Transforming growth factor-beta (TGF-beta), an ubiquitous regulatory peptide, has diverse effects on the differentiation and behavior of vascular smooth muscle cells (VSMC). However, the molecular mechanism through which TGF-alpha exerts its effects remains obscure. We investigated the phosphoinositide/protein kinase C [PKC] signaling pathway in the action of TGF-beta on cultured embryonic avian VSMC of differing lineage: a) thoracic aorta, derived from the neural crest; and b) abdominal aorta, derived from mesenchyme. The second messenger responsible for activation of PKC is sn-1,2-diacylglycerol [DAG]; TGF-beta increased the mass amounts of DAG in the membranes of neural crest-derived VSMC concurrent with translocation of PKC from the soluble to the membrane fraction, but TGF-beta had no effect on the DAG or PKC of mesenchyme-derived VSMC. TGF-beta potentiated the growth of platelet-derived growth factor (PDGF)-treated, neural crest-derived VSMC; but abolished PDGF-induced growth of mesenchymal cells. It is concluded that molecular and functional responses of VSMC to TGF-beta are heterogeneous and are functions of the embryonic lineage of the VSMC.
The locus control region (LCR) far upstream of the human beta-like globin genes is defined by the preferential chromatin accessibility/DNase I hypersensitivity of four constituent DNA sites HS4, 3, 2, and 1. In an attempt to understand the mechanism of LCR function during early stages of erythropoiesis, a new polymerase chain reaction (PCR) method has been developed to examine the chromatin structure/DNase I hypersensitivity of the LCR in progenitor cells logistically available in limited cell numbers. In erythroid progenitors as well as in multipotent cells with erythroid potential, hypersensitive sites HS4, 3, 2, and 1 were present and the chromatin structure of the LCR was accessible. Moreover, the chromatin structure of the LCR underwent dynamic changes during erythropoiesis. In early erythroid progenitors, the HS2 site was more accessible than the HS3 site. In more mature erythroid progenitors, HS2 became less accessible than HS3 and the other sites. The results indicate that the transcriptional program of the globin genes is encoded, at least in part, in the chromatin accessibility of the LCR. This globin program was apparently initiated in multipotent cells and maintained in erythroid progenitors. Furthermore, the program could be modulated in response to cellular changes accompanying differentiation of the progenitor cells.
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