c-myb对人绒毛膜促性腺激素诱导的大鼠睾丸间质细胞睾酮分泌的影响

采用离体细胞体外孵育法,观察反义c-myb寡脱氧核苷酸(oligodeoxynucletides,ODN)对人绒毛膜促性隙激素(humanchorionic-gonadotropin hormone,hCG)诱导的人鼠间质细胞睾酮分泌的影响,并进一步探讨了外源性二丁酰cAMP(dbcAMP)、Ca^2 以及蛋白质抑制剂放线菌酮(cycloheximide,CYX)对间质细胞中c-Myb蛋白表达和睾酮分泌的作用。结果表明,反义c-myb ODN呈剂量依赖性地抑制hCG诱导的离体间质细胞的睾酮分泌,同时使间质细胞中c-Myb蛋白免疫组化染色下降：而无义tat ODN没有相应的作用。100μmol／L的dbc AMP可进一步促使hCG秀导的间质细胞分泌睾酮,并且使间质细胞中c-Myb蛋白免疫组化染色IOD值升高,与hCG组相比,具有统计学意义。钙离子通道阻断剂维拉帕米(10μmol／L)和蛋白质抑制剂放线菌酮(50μg／ml)可使hCG诱导的大鼠间质细胞的睾酮分泌下降,并使间质细胞的c-Myb蛋白免疫组化染色降低。该结果说明c-myb参与hCG诱导的大鼠间质细胞睾酮分泌作用。     

Characterization of the c-Myb-responsive region and regulation of the human type I collagen alpha 2 chain gene by c-Myb

We have characterized the role of c-Myb and B-Myb in the regulation of human type I collagen alpha2 chain gene expression in fibroblastic cells. We have identified four Myb-binding sites (MBSs) in the promoter. Transactivation assays on wild type and mutant promoter-reporter constructs demonstrated that c-Myb, but not B-Myb, can transactivate the human type I collagen alpha 2 chain gene promoter via the MBS-containing region. Electrophoretic mobility shift assay experiments showed that c-Myb specifically binds to each of the four MBS; however, the mutagenesis of site MBS-4 completely inhibited transactivation by c-Myb, at least in the full-length promoter. In agreement with these results, c-myb(-/-) mouse embryo fibroblasts (MEFs) showed a selective lack of expression of type I collagen alpha 2 chain gene but maintained the expression of fibronectin and type III collagen. Furthermore, transforming growth factor-beta induced type I collagen alpha 2 chain gene expression in c-myb(-/-) MEFs, implying that the transforming growth factor-beta signaling pathway is maintained and that the absence of COL1A2 gene expression in c-myb(-/-) MEFs is a direct consequence of the lack of c-Myb. The demonstration of the importance of c-Myb in the regulation of the type I collagen alpha 2 chain gene suggests that uncontrolled expression of c-Myb could be an underlying mechanism in the pathogenesis of several fibrotic disorders.     

Functional analysis of c-Myb protein in T-lymphocytic cell lines shows that it trans-activates the c-myc promoter.

The function of c-Myb protein was revealed by transfecting an expression vector containing the entire c-Myb protein-coding sequence into the murine CTLL-2 T-cell line. Expressions of high levels of c-Myb protein did not alter the expression of several T-cell markers, c-fos mRNA expression, responses to interleukin-2, and growth characteristics of these cells. Interestingly, expression of the c-myc gene was drastically increased in this clone. Further, the c-myb expression plasmid, but not a frameshift mutant of c-myb, enhanced the expression of a hybrid construct of c-myc promoter linked to a reporter gene by 8- to 14-fold. These results demonstrate a role of c-Myb protein in c-myc gene expression.     

A central role for a single c-Myb binding site in a thymic locus control region.

Locus control regions (LCRs) are powerful assemblies of cis elements that organize the actions of cell-type-specific trans-acting factors. A 2.3-kb LCR in the human adenosine deaminase (ADA) gene first intron, which controls expression in thymocytes, is composed of a 200-bp enhancer domain and extended flanking sequences that facilitate activation from within chromatin. Prior analyses have demonstrated that the enhancer contains a 28-bp core region and local adjacent augmentative cis elements. We now show that the core contains a single critical c-Myb binding site. In both transiently cotransfected human cells and stable chromatin-integrated yeast cells, c-Myb strongly transactivated reporter constructs that contained polymerized core sequences. c-Myb protein was strongly evident in T lymphoblasts in which the enhancer was active and was localized within discrete nuclear structures. Fetal murine thymus exhibited a striking concordance of endogenous c-myb expression with that of mouse ADA and human ADA LCR-directed transgene expression. Point mutation of the c-Myb site within the intact 2.3-kb LCR severely attenuated enhancer activity in transfections and LCR activity in transgenic thymocytes. Within the context of a complex enhancer and LCR, c-Myb can act as an organizer of thymocyte-specific gene expression via a single binding site.     

Studies of c-myb gene regulation in MRL-lpr/lpr mice. Identification of a 5' c-myb nuclear protein binding site and high levels of binding factors in nuclear extracts of lpr/lpr lymph node cells

Lymph node T cells of MRL-lpr/lpr mice are characterized by the production of very large amounts of c-myb mRNA. To study the control of c-myb expression, a search was made for sites on the 5' c-myb gene which could bind regulatory proteins. DNase I digestion of nuclear chromatin uncovered four DNase I hypersensitive sites in the first intron of the c-myb gene, and a single site approximately 300 bp 5' to the initiation codon. Lambda exonuclease digestion of a 5'-myb fragment in the presence of nuclear extracts from either MRL-lpr/lpr PLN or EL-4 thymoma revealed stop sites approximately 300 bp 5' (-271 to -322) to the ATG initiation codon. DNase I footprint analysis demonstrated a guanine-cytosine enriched region of potential binding sites (-274 to -319) in the region of the stop sites and a fifth potential binding site closer to the initiation codon (-163 to -168). Specific gel shift bands were detected by a 5'-myb fragment (-346 to -155) with extracts from a number of different lymphoid cell lines and the appropriate specific and non-specific competitor DNA. The DNA giving rise to these gel shift bands encompassed the region defined by the stop site and footprinting studies. To determine whether or not the protein binding to the 5' c-myb gene at -274 to -319 was associated with increased c-myb mRNA, we studied nuclear extracts of several cell lines and compared the amount of binding to the amount of c-myb mRNA found on Northern analyses. Among the cell lines, there was a correlation between c-myb expression and the amount of the 5'-myb DNA binding protein. In addition, MRL-lpr/lpr lymph node cells had high c-myb expression and large amounts of the 5'-myb binding protein. This result suggests that the binding may play some role in the c-myb expression. Moreover, the most immature cell lines had the greatest amount of the binding factor, suggesting that its regulatory effect on c-myb expression might be important in early differentiation events.     

Connective tissue growth factor regulates the key events in tubular epithelial to myofibroblast transition in vitro

Connective tissue growth factor (CTGF) has been reported to play an important role in mediating the profibrotic effects of transforming growth factor-beta (TGF-beta) in various renal diseases. To elucidate the role of CTGF in renal tubular epithelial-myofibroblast transdifferentiation, we examined the expression of alpha-smooth muscle actin (alpha-SMA), vimentin, tenascin-C, and collagen IV expression upon the stimulation of CTGF in cultured human proximal tubular epithelial cell line (HKC), and further investigated the effects of endogenous CTGF blockade on the transdifferentiation process induced by TGF-beta. It is revealed that upon the stimulation of recombinant human CTGF (rhCTGF, 2.5 or 5.0 microg/L), the expression of alpha-SMA and tenascin-C mRNA increased significantly (p<0.01), while collagen IV gene expression decreased significantly (p<0.01), all in a dose-dependent manner. The percentage of alpha-SMA-positive cells was significantly larger in the rhCTGF-stimulated groups than that in negative control (38.9%, 65.5% vs. 2.4%, respectively, p<0.01) as confirmed by flow cytometry. Both cytoplasmic and secretory tenascin-C expression was upregulated by the stimulation of rhCTGF (p<0.01). Under this condition, collagen IV secreted into the culture media was lowered markedly (p<0.01). On RT-PCR analysis, TGF-beta1 upregulated CTGF gene expression, preceding that of alpha-SMA. The alpha-SMA mRNA expression induced by TGF-beta1 was significantly inhibited by CTGF antisense oligodeoxynucleotide (ODN) transfection (p<0.01). With prolonged incubation time, CTGF antisense ODN also inhibited intracellular alpha-SMA protein synthesis, as demonstrated by indirect immuno-fluorescence. So it is concluded that CTGF could promote the transdifferentiation of human renal tubular epithelial cells towards myofibroblasts in vitro, both directly and as a downstream mediator of TGF-beta, and CTGF blockade would be a possible therapeutic target against tubulointerstitial fibrosis.     

TRAF7 sequesters c-Myb to the cytoplasm by stimulating its sumoylation

Small ubiquitin-related modifiers (SUMOs) are proteins that are posttranslationally conjugated to diverse proteins. The c-myb proto-oncogene product (c-Myb) regulates proliferation and differentiation of hematopoietic cells. PIASy is the only known SUMO E3 ligase for c-Myb. Here, we report that TRAF7 binds to c-Myb and stimulates its sumoylation. TRAF7 bound to the DNA-binding domain of c-Myb via its WD40 repeats. TRAF7 has an E3 ubiquitin ligase activity for self-ubiquitination, but TRAF7 also stimulated the sumoylation of c-Myb at Lys-523 and Lys-499, which are the same sites as those used for PIASy-induced sumoylation. TRAF7 inhibited trans-activation induced by wild-type c-Myb, but not by the sumoylation site mutant of c-Myb. The expression of both c-myb and TRAF7 was down-regulated during differentiation of M1 cells. Endogenous TRAF7 localized to both the cytoplasm and nucleus of M1 cells. Consistent with this, significant amounts of sumoylated c-Myb were found in the cytoplasm of M1 cells, whereas nonsumoylated c-Myb was found predominantly in the nucleus. Overexpressed TRAF7 was localized in the cytoplasm of CV-1 cells, and sequestered c-Myb and SUMO1 in the cytosol, whereas PIASy was localized in the nucleus. Thus, TRAF7 negatively regulates c-Myb activity by sequestering c-Myb to the cytosol via sumoylation.