Intracellular pH gradients in migrating cells

Christine Martin; Stine Helene Falsig Pedersen; Albrecht Schwab; Christian Stock

doi:10.1152/ajpcell.00280.2010

Intracellular pH gradients in migrating cells

Christine Martin, Stine Helene Falsig Pedersen, Albrecht Schwab, Christian Stock

Cellebiologi og Fysiologi

107 Citationer (Scopus)

1126 Downloads (Pure)

Abstract

Cell polarization along the axis of movement is required for migration. The localization of proteins and regulators of the migratory machinery to either the cell front or its rear results in a spatial asymmetry enabling cells to simultaneously coordinate cell protrusion and retraction. Protons might function as such unevenly distributed regulators as they modulate the interaction of focal adhesion proteins and components of the cytoskeleton in vitro. However, an intracellular pH (pH_i) gradient reflecting a spatial asymmetry of protons has not been shown so far. One major regulator of pH_i, the Na⁺/H⁺ exchanger NHE1, is essential for cell migration and accumulates at the cell front. Here, we test the hypothesis that the uneven distribution of NHE1 activity creates a pH_i gradient in migrating cells. Using the pH-sensitive fluorescent dye BCECF, pH_i was measured in five cell lines (MV3, B16V, NIH3T3, MDCK-F1, EA.hy926) along the axis of movement. Differences in pH_i between the front and the rear end (ΔpH_i front-rear) were present in all cell lines, and inhibition of NHE1 either with HOE642 or by absence of extracellular Na ⁺ caused the pH_i gradient to flatten or disappear. In conclusion, pH_i gradients established by NHE1 activity exist along the axis of movement.

Originalsprog	Engelsk
Tidsskrift	American Journal of Physiology: Cell Physiology
Vol/bind	300
Udgave nummer	3
Sider (fra-til)	C490-C495
Antal sider	6
ISSN	0363-6143
DOI	https://doi.org/10.1152/ajpcell.00280.2010
Status	Udgivet - mar. 2011

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10.1152/ajpcell.00280.2010

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abstract = "Cell polarization along the axis of movement is required for migration. The localization of proteins and regulators of the migratory machinery to either the cell front or its rear results in a spatial asymmetry enabling cells to simultaneously coordinate cell protrusion and retraction. Protons might function as such unevenly distributed regulators as they modulate the interaction of focal adhesion proteins and components of the cytoskeleton in vitro. However, an intracellular pH (pHi) gradient reflecting a spatial asymmetry of protons has not been shown so far. One major regulator of pHi, the Na+/H+ exchanger NHE1, is essential for cell migration and accumulates at the cell front. Here, we test the hypothesis that the uneven distribution of NHE1 activity creates a pHi gradient in migrating cells. Using the pH-sensitive fluorescent dye BCECF, pHi was measured in five cell lines (MV3, B16V, NIH3T3, MDCK-F1, EA.hy926) along the axis of movement. Differences in pHi between the front and the rear end (ΔpHi front-rear) were present in all cell lines, and inhibition of NHE1 either with HOE642 or by absence of extracellular Na + caused the pHi gradient to flatten or disappear. In conclusion, pHi gradients established by NHE1 activity exist along the axis of movement.",

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AB - Cell polarization along the axis of movement is required for migration. The localization of proteins and regulators of the migratory machinery to either the cell front or its rear results in a spatial asymmetry enabling cells to simultaneously coordinate cell protrusion and retraction. Protons might function as such unevenly distributed regulators as they modulate the interaction of focal adhesion proteins and components of the cytoskeleton in vitro. However, an intracellular pH (pHi) gradient reflecting a spatial asymmetry of protons has not been shown so far. One major regulator of pHi, the Na+/H+ exchanger NHE1, is essential for cell migration and accumulates at the cell front. Here, we test the hypothesis that the uneven distribution of NHE1 activity creates a pHi gradient in migrating cells. Using the pH-sensitive fluorescent dye BCECF, pHi was measured in five cell lines (MV3, B16V, NIH3T3, MDCK-F1, EA.hy926) along the axis of movement. Differences in pHi between the front and the rear end (ΔpHi front-rear) were present in all cell lines, and inhibition of NHE1 either with HOE642 or by absence of extracellular Na + caused the pHi gradient to flatten or disappear. In conclusion, pHi gradients established by NHE1 activity exist along the axis of movement.

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KW - Cation Transport Proteins

KW - Cell Line, Transformed

KW - Cell Line, Tumor

KW - Cell Movement

KW - Cell Polarity

KW - Cell Surface Extensions

KW - Dogs

KW - Fluoresceins

KW - Fluorescent Dyes

KW - Humans

KW - Hydrogen-Ion Concentration

KW - Intracellular Fluid

KW - Mice

KW - NIH 3T3 Cells

KW - Protons

KW - Sodium-Hydrogen Antiporter

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SP - C490-C495

JO - American Journal of Physiology: Cell Physiology

JF - American Journal of Physiology: Cell Physiology

IS - 3

ER -

Intracellular pH gradients in migrating cells

Abstract

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