Direct evidence for ligand-induced internalization of the yeast alpha-factor pheromone receptor.

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Mol Cell Biol. 1994 November; 14(11): 7245-7255

Direct evidence for ligand-induced internalization of the yeast alpha-factor pheromone receptor.

K A Schandel and D D Jenness

Department of Molecular Genetics and Microbiology, University of Massachusetts Medical School, Worcester 01655-0122.

ABSTRACT

When Saccharomyces cerevisiae a cells bind alpha-factor pheromone,the ligand is internalized and its binding sites are lost fromthe cell surface in a time-, energy-, and temperature-dependentmanner. This report presents direct evidence for alpha-factor-inducedinternalization of cell surface receptors. First, membrane fractionationon Renografin density gradients indicated that the alpha-factorreceptors were predominantly found in the plasma membrane peakbefore alpha-factor treatment and then appeared in membranesof lesser buoyant density after alpha-factor exposure. Second,receptors were susceptible to cleavage by extracellular proteasesbefore alpha-factor treatment and then became resistant to proteolysisafter exposure to pheromone, consistent with the transit ofreceptors from the cell surface to an internal compartment.The median transit time in both assays was approximately 8 min.The ultimate target of the internalized receptors was identifiedas the vacuole, since the membranes containing internalizedreceptors cofractionated with vacuolar membranes, since theturnover of receptors was stimulated by alpha-factor exposure,and since receptor degradation was blocked in a pep4 mutantthat is deficient for vacuolar proteases. The carboxy-terminaldomain of the receptor that is required for ligand internalizationwas also found to be essential for endocytosis of the receptor.A receptor mutant, ste2-L236H, which is defective for pheromoneresponse but capable of ligand internalization, was found tobe proficient for receptor endocytosis. Hence, separate structuralfeatures of the receptor appear to specify its signal transductionand internalization activities.

Mol Cell Biol. 1994 November; 14(11): 7245-7255

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