Growth Factors Induce Phosphorylation of the Na + /H + Antiporter, a Glycoprotein of 110 kD
- 9 February 1990
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 247 (4943) , 723-726
- https://doi.org/10.1126/science.2154036
Abstract
The Na+/H+ antiporter, which regulates intracellular pH in virtually all cells, is one of the best examples of a mitogen- and oncogene-activated membrane target whose activity rapidly changes on stimulation. The activating mechanism is unknown. A Na+/H+ antiporter complementary DNA fragment was expressed in Escherichia coli as a beta-galactosidase fusion protein, and a specific antibody to the fusion protein was prepared. Use of this antibody revealed that the Na+/H+ antiporter is a 110-kilodalton glycoprotein that is phosphorylated in growing cells. Mitogenic activation of resting hamster fibroblasts and A431 human epidermoid cells with epidermal growth factor, thrombin, phorbol esters, or serum, stimulated phosphorylation of the Na+/H+ antiporter with a time course similar to that of the rise in intracellular pH.This publication has 19 references indexed in Scilit:
- Unmasking a growth factor/oncogene-activated S6 phosphorylation cascadeCellular Signalling, 1989
- Arginine vasopressin enhances pHi regulation in the presence of HCO−3 by stimulating three acid-base transport systemsNature, 1989
- Molecular cloning, primary structure, and expression of the human growth factor-activatable antiporterCell, 1989
- Signal Transduction in Hamster Fibroblasts Overexpressing the Human EGF ReceptorGrowth Factors, 1989
- Cloning and functional expression in bacteria of a novel glucose transporter present in liver, intestine, kidney, and β-pancreatic islet cellsCell, 1988
- Two growth factor signalling pathways in fibroblasts distinguished by pertussis toxinNature, 1987
- Early Signals in the Mitogenic ResponseScience, 1986
- Effects of Growth Factors on Intracellular pH RegulationAnnual Review of Physiology, 1986
- EGF and insulin action in fibroblastsFEBS Letters, 1986
- The growth factor-activatable Na+/H+ exchange system: a genetic approachTrends in Biochemical Sciences, 1985