Gene silencing: two faces of SIR2

There are still many mysteries surrounding how silenced regions of the eukaryotic genome are created and maintained. But recent discoveries about the most evolutionarily conserved silencing protein, Sir2p, have provided new mechanistic insights into these processes.     

低表达HSP90α和高表达HSP90β HepG2细胞株的建立

目的:建立HSP90α低表达和HSP90β高表达HepG2细胞株。方法:通过电转染方法将质粒pSilencerHSP90α和pSmycHSP90β转染入HepG2细胞中,应用Western-blotting和MTT法分别鉴定转染效果及绘制细胞生长曲线。结果:带有HSP90αsiRNA片段的质粒和带有HSP90β片段的质粒成功转入HepG2中,转染细胞与未转染细胞生长情况无差别。结论:电转染方法可以有效地将质粒转染入HepG2中去,转染细胞的生长情况将不会影响后续实验的结果。     

Lsh controls silencing of the imprinted Cdkn1c gene

Epigenetic regulation, such as DNA methylation plays an important role in the control of imprinting. Lsh, a member of the SNF2 family of chromatin remodeling proteins, controls DNA methylation in mice. To investigate whether Lsh affects imprinting, we examined CpG methylation and allelic expression of individual genes in Lsh-deficient embryos. We report here that loss of Lsh specifically alters expression of the Cdkn1c gene (also known as p57(Kip2)) but does not interfere with maintenance of imprints at the H19, Igf2, Igf2r, Zac1 and Meg9 genes. The reactivation of the silenced paternal Cdkn1c allele correlates closely with a loss of CpG methylation at the 5' DMR at the Cdkn1c promoter, whereas KvDMR1 and DMRs of other imprinted genes were not significantly changed. Chromatin immunoprecipitations demonstrate a direct association of Lsh with the 5' DMR at the Cdkn1c promoter, but not with Kv DMR1 or other imprinted loci. These data suggest that methylation of the 5' DMR plays an important role in the imprinting of the Cdkn1c gene. Furthermore, it suggests that Lsh is not required for maintenance of imprinting marks in general, but is only crucial for imprinting at distinct genomic sites.     

A PCR-based approach to sequence the Candida tropicalis HSP90 gene

The heat shock protein 90 (hsp90) gene sequence is known to be highly conserved across the species barrier. A PCR-based method was thus utilised in an attempt to sequence the Candida tropicalis hsp90 gene. Primers for PCR were designed from conserved regions of the gene, which were identified by comparing the Saccharomyces cerevisiae and Candida albicans hsp90 gene sequences. Different sets of primers were designed to amplify and obtain overlapping DNA sequences of the C tropicalis gene. PCR was carried out on genomic DNA of Candidca tropicalis and the PCR products were cloned into suitable vector molecules for sequencing. In this way, a 2,070-basepair sequence of the C. tropicalis hsp90 gene was obtained. The PCR-based approach proved to be an easier method of obtain the sequence of a highly conserved gene, as compared to more conventional methods.     

The absence of SIR2alpha protein has no effect on global gene silencing in mouse embryonic stem cells

The yeast sir2 gene plays a central role in mediating gene silencing and DNA repair in this organism. The mouse sir2alpha gene is closely related to its yeast homologue and encodes a nuclear protein expressed at particularly high levels in embryonic stem (ES) cells. We used homologous recombination to create ES cells null for sir2alpha and found that these cells did not have elevated levels of acetylated histones and did not ectopically express silent genes. Unlike yeast sir2 mutants, our sir2alpha null ES cells had normal sensitivity to insults such as ionizing radiation and heat shock, and they were able to silence invading retroviruses normally. These sir2alpha null cells were able to differentiate in culture normally. Our results failed to provide evidence that the mammalian SIR2alpha protein plays a role in gene silencing and suggest that the physiological substrate(s) for the SIR2alpha deacetylase may be nuclear proteins other than histones.     

Autonomous silencing as well as competition controls gamma-globin gene expression during development

To investigate the control of the gamma-globin gene during development, we produced transgenic mice in which sequences of the beta-gene promoter were replaced by equivalent sequences of the gamma-gene promoter in the context of a human beta-globin locus yeast artificial chromosome (betaYAC) and analyzed the effects on globin gene expression during development. Replacement of 1,077 nucleotides (nt) of the beta-gene promoter by 1,359 nt of the gamma promoter resulted in striking inhibition of the gamma-promoter/beta-gene expression in the adult stage of development, providing direct evidence that the expression of the gamma gene in the adult is mainly controlled by autonomous silencing. Measurements of the expression of the gamma promoter/beta-globin gene as well as the wild gamma genes showed that gene competition is also involved in the control of gamma-gene expression in the fetal stage of development. We conclude that autonomous silencing is the main mechanism controlling gamma-gene expression in the adult, while autonomous silencing as well as competition between gamma and beta genes contributes to the control of gamma to beta switching during fetal development.     

Gene silencing：Double－stranded RNA mediated mRNA degradation and gene inactivation

INTRODUCTIONThe genome structure of plants can be alteredby genetic transformation. During the process ofgene transfer, Agrobacterium tumefaCJens integratepart of their genome into the genome of susceptiblespecies. Recently, genetic transfOrmation techniqueshave been used to modify significantly the organi-zation of the genome. Introducing transgenes intop1ants can both modify the number of copies of agiven sequence and affect gene expression. Becausethe expression of a transgene cannot…     

Conditional gene silencing in mammalian cells mediated by a stress-inducible promoter

MicroRNAs (miRNAs) are endogenous non-coding small RNAs, which negatively regulate gene expression in a sequence-specific manner through the RNA interference (RNAi) pathway. Here we describe a new miRNA-based conditional RNAi expression system that relies on cellular stress-response mechanisms in mammalian cells. In our constructs, expression of miRNA mimics is tightly controlled by a heat shock-inducible promoter. This system is highly effective in silencing permanently or conditionally expressed luciferase. The stress inducible vectors also effectively deplete co-expressed pro-apoptotic protein CHOP with heat shock. Furthermore, we demonstrate cloning of a protein-coding sequence between the stress-inducible promoter and the miRNA expression cassette allows simultaneous silencing of a target gene and activation of synthesis of a protein of choice in response to stress stimulation. This new conditional gene silencing approach could be an invaluable tool for various areas of basic and applied research and for therapeutic intervention.     

The anti-myeloma activity of a novel purine scaffold HSP90 inhibitor PU-H71 is via inhibition of both HSP90A and HSP90B1

Background

The ribonucleotide reductase M1 (RRM1) gene encodes the regulatory subunit of ribonucleotide reductase, the molecular target of gemcitabine. The overexpression of RRM1 mRNA in tumor tissues is reported to be associated with gemcitabine resistance. Thus, single nucleotide polymorphisms (SNPs) of the RRM1 gene are potential biomarkers of the response to gemcitabine chemotherapy. We investigated whether RRM1 expression in peripheral blood mononuclear cells (PBMCs) or SNPs were associated with clinical outcome after gemcitabine-based chemotherapy in advanced non-small cell lung cancer (NSCLC) patients.

Methods

PBMC samples were obtained from 62 stage IIIB and IV patients treated with gemcitabine-based chemotherapy. RRM1 mRNA expression levels were assessed by real-time PCR. Three RRM1 SNPs, -37C→A, 2455A→G and 2464G→A, were assessed by direct sequencing.

Results

RRM1 expression was detectable in 57 PBMC samples, and SNPs were sequenced in 56 samples. The overall response rate to gemcitabine was 18%; there was no significant association between RRM1 mRNA expression and response rate (P = 0.560). The median progression-free survival (PFS) was 23.3 weeks in the lower expression group and 26.9 weeks in the higher expression group (P = 0.659). For the -37C→A polymorphism, the median PFS was 30.7 weeks in the C(-)37A group, 24.7 weeks in the A(-)37A group, and 23.3 weeks in the C(-)37C group (P = 0.043). No significant difference in PFS was observed for the SNP 2455A→G or 2464G→A.

Conclusions

The RRM1 polymorphism -37C→A correlated with PFS in NSCLC patients treated with gemcitabine-based chemotherapy. No significant correlation was found between PBMC RRM1 mRNA expression and the efficacy of gemcitabine.     

The HSP90 complex of plants

Heat shock protein 90 (HSP90) is a highly conserved and essential molecular chaperone involved in maturation and activation of signaling proteins in eukaryotes. HSP90 operates as a dimer in a conformational cycle driven by ATP binding and hydrolysis. HSP90 often functions together with co-chaperones that regulate the conformational cycle and/or load a substrate "client" protein onto HSP90. In plants, immune sensing NLR (nucleotide-binding domain and leucine-rich repeat containing) proteins are among the few known client proteins of HSP90. In the process of chaperoning NLR proteins, co-chaperones, RAR1 and SGT1 function together with HSP90. Recent structural and functional analyses indicate that RAR1 dynamically controls conformational changes of the HSP90 dimer, allowing SGT1 to bridge the interaction between NLR proteins and HSP90. Here, we discuss the regulation of NLR proteins by HSP90 upon interaction with RAR1 and SGT1, emphasizing the recent progress in our understanding of the structure and function of the complex. This article is part of a Special Issue entitled: Heat Shock Protein 90 (HSP90).     

重组马铃薯X病毒载体介导的烟草γ-微管蛋白基因沉默

用重组马铃薯X病毒(potato virus X,PVX)载体将γ-微管蛋白反义基因导入烟草(Nicotiana tabacum var.Samsun NN),得到了γ-微管蛋白基因沉默的烟草植株。它与侵染PVX空载体的正对照相比有明显的差异:不同形态的叶片分层交替生长;到生殖期所有的花苞都提前脱落;小孢子不能发育到四分体阶段。沉默的形态反应主要起始于顶端幼嫩组织。在沉默过程中除存在基因沉默及恢复现象外还出现靶基因水平的陡然升高,甚至有时会明显反超过正常对照水平。