Will we ever find the genes for addiction?

Aim: To assess the likelihood of finding genes which predispose to addiction and to present this information in a form accessible to the general readership of Addiction.

Methods: Review of the evidence that genetic factors play a significant role in the process of addiction and the proximity of the identification of these factors.

Results: The search for the genetic susceptibility variants for many complex illnesses has been ongoing for decades, with increased pace in the last 20 years.

Gene copy number variation in schizophrenia.

Recent reports have highlighted the possibility that gene copy number variations play a role in the development of complex disorders and have suggested that some variations are very common in schizophrenic patients. We have carried out a comparative genomic hybridization screen using oligonucleotide probes of 891 candidate genes to look for very common copy number variance in schizophrenic patients. In addition we have developed a new approach for the detection and validation of putative copy number variation based upon established methods of allele quantification by DNA pooling and have used it to study 15 major candidates including dysbindin (DTNBP1), neuregulin (NRG1), RGS4 and DISC1.

Gene copy number variation in schizophrenia.

The possibility that gene copy number variations play a role in the development of complex disorders is a topic of considerable interest. Recent reports have highlighted the large number of such variations that exist and that their occurrence varies considerably between populations. A recent report has suggested that copy number variations in four genes (GRIK3, EFNA5, AKAP5 and CACNG2) may be associated with schizophrenia.

Endosomal location of dopamine receptors in neuronal cell cytoplasm.

Five subtypes of dopamine receptor exist in two subfamilies: two D(1)-like (D(1) and D(5)) and three D(2)-like (D(2), D(3) and D(4)). We produced novel monoclonal antibodies against all three D(2)-like receptors and used them to localize receptors in Ntera-2 (NT-2) cells, the human neuronal precursor cell line. Most of the immunostaining for all three receptors colocalized with mannose-6-phosphate receptor, a marker for late endosomes formed by internalization of the plasma membrane.

In silico discrimination of single nucleotide polymorphisms and pathological mutations in human gene promoter regions by means of local DNA sequence context and regularity.

DNA sequence features were sought that could be used for the in silico ascertainment of the likely functional consequences of single nucleotide changes in human gene promoter regions. To identify relevant features of the local DNA sequence context, we transformed into consensus tables the nucleotide composition of sequences flanking 101 promoter SNPs of type C<-->T or A<-->G, defined empirically as being either 'functional' or 'non-functional' on the basis of a standardised reporter gene assay. The similarity of a given sequence to these consensus tables was then measured by means of the Shapiro-Senapathy score.

The importance and identification of regulatory polymorphisms and their mechanisms of action.

The search for the genetic variations underlying all human phenotypes is in its infancy but must be one of the long term goals of the scientific community. There is evidence that most, if not all human phenotypes, including illnesses are influenced by the genetic makeup of the individual. There are an estimated 11 million human genetic polymorphisms with a minor allele frequency >1% and possibly many times that number of rare sequence variants.

Strong bias in the location of functional promoter polymorphisms.

A considerable proportion of heritable human phenotypic variation is thought to result from altered gene expression. Unfortunately, it is currently impossible to use bioinformatic analysis to discriminate between DNA sequence variants that are likely to influence gene expression and those that are not. In an attempt to define some of the characteristics of promoter polymorphisms with functional effects on gene expression, we examined 674 haplotypes representing 247 unique gene promoters using a standardized reporter gene assay system.

Haplotypes at the dystrobrevin binding protein 1 (DTNBP1) gene locus mediate risk for schizophrenia through reduced DTNBP1 expression.

The DTNBP1 gene, encoding dysbindin, is now generally considered to be a susceptibility gene for schizophrenia. However, the confidence with which this hypothesis can be held has to be tempered by the poor reproducibility between studies in terms of the exact nature of the associated haplotypes, by the failure so far to identify any specific susceptibility variants and by the absence of any demonstrated function associated with any of the risk haplotypes. In the present study, we show that a defined schizophrenia risk haplotype tags one or more cis-acting variants that results in a relative reduction in DTNBP1 mRNA expression in human cerebral cortex.

Low gene expression conferred by association of an allele of the 5-HT2C receptor gene with antipsychotic-induced weight gain.

Objective: Association has been reported between the C allele of a -759C/T polymorphism in the promoter of the 5-HT2C receptor gene (HTR2C) and antipsychotic-induced weight gain, suggesting that polymorphic HTR2C expression influences this phenotype. The authors tested this polymorphism, and other promoter variants, for effects on HTR2C transcription.

Method: Six HTR2C promoter haplotypes constructed from four polymorphisms were cloned into a luciferase reporter gene plasmid.

A high proportion of polymorphisms in the promoters of brain expressed genes influences transcriptional activity.

There is increasing interest in the possibility that polymorphisms affecting gene expression are responsible for a significant proportion of heritable human phenotypic variation, including human disease. We have sought to determine if polymorphisms in the promoters of brain expressed genes are commonly functional. We screened for polymorphism 56 genes previously reported to be differentially expressed in the brains of schizophrenics [Y.

Allelic expression of APOE in human brain: effects of epsilon status and promoter haplotypes.

The epsilon4 haplotype of APOE is the only undisputed genetic risk factor for late-onset Alzheimer's disease (LOAD). It has been proposed that at least two other polymorphisms in the promoter of the APOE gene (-219G>T and -491A>T) might also contribute to disease susceptibility, and modulate the impact of structural changes in the ApoE protein, by altering its expression. In order to assess the extent of cis-acting influences on APOE expression in human brain, highly quantitative measures of allele discrimination were applied to cortical RNA from individuals heterozygous for the epsilon alleles.

Allele-specific gene expression differences in humans.

In the last decade, the search for the genetic origins of phenotypic variation has expanded beyond the non-synonymous variants which alter the amino acid sequence of the encoded protein, and many examples of sequence variants which alter gene expression have been found. Recently, using both traditional and novel technologies, a number of surveys have been carried out to examine the frequency with which cis-acting sequence variants or other cis-acting effects, alter gene expression either in vitro or in vivo. Microarray data have shown that the expression of many genes varies markedly between individuals and allele-specific expression studies have shown that the source of much of this variation appears to be cis-acting effects.

Functional analysis of polymorphisms in the promoter regions of genes on 22q11.

Segmental aneusomy, which includes chromosome 22 deletion syndrome (del(22)(q11.2q11.2)), has been associated with DiGeorge syndrome (DGS), velocardiofacial syndrome (VCFS), conotruncal anomaly face (CAF) syndrome, cat-eye syndrome (CES), der(22) syndrome, and duplication of the del(22)(q11.

A high proportion of chromosome 21 promoter polymorphisms influence transcriptional activity.

We have sought to obtain an unbiased estimate of the proportion of polymorphisms in promoters of human genes that have functional effects. We carried out polymorphism discovery on a randomly selected group of 51 gene promoters mapping to human chromosome 21 and successfully analyzed the effect on transcription of 38 of the sequence variants. To achieve this, a total of 53 different haplotypes from 20 promoters were cloned into a modified pGL3 luciferase reporter gene vector and were tested for their abilities to promote transcription in HEK293t and JEG-3 cells.

Promoter polymorphisms in glutathione-S-transferase genes affect transcription.

The glutathione-S-transferases are a group of enzymes that play a major role in detoxification and defence against toxic, carcinogenic and other compounds. We analysed the proximal promoters of 14 genes encoding glutathione-S-transferase for polymorphism. Ten of the promoters contained sequence variants, nine of which we were able to clone into a reporter gene vector, pGL3.

Identification and analysis of the promoter region of the human hyaluronan synthase 2 gene.

Hyaluronan (HA) is a linear glycosaminoglycan of the vertebrate extracellular matrix that is synthesized at the plasma membrane by the HA synthase (HAS) enzymes HAS1, -2 and -3. The regulation of HA synthesis has been implicated in a variety of extracellular matrix-mediated and pathological processes, including renal fibrosis. We have recently described the genomic structures of each of the human HAS genes.

Polymorphically duplicated genes: their relevance to phenotypic variation in humans.

A number of disorders are known to be caused by duplication of genes, but these are all rare events. However, there is evidence that polymorphic gene duplication may be common and a growing number of genes are known to be duplicated in a polymorphic manner although phenotypes cannot be associated with most of these. Gene duplication occurring due to cytogenetic abnormalities such as Down syndrome predisposes the patients to a variety of complex disorders.

Functional analysis of human promoter polymorphisms.

The potential importance of gene regulation in disease susceptibility and other inherited phenotypes has been underlined by the observation that the human genome contains fewer protein coding genes than expected. Promoter sequences are potential sources of polymorphism affecting gene expression, although to date there are no large-scale systematic studies that have determined how frequently such variants occur. We have used denaturing high performance liquid chromatography to screen the first 500 bp of the 5' flanking region of 170 opportunistically selected genes identified from the Eukaryotic Promoter Database (EPD) for common polymorphisms.

A haplotype implicated in schizophrenia susceptibility is associated with reduced COMT expression in human brain.

The gene encoding catechol-O-methyltransferase (COMT) is a strong candidate for schizophrenia susceptibility, owing to the role of COMT in dopamine metabolism, and the location of the gene within the deleted region in velocardiofacial syndrome, a disorder associated with high rates of schizophrenia. Recently, a highly significant association was reported between schizophrenia and a COMT haplotype in a large case-control sample (Shifman et al. 2002).

The human hyaluronan synthase genes: genomic structures, proximal promoters and polymorphic microsatellite markers.

The glycosaminoglycan (GAG) hyaluronan (HA) is a key component of the vertebrate extracellular matrix (ECM) and is synthesised by the HA synthase (HAS) enzymes HAS1, HAS2 and HAS3 at the plasma membrane. Accumulating evidence emphasises the relevance of HA metabolism in an increasing number of processes of clinical interest including renal fibrosis and peritoneal mesothelial wound healing. In the present study, the genomic sequences and organisation of the genes encoding the human HAS isoforms were deduced, in silico, from reference cDNA and genomic sequence data.

Cis-acting variation in the expression of a high proportion of genes in human brain.

Much of the genetic component of human phenotypic diversity, including susceptibility to disease, is proposed to be the result of cis-acting influences on gene expression. If this hypothesis is correct, it implies that cis-acting regulatory variation is a common phenomenon. However, direct evidence in support of this view is scarce.

Experimental analysis of the annotation of promoters in the public database.

The ability to identify and examine promoter elements is important to researchers who wish to understand how gene expression is regulated in normal and pathological states. Unfortunately, the number of human promoters that have been directly experimentally defined is small. In order to determine if promoter sequences can be identified by simply aligning mRNA and genomic sequences, we have used a reporter gene assay to assess the promoter activity of the immediate 5' region flanking 38 mRNAs mapping to chromosome 21.