Structure and expression of the scallop Omega-crystallin gene. Evidence for convergent evolution of promoter sequences.

Omega-crystallin of the scallop lens is an inactive aldehyde dehydrogenase (1A9). Here we have cloned the scallop Omega-crystallin gene. Except for an extra novel first exon, its 14-exon structure agrees well with that of mammalian aldehyde dehydrogenases 1, 2, and 6. The -2120/+63, -714/+63, and -156/+63 Omega-crystallin promoter fragments drive the luciferase reporter gene in transfected alphaTN4-1 lens cells and L929 fibroblasts but not in Cos7 cells. Putative binding sequences for cAMP-responsive element-binding protein (CREB)/Jun, alphaACRYBP1, AP-1, and PAX-6 in the Omega-crystallin promoter are surprisingly similar to the cis-elements used for lens promoter activity of the mouse and chicken alphaA-crystallin genes, which encode proteins homologous to small heat shock proteins. Site-specific mutations in the overlapping CREB/Jun and Pax-6 sites abolished activity of the Omega-crystallin promoter in transfected cells. Gel shift experiments utilizing extracts from the alphaTN4-1, L929, and Cos7 cells and the scallop stomach and oligonucleotides derived from the putative binding sites of the Omega-crystallin promoter showed complex formation. Gel shift experiments showed binding of recombinant Pax-6 and CREB to their respective sites. Our data suggest convergent evolutionary adaptations that underlie the preferential expression of crystallin genes in the lens of vertebrates and invertebrates.     

Lens-preferred activity of the −1809/+46 mouse αA-crystallin promoter in stably integrated chromatin

The αA-crystallin gene is expressed in a highly lens preferred manner. Here we show that the mouse αA-crystallin −1809/+46 promoter fragment displays lens-preferred activity in transgenic mice and in stably transfected lens cells. These findings are in contrast to the lack of activity of this promoter previously reported in transiently transfected lens cells. Our current findings suggest that the −1809/+46 mouse αA-crystallin promoter functions in a lens preferred manner when stably integrated into chromatin.     

Regulation of alphaA-crystallin via Pax6, c-Maf, CREB and a broad domain of lens-specific chromatin

Pax6 and c-Maf regulate multiple stages of mammalian lens development. Here, we identified novel distal control regions (DCRs) of the alphaA-crystallin gene, a marker of lens fiber cell differentiation induced by FGF-signaling. DCR1 stimulated reporter gene expression in primary lens explants treated with FGF2 linking FGF-signaling with alphaA-crystallin synthesis. A DCR1/alphaA-crystallin promoter (including DCR2) coupled with EGFP virtually recapitulated the expression pattern of alphaA-crystallin in lens epithelium and fibers. In contrast, the DCR3/alphaA/EGFP reporter was expressed only in 'late' lens fibers. Chromatin immunoprecipitations showed binding of Pax6 to DCR1 and the alphaA-crystallin promoter in lens chromatin and demonstrated that high levels of alphaA-crystallin expression correlate with increased binding of c-Maf and CREB to the promoter and of CREB to DCR3, a broad domain of histone H3K9-hyperacetylation extending from DCR1 to DCR3, and increased abundance of chromatin remodeling enzymes Brg1 and Snf2h at the alphaA-crystallin locus. Our data demonstrate a novel mechanism of Pax6, c-Maf and CREB function, through regulation of chromatin-remodeling enzymes, and suggest a multistage model for the activation of alphaA-crystallin during lens differentiation.     

儿童孤独症相关基因NRXN1β启动子功能分析

Neurexins是神经特异性突触蛋白,Neurexin1β结构的异常与孤独症密切相关。为分析孤独症相关基因NRXN1β最小启动子和调节基因转录的功能元件,本文构建了含NRXN1β基因上游调控区不同区域的荧光素酶报告基因质粒,转染HEK293细胞后,利用检测双荧光素酶报告基因的转录活性以确定NRXN1β基因最小启动子区,进而筛选出相应的显著增强或抑制报告基因活性的功能区;同时,为鉴定顺式作用元件,利用基因定点突变技术对基因功能区内和临近DNA序列进行连续的碱基突变;最后,采用转录因子预测工具对启动子功能区内的转录调控元件进行分析。结果首次发现NRXN1β最小启动子区位于-88~+156 bp,-88~-73 bp和+156~+149 bp可增强启动子活性,+229~+419 bp可抑制启动子活性,且-84~-63 bp为能够显著性增强启动子活性的顺式作用元件,该区域可能存在DBP(Albumin D-site-binding protein,DBP)和ABF1(Autonomously replicating sequence-binding factor 1,ABF1)两个转录因子结合位点。