Differential binding of a CCAAT DNA binding factor to the promoters of the mouse alpha 2(I) and alpha 1(III) collagen genes

An exonuclease III assay (Wu, C. (1985) Nature 317, 84-87) was used to identify in nuclear extracts of NIH 3T3 cells a factor which binds to the CCAAT segment of the alpha 2(I) collagen promoter between -80 and -84. This sequence is located on the coding strand in the alpha 2(I) collagen promoter. Binding is specific since only promoter fragments which contain the CCAAT box sequences on one or the other DNA strand inhibit binding to the alpha 2(I) collagen CCAAT box. The CCAAT binding factor protects approximately 26 base pairs of the alpha 2(I) collagen promoter from exonuclease III digestion. Binding to the alpha 2(I) collagen promoter CCAAT box is not inhibited by a fragment of the alpha 1(III) collagen promoter (from -396 to +16), which does not contain a CCAAT sequence on either one or the other strand. Our data suggest that two genes such as the alpha 2(I) and alpha 1(III) collagen genes, which are coordinately expressed in many tissues, are not necessarily regulated by the same trans-acting DNA binding proteins.     

Characterization of two distinct positive cis-acting elements in the mouse alpha 1 (III) collagen promoter

We have identified two distinct sequence elements in the mouse alpha 1(III) collagen promoter which are protected from DNase I digestion by the binding of factors present in crude nuclear extracts of NIH 3T3 fibroblasts. Small substitution mutations were introduced into these promoter elements and shown by the gel retardation (gel mobility shift) and DNase I protection assays to decrease or eliminate factor binding to the mutated element but not to the remaining wild-type element, indicating that two distinct factors recognize these separate promoter regions. Region A appears to bind a factor related to the Jun/AP-1 protein, whereas the factor binding to region B remains as yet unidentified. Mutagenesis of either region decreased the activity of the alpha 1(III) collagen promoter in DNA transfection assays by about 3-fold for the A region (located between - 122 and - 106) and about 5-fold for the B region (located between -83 and -61). These results indicate that regions A and B in the mouse alpha 1(III) collagen promoter are positive cis-regulatory elements, independently binding two distinct trans-activating factors.     

Regulation of the murine alpha B-crystallin/small heat shock protein gene in cardiac muscle.

The murine alpha B-crystallin/small heat shock protein gene is expressed at high levels in the lens and at lower levels in the heart, skeletal muscle, and numerous other tissues. Previously we have found a skeletal-muscle-preferred enhancer at positions -427 to -259 of the alpha B-crystallin gene containing at least four cis-acting regulatory elements (alpha BE-1, alpha BE-2, alpha BE-3, and MRF, which has an E box). Here we show that in transgenic mice, the alpha B-crystallin enhancer directs the chloramphenicol acetyltransferase reporter gene driven by the alpha B-crystallin promoter specifically to myocardiocytes of the heart. The alpha B-crystallin enhancer was active in conjugation with the herpes simplex virus thymidine kinase promoter/human growth hormone reporter gene in transfected rat myocardiocytes. DNase I footprinting and site-specific mutagenesis experiments showed that alpha BE-1, alpha BE-2, alpha BE-3, MRF, and a novel, heart-specific element called alpha BE-4 are required for alpha B-crystallin enhancer activity in transfected myocardiocytes. By contrast, alpha BE-4 is not utilized for enhancer activity in transfected lens or skeletal muscle cell lines. Alpha BE-4 contains an overlapping heat shock sequence and a reverse CArG box [5'-GG(A/T)6CC-3']. Electrophoretic mobility shift assays with an antibody to serum response factor and a CArG-box-competing sequence from the c-fos promoter indicated that a cardiac-specific protein with DNA-binding and antigenic similarities to serum response factor binds to alpha BE-4 via the reverse CArG box; electrophoretic mobility shift assays and antibody experiments with anti-USF antiserum and heart nuclear extract also raised the possibility that the MRF E box utilizes USF or an antigenically related protein. We conclude that the activity of the alpha B-crystallin enhancer in the heart utilizes a reverse CArG box and an E-box-dependent pathway.     

The PRE and PQ box are functionally distinct yeast pheromone response elements.

Saccharomyces cerevisiae mating pheromones function by binding to cell surface receptors and activating signal transduction processes which regulate gene expression. In this report, we have analyzed the minimum sequence requirements for conferring both a and alpha mating pheromone inducibilities onto a heterologous promoter. Here we show that the repetitive pheromone response element (PRE) which binds to STE12 protein is sufficient to confer pheromone responsiveness only when present in multiple copies. Moreover, by itself, it is preferentially responsive to alpha factor in a cells. In contrast, a single copy of the PQ box of the STE3 upstream activation sequence (UAS) is sufficient to confer a-factor responsiveness in alpha cells. The PQ box binds both MCM1 and MAT alpha 1 in a cooperative manner, and neither the P nor Q site alone is sufficient to confer a-factor responsiveness. In a cells, however, even multiple copies of the PQ box fail to confer alpha-factor responsiveness. Therefore, the PRE and the PQ box are functionally distinct pheromone-responsive elements with opposite cell type specificities. Moreover, these results indicate that the MCM1 protein functions in a signal transduction pathway in a manner analogous to that of its mammalian homolog, the serum response factor, which regulates the expression of the c-fos proto-oncogene in mammals.