Structural organization of upstream exons and distribution of transcription start sites in the chicken c-myb gene

Selective Sp1 and Sp3 binding is crucial for activity of the integrin alphaV promoter in cultured endothelial cells

Human integrin alphavbeta receptors are expressed in a number of cells and their expression is regulated at the level of transcription and by post-transcriptional mechanisms. A substantial body of research exists on the structure, function, molecular biology and physiological significance of alphav integrin receptors. However, the importance of particular cis-acting DNA elements or trans-acting nuclear factors in the regulation of the alphav gene promoter is still not adequately understood. Previous functional analysis of the alphav gene 5' flanking region in transfected cultured cells identified cis elements critical for alphav transcription within a 222-bp region. To define further the location of this enhancing element, we performed DNase I footprinting of the human alphav gene promoter between -522 and the translation initiation site. For this purpose, nuclear extracts of alphavbeta3-positive cells, human umbilical vein endothelial cells, were used. Nuclear proteins of endothelial cells strongly protected essentially one region corresponding to the sequence between -194 and -172 of the alphav promoter region. Electrophoretic mobility shift assays with different oligonucleotides, and competition analysis identified a CTCCTCCTC sequence that is directly involved in the transcriptional activity of the alphav promoter. Purified Sp1 alone produced an identical footprint, and DNA binding assays using anti-Sp1 and anti-Sp3 antibodies showed that transcription factors Sp1 and Sp3 were the major nuclear proteins bound to this region.

Transcriptional regulation of the generic promoter III of the rat prolactin receptor gene by C/EBPbeta and Sp1

Three promoters are operative in the rat prolactin receptor gene as follows: promoter I (PI) and II (PII) are specific for the gonads and liver, respectively, and promoter III (PIII) is common to several tissues. To investigate the mechanisms controlling the activity of promoter III, its regulatory elements and transcription factors were characterized in gonadal and non-gonadal cells. The TATA-less PIII domain was localized to the region -437 to -179 (ATG +1) containing the 5'-flanking region and part of the non-coding first exon. Within the promoter domain, a functional CAAT-box/enhancer binding protein (C/EBP) (-398) and an Sp1 element (-386), which bind C/EBPbeta and Sp1/Sp3, respectively, contribute individually to promoter activation in gonadal and non-gonadal cells. However, significant redundancy was demonstrated between these elements in non-gonadal cells. Additionally, an element within the non-coding exon 1 (-338) is also required for promoter activity. Activation of PIII by the widely expressed Sp1 and C/EBPbeta factors explains its common utilization in multiple tissues. Moreover, whereas the rat and mouse PIII share similar structure and function, the mouse PI lacks the functional SF-1 element and hence is inactive. These findings indicate that promoter III is of central importance in prolactin receptor gene transcription across species.

Sp1 is a critical regulator of the Wilms' tumor-1 gene

We performed deletion analysis of WT1-reporter constructs containing up to 24 kilobases of 5'-flanking and first intron WT1 sequence in stably transfected cultured cells as an unbiased approach to identify cis elements critical for WT1 transcription. Although not a tissue-specific element, a proximate 9-base pair CTC repeat accounted for approximately 80% of WT1 transcription in this assay. Enhancer activity of the element and mutated versions correlated completely with their ability to form a DNA-protein complex in gel shifts. Antibody supershift, oligonucleotide competition, and Southwestern studies indicated that the CTC-binding factor is the transcriptional activator Sp1. Sp1 binds the CTC repeat with an affinity, KD = 0.37 nM, at least as high as the consensus GC box. Similar CTC repeats are found in promoters of other growth-related genes. Because Sp1 is important for WT1 expression, we examined Sp1 immunohistochemistry in fetal and adult kidney. In a pattern that precedes that of WT1 message, Sp1 immunostaining was highest in uninduced mesenchyme, early tubules, developing podocytes, and mature glomeruli, but was minimal in mature proximal tubules. This work suggests abundant Sp1 may be a prerequisite for WT1 expression, and that Sp1 may have a wider role in nephrogenesis.

c-myb intron I protein binding and association with transcriptional activity in leukemic cells

Specific binding of nuclear proteins to the region of transcriptional attenuation has been shown to modulate the expression of c-myb, a nuclear proto-oncogene preferentially expressed in lympho-hematopoietic cells. Here, it plays an important role in processes of differentiation and proliferation. The mechanism that regulates c-myb expression is not yet fully understood. The block of transcriptional elongation which has been mapped to a 1 kb region within murine intron 1 may represent one regulatory pathway. The DNA sequences containing the transcriptional pause site are well conserved between murine and human species, thus Implying similar transcription-control strategies. We compared the binding potential of nuclear extracts (from human fibroblasts and MOLT4 as well as murine NIH3T3- and 70Z/3B- cell lines) to oligonucleotide sequences previously shown to be target binding sites in the murine system. One complex containing a 70 D protein was found to be associated specifically with transcriptionally active leukemia cells. We performed transient expression studies with a CAT reporter construct containing this putative enhancer sequence and yielded significant CAT activity. We identified further a putative 20 kD repressor protein in transcriptionally silent cells and demonstrated that c-Jun is part of an ubiquitously present complex. Our results confirm the participation of intron 1 in transcriptional regulation of the c-myb gene (in mouse and human) and implicate multiple and complex regulatory mechanisms of activation during myelomonocytic differentiation and leukemic cell growth control.