelium is mediated by cAMP

Alexander Ott, Felix Oehme, Heike Keller, Stephan C. Schuster^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

42 Citations (Scopus)

Abstract

DokA, a homolog of bacterial hybrid histidine kinases, is essential for hyperosmotic stress resistance in Dictyostelium. We show that a transient intracellular cAMP signal, dependent on the presence of DokA, is generated in response to an osmotic shock. This variation of cAMP levels contributes to survival under hypertonic conditions. In contrast to the low cAMP levels observed in dokA^- strains, overexpression of the receiver domain of DokA causes an increase in cAMP levels, resulting in a rapidly developing phenotype. We present biochemical and cell biological data indicating that the DokA receiver domain is a dominant-negative regulator of a phosphorelay, which controls the intracellular cAMP phosphodiesterase RegA. The activity of the DokA receiver domain depends on a conserved aspartate, mutation of which reverses the developmental phenotype, as well as the deregulation of cAMP metabolism.

Original language	English
Pages (from-to)	5782-5792
Number of pages	11
Journal	EMBO Journal
Volume	19
Issue number	21
DOIs	https://doi.org/10.1093/emboj/19.21.5782
Publication status	Published - Nov 1 2000
Externally published	Yes

ASJC Scopus Subject Areas

General Neuroscience
Molecular Biology
General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology

Keywords

cAMP
Osmotic stress
Phosphatases
Phosphorelay
Signal transduction

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10.1093/emboj/19.21.5782

Cite this

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abstract = "DokA, a homolog of bacterial hybrid histidine kinases, is essential for hyperosmotic stress resistance in Dictyostelium. We show that a transient intracellular cAMP signal, dependent on the presence of DokA, is generated in response to an osmotic shock. This variation of cAMP levels contributes to survival under hypertonic conditions. In contrast to the low cAMP levels observed in dokA- strains, overexpression of the receiver domain of DokA causes an increase in cAMP levels, resulting in a rapidly developing phenotype. We present biochemical and cell biological data indicating that the DokA receiver domain is a dominant-negative regulator of a phosphorelay, which controls the intracellular cAMP phosphodiesterase RegA. The activity of the DokA receiver domain depends on a conserved aspartate, mutation of which reverses the developmental phenotype, as well as the deregulation of cAMP metabolism.",

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T1 - Osmotic stress response in Dictyostelium is mediated by cAMP

AU - Ott, Alexander

AU - Oehme, Felix

AU - Keller, Heike

AU - Schuster, Stephan C.

PY - 2000/11/1

Y1 - 2000/11/1

N2 - DokA, a homolog of bacterial hybrid histidine kinases, is essential for hyperosmotic stress resistance in Dictyostelium. We show that a transient intracellular cAMP signal, dependent on the presence of DokA, is generated in response to an osmotic shock. This variation of cAMP levels contributes to survival under hypertonic conditions. In contrast to the low cAMP levels observed in dokA- strains, overexpression of the receiver domain of DokA causes an increase in cAMP levels, resulting in a rapidly developing phenotype. We present biochemical and cell biological data indicating that the DokA receiver domain is a dominant-negative regulator of a phosphorelay, which controls the intracellular cAMP phosphodiesterase RegA. The activity of the DokA receiver domain depends on a conserved aspartate, mutation of which reverses the developmental phenotype, as well as the deregulation of cAMP metabolism.

AB - DokA, a homolog of bacterial hybrid histidine kinases, is essential for hyperosmotic stress resistance in Dictyostelium. We show that a transient intracellular cAMP signal, dependent on the presence of DokA, is generated in response to an osmotic shock. This variation of cAMP levels contributes to survival under hypertonic conditions. In contrast to the low cAMP levels observed in dokA- strains, overexpression of the receiver domain of DokA causes an increase in cAMP levels, resulting in a rapidly developing phenotype. We present biochemical and cell biological data indicating that the DokA receiver domain is a dominant-negative regulator of a phosphorelay, which controls the intracellular cAMP phosphodiesterase RegA. The activity of the DokA receiver domain depends on a conserved aspartate, mutation of which reverses the developmental phenotype, as well as the deregulation of cAMP metabolism.

KW - cAMP

KW - Osmotic stress

KW - Phosphatases

KW - Phosphorelay

KW - Signal transduction

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ER -

Osmotic stress response in Dictyostelium is mediated by cAMP

Abstract

ASJC Scopus Subject Areas

Keywords

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