Stat5 tetramer formation is associated with leukemogenesis.

Activation of Stat5 is frequently found in leukemias. To study the mechanism and role of Stat5 activation, we introduced a constitutively activated Stat5a mutant, cS5F, into murine bone marrow (BM) cells. BM transplantation with cS5F-transfected cells caused development of multilineage leukemias in lethally irradiated wild-type or nonirradiated Rag2(-/-) mice. The leukemic cells showed strongly enhanced levels of cS5F tetramers but unchanged cS5F dimer levels in a DNA binding assay. Moreover, Stat5a mutants engineered to form only dimers, but not tetramers, failed to induce leukemias. In addition, Stat5 tetramers were found to accumulate in excess compared to dimers in various human leukemias. These data suggest that Stat5 tetramers are associated with leukemogenesis.

Apoptosis protection by the Epo target Bcl-X(L) allows factor-independent differentiation of primary erythroblasts.

BACKGROUND: Erythropoietin (Epo) is required for correct execution of the erythroid differentiation program. Erythropoiesis requires Bcl-X(L), a major late target of Epo-receptor signaling. Mice lacking Bcl-X(L) die around embryonic age E12.5, forming normal erythroid progenitors but lacking functional red cells. Recently, serum-free culture conditions for expansion of murine red cell progenitors were developed, yielding cells capable of in vivo-like terminal differentiation into enucleated erythrocytes, in response to Epo/insulin. Here we address whether Epo function during terminal maturation involves a cytokine-independent "default program," requiring only apoptosis inhibition through Epo-dependent upregulation of Bcl-X(L). RESULTS: Exogenous expression of Bcl-X(L) or Bcl-2 in primary murine erythroblasts or clonal erythroblast lines derived from p53(-/-) mice allowed these cells to undergo terminal erythroid maturation, in the complete absence of cytokines. A potential autocrine Epo loop was ruled out by respective neutralizing antibodies. Importantly, sustained proliferation of Bcl-X(L)-expressing immature erythroblasts still required respective factors (Epo, stem cell factor [SCF], and the glucocorticoid receptor ligand dexamethasone [Dex]). Epo-independent differentiation in these Bcl-X(L)- or Bcl-2-expressing, primary erythroblasts was thus triggered by removal of the renewal factors SCF and Dex. This initiated the maturation-specific expression cascade of erythroid transcription factors, followed by differentiation divisions (characterized by a short G1 phase and decrease in cell size), hemoglobin accumulation, and enucleation. CONCLUSIONS: During erythroid maturation, Epo regulates red cell numbers via apoptosis inhibition, caused by Epo-dependent upregulation of the antiapoptotic protein Bcl-X(L). This allows "default" terminal differentiation of apoptosis-protected, committed erythroblasts, independent of any exogenous signals.

Glucocorticoid receptor function in hepatocytes is essential to promote postnatal body growth.

Mice carrying a hepatocyte-specific inactivation of the glucorticoid receptor (GR) gene show a dramatic reduction in body size. Growth hormone signaling mediated by the Stat5 transcription factors is impaired. We show that Stat5 proteins physically interact with GR and GR is present in vivo on Stat5-dependent IGF-I and ALS regulatory regions. Interestingly, mice with a DNA-binding-deficient GR but an unaltered ability to interact with STAT5 (GR(dim/dim)) have a normal body size and normal levels of Stat5-dependent mRNAs. These findings strongly support the model in which GR acts as a coactivator for Stat5-dependent transcription upon GH stimulation and reveal an essential role of hepatic GR in the control of body growth.