Osmosensory mechanisms in cellular and systemic volume regulation

Stine Helene Falsig Pedersen; András Kapus; Else K Hoffmann

doi:10.1681/ASN.2010121284

Osmosensory mechanisms in cellular and systemic volume regulation

Stine Helene Falsig Pedersen, András Kapus, Else K Hoffmann

Cell Biology and Physiology

51 Citations (Scopus)

Abstract

Perturbations of cellular and systemic osmolarity severely challenge the function of all organisms and are consequently regulated very tightly. Here we outline current evidence on how cells sense volume perturbations, with particular focus on mechanisms relevant to the kidneys and to extracellular osmolarity and whole body volume homeostasis. There are a variety of molecular signals that respond to perturbations in cell volume and osmosensors or volume sensors responding to these signals. The early signals of volume perturbation include integrins, the cytoskeleton, receptor tyrosine kinases, and transient receptor potential channels. We also present current evidence on the localization and function of central and peripheral systemic osmosensors and conclude with a brief look at the still limited evidence on pathophysiological conditions associated with deranged sensing of cell volume.

Original language	English
Journal	Journal of the American Society of Nephrology
Volume	22
Issue number	9
Pages (from-to)	1587-97
Number of pages	11
ISSN	1046-6673
DOIs	https://doi.org/10.1681/ASN.2010121284
Publication status	Published - Sept 2011

Keywords

Cell Size
Homeostasis
Kidney
Macrophages
Mechanotransduction, Cellular
Osmolar Concentration

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10.1681/ASN.2010121284

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abstract = "Perturbations of cellular and systemic osmolarity severely challenge the function of all organisms and are consequently regulated very tightly. Here we outline current evidence on how cells sense volume perturbations, with particular focus on mechanisms relevant to the kidneys and to extracellular osmolarity and whole body volume homeostasis. There are a variety of molecular signals that respond to perturbations in cell volume and osmosensors or volume sensors responding to these signals. The early signals of volume perturbation include integrins, the cytoskeleton, receptor tyrosine kinases, and transient receptor potential channels. We also present current evidence on the localization and function of central and peripheral systemic osmosensors and conclude with a brief look at the still limited evidence on pathophysiological conditions associated with deranged sensing of cell volume.",

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AU - Pedersen, Stine Helene Falsig

AU - Kapus, András

AU - Hoffmann, Else K

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N2 - Perturbations of cellular and systemic osmolarity severely challenge the function of all organisms and are consequently regulated very tightly. Here we outline current evidence on how cells sense volume perturbations, with particular focus on mechanisms relevant to the kidneys and to extracellular osmolarity and whole body volume homeostasis. There are a variety of molecular signals that respond to perturbations in cell volume and osmosensors or volume sensors responding to these signals. The early signals of volume perturbation include integrins, the cytoskeleton, receptor tyrosine kinases, and transient receptor potential channels. We also present current evidence on the localization and function of central and peripheral systemic osmosensors and conclude with a brief look at the still limited evidence on pathophysiological conditions associated with deranged sensing of cell volume.

AB - Perturbations of cellular and systemic osmolarity severely challenge the function of all organisms and are consequently regulated very tightly. Here we outline current evidence on how cells sense volume perturbations, with particular focus on mechanisms relevant to the kidneys and to extracellular osmolarity and whole body volume homeostasis. There are a variety of molecular signals that respond to perturbations in cell volume and osmosensors or volume sensors responding to these signals. The early signals of volume perturbation include integrins, the cytoskeleton, receptor tyrosine kinases, and transient receptor potential channels. We also present current evidence on the localization and function of central and peripheral systemic osmosensors and conclude with a brief look at the still limited evidence on pathophysiological conditions associated with deranged sensing of cell volume.

KW - Cell Size

KW - Homeostasis

KW - Kidney

KW - Macrophages

KW - Mechanotransduction, Cellular

KW - Osmolar Concentration

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DO - 10.1681/ASN.2010121284

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SN - 1046-6673

VL - 22

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EP - 1597

JO - Journal of the American Society of Nephrology : JASN

JF - Journal of the American Society of Nephrology : JASN

IS - 9

ER -

Osmosensory mechanisms in cellular and systemic volume regulation

Abstract

Keywords

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