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Determinants of Growth Hormone Receptor Down-Regulation

Department of Cell Biology (L.D., N.Y., S.J.F.), and Department of Medicine (K.H., X.W., J.J., S.J.F.), Division of Endocrinology, Diabetes, and Metabolism, University of Alabama at Birmingham, Birmingham, Alabama 35294-0012; Department of Animal Biology (C.T., S.Y.F.), University of Pennsylvania, Philadelphia, Pennsylvania 19104-6046; and Endocrinology Section (S.J.F.), Medical Service, Veterans Affairs Medical Center, Birmingham, Alabama 35233

Address all correspondence and requests for reprints to: Stuart J. Frank, University of Alabama at Birmingham, 1530 Third Avenue South, BDB 861, Birmingham, Alabama 35294-0012. E-mail: sjfrank{at}uab.edu.

GH receptor (GHR) is a cytokine receptor family member that responds to GH by activation of the receptor-associated tyrosine kinase, JAK2 (Janus family of tyrosine kinase 2). We previously showed that JAK2, in addition to being a signal transducer, dramatically increases the half-life of mature GHR, partly by preventing constitutive GHR down-regulation. Herein we explored GHR and JAK2 determinants for both constitutive and GH-induced GHR down-regulation, exploiting the previously characterized GHR- and JAK2-deficient 2A reconstitution system. We found that JAK2’s ability to protect mature GHR from rapid degradation measured in the presence of the protein synthesis inhibitor, cycloheximide, depended on the presence of GHR’s Box 1 element and the intact JAK2 FERM (band 4.1/Ezrin/Radixin/Moesin); domain, but not the kinase-like or kinase domains of JAK2. Thus, GHR-JAK2 association, but not JAK2 kinase activity, is required for JAK2 to inhibit constitutive GHR down-regulation and enhance GHR half-life. In cells that expressed JAK2, but not cells lacking JAK2, GH markedly enhanced GHR degradation. Like JAK2-induced protection from constitutive down-regulation, GH-induced GHR down-regulation required the GHR Box 1 element and an intact JAK2 FERM domain. However, a JAK2 mutant lacking the kinase-like and kinase domains did not mediate GH-induced GHR down-regulation. Likewise, a kinase-deficient JAK2 was insufficient for this purpose, indicating that kinase activity is required. Both lactacystin (a proteasome inhibitor) and chloroquine (a lysosome inhibitor) blocked GH-induced GHR loss. Interestingly, GH-induced GHR ubiquitination, like down-regulation, was prevented in cells expressing a kinase-deficient JAK2 protein. Further, a GHR mutant, of which all the cytoplasmic tyrosine residues were changed to phenylalanines, was resistant to GH-induced GHR ubiquitination and down-regulation. Collectively, our data suggest that determinants required for JAK2 to protect mature GHR from constitutive degradation differ from those that drive GH-induced GHR down-regulation. The latter requires GH-induced JAK2 activation and GHR tyrosine phosphorylation and is correlated to GHR ubiquitination in our reconstitution system.

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