cAMP and in vivo hypoxia induce tob, ifr1, and fos expression in erythroid cells of the chick embryo

doi:10.1152/ajpregu.00507.2001

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Am J Physiol Regul Integr Comp Physiol 282: R1219-R1226, 2002. First published December 21, 2001; doi:10.1152/ajpregu.00507.2001
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Vol. 282, Issue 4, R1219-R1226, April 2002

cAMP and in vivo hypoxia induce tob, ifr1, and fos expression in erythroid cells of the chick embryo

Stefanie Dragon¹, Nina Offenhäuser²^,³, and Rosemarie Baumann¹

¹ Physiologisches Institut, Universität Regensburg, 93053 Regensburg, Germany; ² European Institute for Oncology, 20141 Milan; and ³ FIRC Institute for Molecular Oncology, 20139 Milan, Italy

During avian embryonic development, terminal erythroid differentiation occurs in the circulation. Some of the key events,such as the induction of erythroid 2,3-bisphosphoglycerate (2,3-BPG),carbonic anhydrase (CAII), and pyrimidine 5'-nucleotidase (P5N)synthesis are oxygen dependent (Baumann R, Haller EA, SchöningU, and Weber M, Dev Biol 116: 548-551, 1986; Dragon S and BaumannR, Am J Physiol Regulatory Integrative Comp Physiol 280: R870-R878,2001; Dragon S, Carey C, Martin K, and Baumann R, J Exp Biol 202:2787-2795, 1999; Dragon S, Glombitza S, Götz R, and Baumann R,Am J Physiol Regulatory Integrative Comp Physiol 271: R982-R989,1996; Dragon S, Hille R, Götz R, and Baumann R, Blood 91: 3052-3058,1998; Million D, Zillner P, and Baumann R, Am J Physiol RegulatoryIntegrative Comp Physiol 261: R1188-R1196, 1991) in an indirectway: hypoxia stimulates the release of norepinephrine (NE)/adenosineinto the circulation (Dragon et al., J Exp Biol 202: 2787-2795,1999; Dragon et al., Am J Physiol Regulatory Integrative CompPhysiol 271: R982-R989, 1996). This leads via erythroid $beta$ -adrenergic/adenosineA₂ receptor activation to a cAMP signal inducing several proteinsin a transcription-dependent manner (Dragon et al., Am J PhysiolRegulatory Integrative Comp Physiol 271: R982-R989, 1996; Dragonet al., Blood 91: 3052-3058, 1998; Glombitza S, Dragon S, BerghammerM, Pannermayr M, and Baumann R, Am J Physiol Regulatory IntegrativeComp Physiol 271: R973-R981, 1996). To understand how the cAMP-dependentprocesses are initiated, we screened an erythroid cDNA libraryfor cAMP-regulated genes. We detected three genes that were stronglyupregulated (>5-fold) by cAMP in definitive and primitive redblood cells. They are homologous to the mammalian Tob, Ifr1, andFos proteins. In addition, the genes are induced in the intactembryo during short-term hypoxia. Because the genes are regulatorsof proliferation and differentiation in other cell types, we suggestthat cAMP might promote general differentiating processes in erythroidcells, thereby allowing adaptive modulation of the latest stepsof erythroid differentiation during developmentalhypoxia.

erythropoiesis; terminal differentiation; adaptation; gene expression

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