Long time-course monitoring of ZFP809-mediated gene silencing in transgene expression driven by promoters containing MLV-derived PBS

Expression of Moloney murine leukemia virus (MoMLV)-typed retroviral vectors is strictly suppressed in immature cells such as embryonic stem cells. The phenomenon known as gene silencing is primed by the sequence-specific binding of the zinc finger protein 809 (ZFP809) to the primer-binding site of the vectors. However, it has yet to be determined whether the ZFP809-mediated gene silencing is maintained over a long period. In this study, we established an experimental system that can monitor gene silencing during a long-term cell culture using flow cytometry technology combined with fluorescent reporters for the expression of ZFP809 and the transgene expression driven by the promoters of interest. Time-course analysis using our system revealed that ZFP809 maintains gene silencing effect even at a longtime period. Furthermore, our system was useful for the monitoring of ZFP809-mediated gene silencing regardless of the types of vectors and cell lines.     

Conserved zinc fingers mediate multiple functions of ZFP100, a U7snRNP associated protein

Formation of the 3' end of replication-dependent histone mRNAs is most robust during S phase and is mediated by both the stem-loop binding protein (SLBP) and the U7 snRNP. We previously identified a 100-kDa zinc finger protein (ZFP100) as a component of U7 snRNP that interacts with the SLBP/pre-mRNA complex. Here, we show that myc- or GFP-tagged ZFP100 overexpressed after transfection is concentrated in Cajal bodies (CBs), and unlike components of the spliceosomal snRNPs, photobleaching experiments demonstrate that ZFP100 is stably associated with CBs. Of the 18 zinc fingers contained within ZFP100, the region encompassing fingers 2-6 is sufficient to maintain CB localization. Zn fingers 5-10 are required for maximal binding of ZFP100 to a 20-amino-acid region of Lsm11, a U7 snRNP core protein. Expression of ZFP100 stimulates histone mRNA processing in vivo, assayed by activation of a reporter gene that encodes a GFP mRNA ending in a histone 3' end. Importantly, the domain that is required for CB localization and Lsm11 binding is also sufficient to stimulate histone pre-mRNA processing in vivo. Comparisons with other mammalian ZFP100 orthologs show that the central Zn fingers sufficient for in vivo activity are most highly conserved, whereas the number and sequence of the Zn fingers in the N- and C-terminal domains vary.     

Human and mouse ZFP57 proteins are functionally interchangeable in maintaining genomic imprinting at multiple imprinted regions in mouse ES cells

Genomic imprinting is a common epigenetic phenomenon in mammals. Dysregulation of genomic imprinting has been implicated in a variety of human diseases. ZFP57 is a master regulator in genomic imprinting. Loss of ZFP57 causes loss of DNA methylation imprint at multiple imprinted regions in mouse embryos, as well as in embryonic stem (ES) cells. Similarly, mutations in human ZFP57 result in hypomethylation at many imprinted regions and are associated with transient neonatal diabetes and other human diseases. Mouse and human Zfp57 genes are located in the same syntenic block. However, mouse and human ZFP57 proteins only display about 50% sequence identity with different number of zinc fingers. It is not clear if they share similar mechanisms in maintaining genomic imprinting. Here we report that mouse and human ZFP57 proteins are functionally interchangeable. Expression of exogenous wild-type human ZFP57 could maintain DNA methylation imprint at three imprinted regions in mouse ES cells in the absence of endogenous mouse ZFP57. However, mutant human ZFP57 proteins containing the mutations found in human patients could not substitute for endogenous mouse ZFP57 in maintaining genomic imprinting in ES cells. Like mouse ZFP57, human ZFP57 and its mutant proteins could bind to mouse KAP1, the universal cofactor for KRAB zinc finger proteins, in mouse ES cells. Thus, we conclude that mouse and human ZFP57 are orthologs despite relatively low sequence identity and mouse ES cell system that we had established before is a valuable system for functional analyses of wild-type and mutant human ZFP57 proteins.     

哺乳动物锌指蛋白家族中KRAB功能域的进化

KRAB锌指基因是哺乳动物中最大的转录调控因子家族,它的多数成员在基因组上成簇分布,具有五种不同的亚家族,在功能行使上承担着不同的作用。本文通过对人类、黑猩猩、小鼠、大鼠和狗五种哺乳动物全蛋白质组序列及mRNA组织表达谱分析,验证了C2H2锌指结构在单个KRAB蛋白质中出现的数目多于一般锌指蛋白质;KRAB功能域在各物种中分布显著不同且与分化时间不成正比,这表明KRAB相关功能域多样性在灵长类进化过程中潜在的适应性进化。同时,提出KRAB亚家族进化的路线：即KRAB—Aa为起始家族,Ba由Aa直接演变形成,而Ca,blonga和XRCC-Z种亚型可能经过Ba或直接从Aa演变形成;此外,锌指结构在单个蛋白质中出现个数伴随KRAB功能域自身的进化路线逐渐递增,反映了KRAB功能域在形成新转录调控因子方面的积极作用。