Aberrant Gene Expression in Dogs with Portosystemic Shunts

Congenital portosystemic shunts are developmental anomalies of the splanchnic vascular system that cause portal blood to bypass the liver. Large-breed dogs are predisposed for intrahepatic portosystemic shunts (IHPSS) and small-breed dogs for extrahepatic portosystemic shunts (EHPSS). While the phenotype resulting from portal bypass of the liver of the two types of shunt is identical, the genotype and molecular pathways involved are probably different. The aim of this study was to gain insight into the pathways involved in the different types of portosystemic shunting. Microarray analysis of mRNA expression in liver tissue from dogs with EHPSS and IHPSS revealed that the expression of 26 genes was altered in either IHPSS or EHPSS samples compared with that in liver samples from control dogs. Quantitative real-time PCR of these genes in 14 IHPSS, 17 EHPSS, and 8 control liver samples revealed a significant differential expression of ACBP, CCBL1, GPC3, HAMP, PALLD, VCAM1, and WEE1. Immunohistochemistry and Western blotting confirmed an increased expression of VCAM1 in IHPSS but its absence in EHPSS, an increased WEE1 expression in IHPSS but not in EHPSS, and a decreased expression of CCBL1 in both shunt types. Regarding their physiologic functions, these findings may indicate a causative role for VCAM1 in IHPSS and WEE1 for IHPSS. CCBL1 could be an interesting candidate to study not yet elucidated aspects in the pathophysiology of hepatic encephalopathy.     

Genetic Variants Contribute to Gene Expression Variability in Humans

Expression quantitative trait loci (eQTL) studies have established convincing relationships between genetic variants and gene expression. Most of these studies focused on the mean of gene expression level, but not the variance of gene expression level (i.e., gene expression variability). In the present study, we systematically explore genome-wide association between genetic variants and gene expression variability in humans. We adapt the double generalized linear model (dglm) to simultaneously fit the means and the variances of gene expression among the three possible genotypes of a biallelic SNP. The genomic loci showing significant association between the variances of gene expression and the genotypes are termed expression variability QTL (evQTL). Using a data set of gene expression in lymphoblastoid cell lines (LCLs) derived from 210 HapMap individuals, we identify cis-acting evQTL involving 218 distinct genes, among which 8 genes, ADCY1, CTNNA2, DAAM2, FERMT2, IL6, PLOD2, SNX7, and TNFRSF11B, are cross-validated using an extra expression data set of the same LCLs. We also identify ∼300 trans-acting evQTL between >13,000 common SNPs and 500 randomly selected representative genes. We employ two distinct scenarios, emphasizing single-SNP and multiple-SNP effects on expression variability, to explain the formation of evQTL. We argue that detecting evQTL may represent a novel method for effectively screening for genetic interactions, especially when the multiple-SNP influence on expression variability is implied. The implication of our results for revealing genetic mechanisms of gene expression variability is discussed.     

Sex-Specific Selection and Sex-Biased Gene Expression in Humans and Flies

Sexual dimorphism results from sex-biased gene expression, which evolves when selection acts differently on males and females. While there is an intimate connection between sex-biased gene expression and sex-specific selection, few empirical studies have studied this relationship directly. Here we compare the two on a genome-wide scale in humans and flies. We find a distinctive “Twin Peaks” pattern in humans that relates the strength of sex-specific selection, quantified by genetic divergence between male and female adults at autosomal loci, to the degree of sex-biased expression. Genes with intermediate degrees of sex-biased expression show evidence of ongoing sex-specific selection, while genes with either little or completely sex-biased expression do not. This pattern apparently results from differential viability selection in males and females acting in the current generation. The Twin Peaks pattern is also found in Drosophila using a different measure of sex-specific selection acting on fertility. We develop a simple model that successfully recapitulates the Twin Peaks. Our results suggest that many genes with intermediate sex-biased expression experience ongoing sex-specific selection in humans and flies.     

宫颈癌p16基因甲基化及表达的研究

为了探讨p16基因甲基化及异常表达在宫颈癌中的意义,分别采用甲基化特异性PCR（MSP）方法检测不同病理类型和临床分期的60例宫颈癌组织中p16基因启动子区域5´CpG岛甲基化状态;采用PCR方法检测p16基因外显子1（E1)和外显子2(E2)纯合缺失情况;采用免疫组化的方法分析p16蛋白的表达缺失和减弱情况。结果显示正常对照组织及癌旁p16基因无甲基化,且无E1和E2缺失和p16蛋白表达异常。60例宫颈癌标本的甲基化率为21.67%（13/60）;p16 基因缺失率为15.00%（9/60）;p16蛋白表达下降或无表达为51.67%（31/60）。可见p16基因蛋白的阳性表达率随着临床分期升高呈明显下降趋势。结果提示p16基因失活在宫颈癌中多见且与病理分级密切相关。p16 基因甲基化在宫颈癌发生中起着一定作用。Abstract： To detect hypermethylation and aberrant expression of the p16 gene in cervical carcinoma (CC), methylation-specific PCR (MSP) was used to determine the methylation status of 5´CpG islands of the p16 gene, loss or decrease of p16 expression was analyzed by immunohistochemistry (IHC), and homozygous deletion of exon 1 (E1) and/or exon 2 (E2) was determined by PCR. in 60 cases of CC at different pathological grades and clinical stages. The results showed absence of methylation and presence of normal expression of the p16 gene in the control and adjacent tissues of CC. Hypermethylation, loss or decrease of expression and deletion of the p16 gene were detected in 21.67%(13/60), 51.67%(31/60) and 15.00%(9/60) of the tumor tissues, respectively. The rate of p16 expression markedly reduced with the increase of clinical stages. Our data suggested that inactivation of the p16 gene was a frequent event and positively correlated with pathological grades in CC, and that methylation of the p16 gene was an important event in carcinogenesis of CC.     

Mapping Approaches to Gene Identification in Humans

Although a number of human genes that cause disease have been traced through the defective product, most genetic defects are recognized only by phenotype. When the biochemical defect is unknown, a gene can be located only through molecular approaches based on coinheritance (genetic linkage) of the disease phenotype with a particular allele of a polymorphic DNA marker that has already been mapped to a specific chromosomal region. Linkage studies in affected families have already localized genes for several important diseases, including cystic fibrosis. Finding a genetic linkage in families in which a disease segregates requires that the human genetic map have a large number of polymorphic markers; when the map is dense enough, any disease gene can be located by linkage to a known marker. Many DNA segments with a high degree of polymorphism are being found and mapped as markers in normal reference pedigrees. Genetic linkage mapping has implications even broader than its application to prenatal diagnosis or therapeutic strategy; analyzing mutations in important genes will illuminate basic mechanisms in molecular biology and the early events that lead to cancer and other disorders.     

Genetic Mechanisms and Aberrant Gene Expression during the Development of Gastric Intestinal Metaplasia and Adenocarcinoma

Gastric adenocarcinoma occurs via a sequence of molecular events known as the Correa’s Cascade which often progresses over many years. Gastritis, typically caused by infection with the bacterium H. pylori, is the first step of the cascade that results in gastric cancer; however, not all cases of gastritis progress along this carcinogenic route. Despite recent antibiotic intervention of H. pylori infections, gastric adenocarcinoma remains the second most common cause of cancer deaths worldwide. Intestinal metaplasia is the next step along the carcinogenic sequence after gastritis and is considered to be a precursor lesion for gastric cancer; however, not all patients with intestinal metaplasia develop adenocarcinoma and little is known about the molecular and genetic events that trigger the progression of intestinal metaplasia into adenocarcinoma. This review aims to highlight the progress to date in the genetic events involved in intestinal-type gastric adenocarcinoma and its precursor lesion, intestinal metaplasia. The use of technologies such as whole genome microarray analysis, immunohistochemical analysis and DNA methylation analysis has allowed an insight into some of the events which occur in intestinal metaplasia and may be involved in carcinogenesis. There is still much that is yet to be discovered surrounding the development of this lesion and how, in many cases, it develops into a state of malignancy.Key Words: Intestinal metaplasia, gastric cancer, aberrant gene expression, genetic markers.     

Effects of Obesity and Stable Weight Reduction on UCP2 and UCP3 Gene Expression in Humans

VIDAL-PUIG, ANTONIO, MICHAEL ROSENBAUM, ROBERT C. CONSIDINE, RUDOLPH L. LEIBEL, G. LYNIS DOHM, AND BRADFORD B. LOWELL. Effects of obesity and stable weight reduction on UCP2 and UCP3 gene expression in humans. Obes Res. Objectives: The molecular determinants of energy expenditure are presently unknown. Recently, two uncoupling protein homologues, UCP2 and UCP3, have been identified. UCP2 is expressed widely, and UCP3 is expressed abundantly in skeletal muscle. Both could be important regulators of energy balance. In this paper, we investigated whether altered UCP2 and UCP3 mRNA levels are associated with obesity or weight reduction. Research Methods and Procedures: UCP2, UCP3 long and short mRNA levels were examined in skeletal muscle and in white adipose tissue of lean, obese, and weight-reduced individuals by RNase protection assay. Results: Expression of UCP2, UCP3S, and UCP3L mRNA in skeletal muscle was similar in lean individuals and in individuals with obesity at stable weight. In contrast, UCP3L and UCP3S mRNAs were decreased by 38% (p < 0.0059) and 48% (p<0.0047), respectively, in 20% weight-reduced patients with obesity at stable weight. In contrast, UCP2 mRNA levels were increased by 30% in skeletal muscle of 20% weight-reduced subjects with obesity. In a different set of patients, mostly lean, UCP3L mRNA in skeletal muscle was decreased by 28% (p = 0.0425) after 10% weight reduction at stable weight. Expression of UCP2 mRNA in subcutaneous adipose tissue was similar in lean individuals and in individuals with obesity, and was increased by 58% during active weight loss. Discussion: Stabilization at reduced body weight in humans is associated with a decrease in UCP3 mRNA in muscle. It is possible that reduced UCP3 expression could contribute to decreased energy expenditure in weight-stable, weight-reduced individuals.     

衰老对2种猕猴血液基因表达的影响及与人类的对比

衰老是导致免疫功能和代谢活动下降的危险因素.作为最常用的非人灵长类动物模型,猕猴属Macaca被用来探索与衰老过程相关的因素.为了比较2种猕猴和人类在衰老过程基因表达变化的异同,本研究收集比较了3个物种的血液转录组.在藏酋猴M.thibetana(TM)、普通猕猴M.mulatta(CR)和人类中分别获得了2523个、...     

Inter-population Differences in Retrogene Loss and Expression in Humans

Gene retroposition leads to considerable genetic variation between individuals. Recent studies revealed the presence of at least 208 retroduplication variations (RDVs), a class of polymorphisms, in which a retrocopy is present or absent from individual genomes. Most of these RDVs resulted from recent retroduplications. In this study, we used the results of Phase 1 from the 1000 Genomes Project to investigate the variation in loss of ancestral (i.e. shared with other primates) retrocopies among different human populations. In addition, we examined retrocopy expression levels using RNA-Seq data derived from the Ilumina BodyMap project, as well as data from lymphoblastoid cell lines provided by the Geuvadis Consortium. We also developed a new approach to detect novel retrocopies absent from the reference human genome. We experimentally confirmed the existence of the detected retrocopies and determined their presence or absence in the human genomes of 17 different populations. Altogether, we were able to detect 193 RDVs; the majority resulted from retrocopy deletion. Most of these RDVs had not been previously reported. We experimentally confirmed the expression of 11 ancestral retrogenes that underwent deletion in certain individuals. The frequency of their deletion, with the exception of one retrogene, is very low. The expression, conservation and low rate of deletion of the remaining 10 retrocopies may suggest some functionality. Aside from the presence or absence of expressed retrocopies, we also searched for differences in retrocopy expression levels between populations, finding 9 retrogenes that undergo statistically significant differential expression.     

Aberrant Expression of Basic Fibroblast Growth Factor in NIH-3T3 Cells Alters Drug Resistance and Gene Amplification Potential

We have investigated the genetic stability of NIH-3T3 cells transfected with sequences coding for basic fibroblast growth factor (bFGF) by determining drug resistance and gene amplification potential. Colony-forming experiments and fluctuation analyses showed that the frequency and rate of resistance to N -(phosphonacetyl)-L-aspartate (PALA) was dramatically elevated in cells transfected with either the normal bFGF coding sequence that lacks a known signal for secretion or a chimeric bFGF sequence that targets the growth factor to the secretory pathway. Basic FGF-transfected cells that grew in the presence of PALA were found to possess an amplification of the CAD gene, which codes for a multifunctional protein involved in pyrimidine biosynthesis and is the site of action for PALA. The observation that these alterations occur in cells transfected with a bFGF sequence, without a conventional signal sequence for secretion, suggests an intracrine as opposed to autocrine mechanism of action. The results describe a new function for this growth factor and suggest a novel role for aberrant expression of bFGF in mechanisms of tumor progression.