ABSTRACT. The HS2 enhancer in the locus control region of human beta-like globin genes displays developmental-stage-independent enhancer function. The mechanism by which it regulates the transcription of the globin genes in erythroid cells throughout development is not fully understood. In this paper we dissect the HS2 enhancer into an enhancer core and five modulatory subdomains M1 to M5. The enhancer core possesses developmental-stage-independent enhancer activity. The modulatory subdomains by themselves do not possess such enhancer activity, but they apparently respond to environmental signals and modulate enhancer core activity in a developmental-stage specific manner. M1 located 5' of the core strongly stimulates core activity in K562 cells at the embryonic stage. M2 and M3 located 3' of the core strongly stimulate core activity in MEL cells at the adult stage. Moreover, M3 suppresses core activity at the embryonic stage and exhibits an adult-stage-selector activity. These findings indicate that the apparent developmental-stage-independence of the HS2 enhancer is a result of multiple interactions between the core and the modulatory subdomains located both near and far from the core.

Keywords: Locus control region, HS2 enhancer, modulatory subdomains.

Reprint requests to: Resy Cavallesco, Harvard-MIT Division of Health Science and Technology and Center for Cancer Research, Massachusetts Institute of Technology, Cambridge, MA 02139, phone: (617) 253-4305, fax: (617) 253-3459.

ABSTRACT. During 15 days of treatment of K562 cells with sodium phenylacetate, we observed an increase in the cellular hemoglobin concentration with a similar increase in the expression of gamma-globin mRNA. Morphological studies demonstrated characteristic features of erythroid differentiation and maturation. At the same time there was no change in the level of expression of the cell surface antigenes CD33, CD34, CD45, CD71 and glycophorin A.Likewise, the level of expression of the erythroid transcription factors GATA-1, GATA-2, NF-E2, SCL and RBTN2, all expressed in untreated K562 cells, did not increase during sodium phenylacetate induced erythroid differentiation. The expression of the nuclear factors Evi-1 and c-myb, known to inhibit erythroid differentiation, did not decrease. We conclude that sodium phenylacetate treatment of K562 cells increases gamma-globin mRNA and induces cell maturation as judged by morphology without affecting the expression of the erythroid transcription factors, some of which are known to be involved in the regulation of beta-like globin genes.

Keywords: Transcription factors, sodium phenylacetate, K562 cells, erythroid differentiation, gamma-globin.

Reprint requests to: Charlotte M. Niemeyer, Children's Hospital, University of Freiburg, Mathildenstr. 1, 79106 Freiburg, Germany, phone: 49 761-270 4506, fax: 49 761-270 4518, e-mail: niemeyer@kkl200.ukl.uni-freiburg.de.