Cytokines and growth factors induce tyrosine phosphorylation of signal transducers and activators of transcription (STATs) that directly activate gene expression. Cells stably transformed by the Src oncogene tyrosine kinase were examined for STAT protein activation. Assays of electrophoretic mobility, DNA-binding specificity, and antigenicity indicated that Stat3 or a closely related STAT family member was constitutively activated by the Src oncoprotein. Induction of this DNA-binding activity was accompanied by tyrosine phosphorylation of Stat3 and correlated with Src transformation. These findings demonstrate that Src can activate STAT signaling pathways and raise the possibility that Stat3 contributes to oncogenesis by Src.
Growth hormone receptor (GHR) forms a complex with a tyrosine kinase, suggesting involvement of a ligand-activated tyrosine kinase in intracellular signaling by growth hormone (GH). Here we identify JAK2, a nonreceptor tyrosine kinase, as a GHR-associated tyrosine kinase. Immunological approaches were used to establish GH-dependent complex formation between JAK2 and GHR, activation of JAK2 tyrosine kinase activity, and tyrosyl phosphorylation of both JAK2 and GHR. The JAK2-GHR and JAK2-erythropoietin receptor interactions described here and in the accompanying paper provide a molecular basis for involvement of tyrosyl phosphorylation in physiological responses to these ligands and suggest a shared signaling mechanism among members of the cytokine/hematopoietin receptor family.
One of the earliest cellular responses to prolactin (PRL) binding in Nb2 cells, a rat pre-T lymphoma cell line, is an increase in tyrosine phosphorylation of cellular proteins. In this work, immunologic techniques have been used to demonstrate that in Nb2 cells and in mouse mammary gland explants, JAK2, a non-receptor tyrosine kinase, is activated following stimulation with PRL. PRL stimulated tyrosine phosphorylation of JAK2 at times as early as 30 sec and concentrations of PRL as low as 0.5 ng/ml (2.5 pM) in Nb2 cells and 100 ng/ml (5 nM) in mammary gland explants. When JAK2 was immunoprecipitated from solubilized Nb2 cells or mamMary gland explants and incubated with [r32P]ATP, 32P was incorporated into a protein mirating with an apparent molecular weight appropriate for JAK2 only when cells had been incubated with PRL, indicating that JAK2 tyrosine kinase activity is exquisitely sensitive to PRL. In Nb2 cells, JAK2 was found to associate with PRL receptor irrespective ofwhether or not the cells had been incubated with PRL. These results provide strong evidence that JAK2 is constitutively asiated with the PRL receptor and that it is activated and tyrosine phosphorylated upon PRL binding to the PRL receptor. These results are consistent with JAK2 serving as an early, perhaps initial, sgnaling molecule for PRL.
The mechanism by which the binding of growth hormone (GH) to its cell surface receptor elicits changes in gene transcription are largely unknown. The transcription factor Stat1/p91 has been shown to be activated by GH. Here we show that acute phase response factor or Stat3 f1p4an antigenically related protein), is also activated by GH. Stat3 has been implicated in the interleukin-6-dependent induction of acute phase response genes. GH promotes in 3T3-F442A fibroblasts the tyrosyl phosphorylation of a protein immunoprecipitated by antibodies to Stat3. This protein co-migrates with a tyrosyl phosphorylated protein from cells treated with leukemia inhibitory factor, a cytokine known to activate Stat3. Tyrosyl phosphorylated Stat3 is also observed in response to interferon-gamma. Stat3 is present in GH-inducible DNA-binding complexes that bind the sis-inducible element in the c-fos promoter and the acute phase response element in the alpha 2-macroglobulin promoter. The ability of GH to activate both Stat1 and Stat3 (i.e. increase their tyrosyl phosphorylation and ability to bind to DNA) suggests that gene regulation by GH involves multiple Stat proteins. Shared transcription factors among hormones and cytokines that activate JAK kinases provide an explanation for shared responses, while the ability of the different ligands to differentially recruit various Stat family members suggests mechanisms by which specificity in gene regulation could be achieved.
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