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.     

Assessment of promoter elements of the germ cell-specific proacrosin gene

Presence of the simian virus 40 (SV40) has recently been demonstrated in a relatively high percentage of human mesotheliomas and it is associated with the development of these malignancies in pleural cavities. Therefore, we have initiated a study to identify candidate peptides presented by the human HLA-A*0201 molecule for vaccination approaches against SV40 and monitoring of SV40 directed human immune responses. Initial screening of SV40 large T (Tag) domains required for transformation of cells for HLA-A*0201 binding motifs revealed ten possible binding peptides. Screening of these candidate peptides showed that seven of the ten peptides could bind and stabilize HLA-A*0201 molecules. In an in vitro immunization assay the two peptides with the highest binding affinity for HLA-A*0201, Tag aa 396-405 and aa 577-585, were tested for their ability to induce peptide specific cytotoxic T cells in two healthy donors. One donor developed cytotoxic T cells against Tag aa 396-405 and in T cell cultures of both donors Tag aa 577-585 specific T cells were initiated. The T cells against Tag aa 577-585 not only recognized and killed peptide pulsed cells, but, most importantly, SV40 transformed human mesothelial cells. This is the first demonstration of the induction of SV40 specific human cytotoxic T lymphocytes that recognize endogenously processed peptides from SV40. This peptide identification study opens the possibility to investigate immune responses against SV40 in mesothelioma patients and in individuals exposed to SV40.     

Gelatinase A expression in endothelial cells is regulated by at least two cis-acting promoter elements.

Increased expression of gelatinase A is associated with both angiogenesis and alterations in blood vessel structure. Heart-derived endothelial cells derived from spontaneously hypertensive rats (SHR) were found to express significantly more gelatinase A in culture, both at the protein and mRNA level, than endothelial cells from normotensive Wistar-Kyoto (WKY) rats. Other matrix metalloproteinases, as well as their tissue inhibitors, were not differentially regulated. A 1683 bp gelatinase A promoter fragment linked to a luciferase reporter demonstrated up to 40-fold more activity when transfected into SHR-derived cells versus WKY-derived cells. The promoter region between -1324 and -1272, previously termed RE1, contributed up to a five-fold increase in basal promoter activity in both cells, but contributed only 12% of the promoter activity in SHR-derived cells compared to 85% in WKY-derived cells. In SHR-derived cells, but not in WKY-derived cells, a second region between -1435 and -1375, termed RE2, contributed 60% of the total activity of the 1683 bp promoter fragment. Both electrophoretic mobility shift assays and Southwestern blots demonstrated differences in RE2-specific binding factors in nuclear extracts derived from the two cell types. SHR-derived endothelial cells thus represent a new model system to study the regulation of gelatinase A expression, which itself may contribute to the abnormal vascular structure seen in the SHR.     

Two distinct cis-acting elements are involved in light-dependent activation of the pea elip promoter

Light activation of the pea (Pisum sativum) elip gene promoter was analysed in transgenic plants and in transiently transfected plant protoplasts. A series of promoter deletions fused to the gusA reporter was tested, and the results obtained by the two experimental approaches were in good agreement. We identified two nucleotide sequence elements involved in light-regulated expression of the elip gene. One element is similar to the GT1 binding site of the rbcS-3A gene, and the other resembles a G-box-like ACGT element. The region containing both elements was able to confer light responsiveness on a heterologous basic promoter. Electrophoretic mobility shift assays demonstrated that each element is specifically recognized by DNA-binding proteins present in nuclear extracts from pea seedlings. The G-box-like ACGT element is necessary but not sufficient for light inducibility, indicating that the two elements act together in confering light responsiveness.     

Cooperation of two distinct cis-acting elements is necessary for the S phase-specific activation of the wheat histone H3 promoter

We have previously shown that the proximal promoter region (−185 to +57) of the wheat histone H3 gene ( TH012 ) is sufficient for regulating S phase-specific expression of a reporter GUS gene. To define the cis -acting element(s) responsible for S phase-specific expression, GUS fusion genes under the control of wild-type or variously mutated H3 promoters were stably introduced into cultured rice Oc cells and their temporal expression was analyzed during the cell cycle by quantitative S1 analysis. The S phase-specific expression of the full-sized promoter (−1716 to +52) was significantly impaired by short internal deletions disrupting the type I element from −175 to −158 (CCACGTCACCaATCCGCG), composed of the Hex (CCACG-TCA) and reverse-oriented Oct (GATCCGCG) motifs. Moreover, the H3 proximal promoters (−184 to +52) harboring base-substitution mutations in either or both of the Hex and Oct motifs could no longer activate gene expression during the S phase. These results indicate that the type I element is the first cis-acting element identified responsible for the S phase-specific expression of plant histone genes. Results also suggested the presence of a redundant cis -acting element(s) responsible for S phase-specific expression in the H3 far-upstream region (−1716 to −185).     

Identification of potential protein regulators bound to the tissue-specific positive and negative cis-acting elements of a green tissue-specific promoter in rice

Although some tissue-specific cis-acting elements have been identified, the molecular mechanisms of tissue-specific gene expression remain elusive. Here, we report the identification by a yeast one-hybrid screen of five proteins, Os10g31330/glycine-rich, Os01g10400/metallothionein-like, Os05g51180/nucleic acid-binding, Os05g37930/unknown and Os01g01689/phosphatidylinositol kinase that bound to either the positive or negative tissue-specific cis elements of a rice promoter from the green tissue-specific D54O gene. These proteins are localised in the nucleus and the genes encoding them are differentially expressed in different tissues, further suggesting their putative roles in regulating gene expression. These results suggest that the green tissue-specific expression of the D54O gene may be regulated by the interaction of multiple proteins with cis elements in the promoter region.