The transcription regulatory properties of murine B-myb protein were compared to those of c-myb. Whereas c-Myb trans-activated an SV40 early promoter containing multiple copies of an upstream c-Myb DNA-binding site (MBS-1), and similarly the human c-myc promoter, B-Myb was unable to do so. Full-length B-Myb translated in vitro did not bind MBS-1; however, truncation of the B-Myb C-terminus or fusion of the B-Myb DNA-binding domain to the c-Myb C-terminus showed that it was inherently competent to interact with this motif. Further evidence from co-transfection experiments, demonstrating that B-Myb inhibited trans-activation by c-Myb, suggested that failure of B-Myb to trans-activate these promoters did not simply occur through lack of binding to MBS-1. Moreover, using GAL4/B-Myb fusions, it was found that an acidic region of B-Myb, which by comparison to c-Myb was expected to contain a transcription activation domain, actually had no inherent trans-activation activity and indeed appeared to trans-inhibit c-Myb. In contrast to the above findings, both B-Myb and c-Myb were able to weakly trans-activate the DNA polymerase alpha promoter. Results obtained here demonstrate that the activities of B-Myb and c-Myb are clearly distinct and suggest that these related proteins may have different functions in regulation of target gene expression.
Adipocytes provide a model cell system for exploring the complexities of nuclear hormone receptor transcriptional regulation. Adipocytes produce lipid and cholesterol metabolites which can serve as activating ligands for many of the classic and "orphan" nuclear hormone receptors. At the same time, nuclear hormone receptors directly control adipocyte commitment. The recently described nuclear hormone receptor coactivators and corepressors provide an additional level of complexity to this system. This review emphasizes available in vitro and in vivo models and discusses them in the context of current controversies and future experimental directions.
Lipoprotein lipase, an enzyme of central importance to lipid metabolism, is most abundant in adipose tissues, cardiac and skeletal muscle, and portions of the brain. The current work examined the murine lipoprotein lipase promoter using transient transfection, gel-retention analyses, and transgenic mice. Maximum expression of the luciferase reporter gene in transfected cells was observed with -101 bp of the promoter. Nuclear extracts from tissues expressing lipoprotein lipase contained DNA binding proteins that recognize the CCAAT box (-64 bp) and an octamer motif (-46 bp); this combination of factors was absent in nonexpressing tissues. Transgenic mice from three of five founders prepared with -1,824-bp promoter constructs expressed the luciferase reporter gene at highest levels in brown adipose tissue and brain. These findings suggest that the -1,824-bp promoter region contains sequence elements responsible for the tissue-specific transcription of lipoprotein lipase in vivo.
The bone morphogenetic proteins, members of the transforming growth factor-beta cytokine family, induce the osteoblast phenotype and promote osteogenesis in the bone marrow stroma. Simultaneously, these cytokines inhibit other mesodermal differentiation pathways, such as adipogenesis and myogenesis. The receptors for the bone morphogenetic proteins belong to a family of transmembrane serine/ threonine kinase TGF beta type I and type II receptor proteins. In man, these include the activin receptor like kinase-3 (ALK-3), a type I receptor protein. We have used a polyclonal antibody to examine the expression of the native murine ALK-3 protein in murine tissues and bone morphogenetic protein-responsive cell lines. On Western blot analyses, we found that the native 85 kDa native ALK-3 protein was expressed in a number of murine tissues; protein and mRNA levels did not necessarily correlate. Two bone morphogenetic protein-responsive cell lines, BMS2 bone marrow stromal cells and C2C12 myoblasts, expressed the ALK-3 protein constitutively. Cell differentiation was accompanied by modest changes in ALK-3 protein levels. Immunoprecipitation of the ALK-3 protein cross linked to [125I] BMP-4 revealed two major receptor complexes of approximately 90 kDa and 170 kDa in size. Biotin surface-labeling experiments revealed that the 85 kDa ALK-3 protein was constitutively associated with a novel 140 kDa surface glycoprotein. Deglycosylation reduced the protein's size to 116 kDa, comparable in size to that of the recently described BMP type II receptor. These findings support the current model that BMP interacts with a pre-existing complex consisting of a type I and type II receptor protein.
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