Abstract
V-ErbA, a mutated thyroid hormone receptor (TR) alpha cooperates with tyrosine kinase oncoproteins to induce fatal erythroleukemia in chicks. In vitro, v-ErbA employs a similar cooperation to induce sustained proliferation and arrest differentiation of committed erythroid progenitors. V-ErbA has been proposed to function as a dominant-negative c-ErbA/TR alpha, since it lacks an AF-2 transactivation domain and cannot be activated by hormone but retains the capacity to bind corepressors. However, v-ErbA fails to heterodimerize with the coreceptor RXR, exhibits an altered DNA binding specificity and fails to suppress the action of coexpressed TR alpha/c-ErbA in erythroblasts. In this paper, we identify a novel mechanism by which v-ErbA contributes to leukemogenesis. Recently, the glucocorticoid receptor (GR) was identified as a key regulator of proliferation and differentiation in normal erythroid progenitors. For this, the GR required to cooperate with endogenous receptor tyrosine kinases (c-Kit) and with the estrogen receptor (ER). Here, we demonstrate that v-ErbA can substitute for the ligand-activated GR and ER, inducing proliferation and arresting differentiation in the presence of specific GR and ER antagonists. Like the GR, v-ErbA required to cooperate with c-Kit for both proliferation induction and differentiation arrest, being devoid of biological activity in the absence of an active c-Kit. In self-renewing erythroblasts, v-ErbA not only repressed known v-ErbA target genes but also maintained high expression of c-myb. These biological activities of v-ErbA depended on distinct mutations in the DNA-binding domain. Additionally, v-ErbA acted as a partial, weak repressor of c-ErbA/TR alpha function in normal erythroblasts. It could be converted into a truly dominant-negative receptor by restoring its ability to heterodimerize with RXR.
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