Allelic variation of the dopamine receptor D4 gene polymorphic region in gibbons

We examined the tandem repeat sequence of the dopamine receptor D4 (DRD4) gene in 73 individuals derived from 8 species of gibbons (genusHylobates) in an attempt to assess the variability of this gene in gibbon species.H. syndactylus (subgenusSymphalangus) andH. concolor (subgenusNomascus), which were inferred to have diverged at an early time within the family Hylobatidae, shared only long repeat (7–8) alleles. On the other hand, DRD4 was highly polymorphic in gibbons of the subgenusHylobates, with 4-, 5-, 6-, 7-, and 8-repeat alleles being recognized. In this subgenus, 4- and 5-repeat alleles were found in the species distributed mainly in the southern islands such as Sumatra, Java, and Borneo but not in the species inhabiting the Asian continent. Sequence analysis indicated that the repeat structure of the gibbon DRD4 gene was quite complex but most of the 48-bp units could be classified into several groups across the species based on sequence similarities. However, the sequence of the 7-repeat allele ofH. muelleri was unique, since the repeat units had low similarities to other units of gibbons.     

Association between equine temperament and polymorphisms in dopamine D4 receptor gene

The variable number of tandem repeats (VNTR) polymorphism of the dopamine D4 receptor (DRD4) gene has been reported to be associated with the personality trait of novelty-seeking in humans. In the genus Equus, this region includes an 18-bp repeat unit and there are inter- and intraspecies differences in the number of repetitions. Because horses are unique among livestock species in that their temperament is considered important, we investigated the possible role of this region on equine temperament in thoroughbred horses. We simultaneously determined the sequences of this polymorphic region and administered a questionnaire survey to horse caretakers with questions about 20 different traits of their horses’ temperament. Although there was no difference in the number of repeats among the 136 thoroughbred horses studied, two single nucleotide polymorphisms (SNPs), one of which might cause an amino acid change (A-G substitution), existed. By analyzing the association between these SNPs and temperament scores, a significant association was revealed between two temperament traits (Curiosity and Vigilance) and the A-G substitution. Horses without the A allele had significantly higher Curiosity and lower Vigilance scores than those with the A allele at the A-G substitution. In addition, similar associations between both temperament scores and each genotype of the A-G substitution were observed in two subgroups divided according to the time of their introduction to the farm. These results suggested that the SNP in the VNTR region of the equine DRD4 gene might be related to individual differences in equine temperament.     

Discovery of dopamine D4 receptor antagonists with planar chirality

Employing the D₄ selective phenylpiperazine 2 as a lead compound, planar chiral analogs with paracyclophane substructure were synthesized and evaluated for their ability to bind and activate dopamine receptors. The study revealed that the introduction of a [2.2]paracyclophane moiety is tolerated by dopamine receptors of the D₂ family. Subtype selectivity for D₄ and ligand efficacy depend on the absolute configuration of the test compounds. Whereas the achiral single-layered lead 2 and the double-layered paracyclophane (R)-3 showed partial agonist properties, the enantiomer (S)-3 behaved as a neutral antagonist.     

Repeat sequences in the gene encoding the human D4 dopamine receptor.

The gene encoding the human D4 dopamine receptor has evolved by gaining at least five internal repeats which are located within exons 3 and 4, and in the intervening intron 3 sequence. The amino acid sequence in the cytoplasmic loop of the receptor, involved in G protein coupling, has been altered by these gene changes.     

A study of the association between schizophrenia and the dopamine D3 receptor gene

A study of the genetic association between schizophrenia and aBalI polymorphism in exon 1 of the dopamine D₃ (DRD3) gene, a candidate gene for schizophrenia, was conducted. The polymorphism was examined in 91 patients whose symptoms satisfied DSM-III-R for schizophrenia and 90 controls. There were no significant differences between the groups in allele frequencies or genotype counts. Contrary to a previous report, the patients were no more likely to be homozygous than controls. Moreover, no association with the presence of illness could be demonstrated when the patients were grouped according to sex, age of onset, history of admission to psychiatric institutions or positive family history.     

Polymorphism in the second intron of dopamine receptor D4 gene in humans and apes

The dopamine receptor D4 (DRD4) has received increasing research attention in behavioral science, psychiatry, and psychopharmacology. However, the number of available genetic markers for primates is still insufficient. We identified a novel variation/polymorphism in the second intron of DRD4 in humans based on the survey of 210 Japanese: a 6bp insertion (allele frequency: 0.002) and 8bp deletion (0.024); however, 94 Hungarian Caucasians were found to be monomorphic. Polymorphisms of the homologous region were also found in a survey of 93 specimens from four species of great apes and 51 specimens from seven species of gibbons. The polymorphisms consist of both single nucleotide substitutions and variations in the number of tandem duplications of short GC-rich sequences. Because of usefulness of primates in behavioral science, this polymorphism may be a useful marker for association studies with behavioral traits in both humans and apes.     

(G)n-Mononucleotide polymorphism in the human D4 dopamine receptor (DRD4) gene

Polymorphism in intron I of the human dopamine D4 receptor is described.     

Evolution of exon 1 of the dopamine D4 receptor (DRD4) gene in primates

The dopamine D4 receptor (DRD4) gene exhibits a large amount of expressed polymorphism in humans. To understand the evolutionary history of the first exon of DRD4-which in humans contains a polymorphic 12bp tandem duplication, a polymorphic 13bp deletion, and other rare variants-we examined the homologous exon in thirteen other primate species. The great apes possess a variable number of tandem repeats in the same region as humans, both within and among species. In this sense, the 12bp tandem repeat of exon 1 is similar to the 48bp VNTR of exon 3 of DRD4, previously shown to be polymorphic in all primate species examined. The Old World monkeys show no variation in length, and a much higher conservation of amino acid sequence than great apes and humans. The New World monkeys show interspecific differences in length in the region of the 12bp polymorphism, but otherwise show the higher conservation seen in Old World monkeys. The different patterns of variation in monkeys compared to apes suggest strong purifying selective pressure on the exon in these monkeys, and somewhat different selection, possibly relaxed selection, in the apes.     

Association of polymorphisms in the dopamine D4 receptor gene and the activity-impulsivity endophenotype in dogs

A variable number of tandem repeats (VNTR) polymorphism in exon 3 of the human dopamine D4 receptor gene ( DRD4 ) has been associated with attention deficit hyperactivity disorder (ADHD). Rodents possess no analogous repeat sequence, whereas a similar tandem repeat polymorphism of the DRD4 gene was identified in dogs, horses and chimpanzees. Here, we present a genetic association study of the DRD4 VNTR and the activity-impulsivity dimension of the recently validated dog-ADHD Rating Scale. To avoid false positives arising from population stratification, a single breed of dogs (German shepherd) was studied. Two DRD4 alleles (referred to as 2 and 3a ) were detected in this breed, and genotype frequencies were in Hardy–Weinberg equilibrium. For modelling distinct environmental conditions, 'pet' and 'police' German shepherds were characterized. Police German shepherds possessing at least one 3a allele showed significantly higher scores in the activity-impulsivity dimension of the dog-ADHD Rating Scale than dogs without this allele ( P  = 0.0180). This difference was not significant in pet German shepherds. To the best of our knowledge, this is the first report of an association between a candidate gene and a behaviour trait in dogs, and it reinforces the functional role of DRD4 exon 3 polymorphism.     

Breed differences in allele frequency of the dopamine receptor D4 gene in dogs.

We previously reported that the dog dopamine receptor D4 (DRD4) gene is polymorphic as observed in humans, and four alleles were identified based on the number and/or order of the 12 and 39 bp sequences located in the homologous region of human DRD4. To assess the diversity of the DRD4 gene in dogs we examined the allelic variations in four breeds (beagle, golden retriever, Shetland sheepdog, and shiba) employing the polymerase chain reaction (PCR). As a result, we found three novel alleles and determined the DNA sequences of these alleles. The beagle shared four alleles, including 396, 435, 447a, and 447b, with the 435 (52.6%) and 447a (39.5%) alleles being common. The golden retriever had the 435 and 447a alleles, and the 435 allele was frequent (73.3%). In the Shetland sheepdog, the 435, 447a, and 498 alleles were observed, of which the 447a allele was most frequent (82.5%). The shiba had five alleles-447a, 447b, 486, 498, and 549-and the 447b allele was most common (55.4%). These findings suggest that the allele frequency varied among the four dog breeds, and analysis of the DRD4 polymorphism may therefore be useful for elucidating the relationships among dog breeds.     

Chromosomal localization of the human D3 dopamine receptor gene

Summary A novel dopamine D₃ receptor gene that may be involved in psychiatric diseases has recently been characterized. It has been assigned to chromosome 3 by hybridization with a D₃ receptor probe to human sorted chromosomes, and localized to band 3q 13.3 by in situ hybridization.     

The genetic architecture of selection at the human dopamine receptor D4 (DRD4) gene locus

Associations of the seven-repeat (7R) allele of the human dopamine receptor D4 (DRD4) gene with both the personality trait of novelty seeking and attention deficit/hyperactivity disorder have been reported. Recently, on the basis of the unusual DNA sequence organization of the DRD4 7R 48-bp tandem repeat (VNTR), we proposed that the 7R allele originated as a rare mutational event that increased to high frequency by positive selection. We now have resequenced the entire DRD4 locus from 103 individuals homozygous for 2R, 4R, or 7R variants of the VNTR, a method developed to directly estimate haplotype diversity. DNA from individuals of African, European, Asian, North and South American, and Pacific Island ancestry were used. 4R/4R homozygotes exhibit little linkage disequilibrium (LD) over the region examined, with more polymorphisms observed in DNA samples from African individuals. In contrast, the evidence for strong LD surrounding the 7R allele is dramatic, with all 7R/7R individuals (including those from Africa) exhibiting the same alleles at most polymorphic sites. By intra-allelic comparison at 18 high-heterozygosity sites spanning the locus, we estimate that the 7R allele arose prior to the upper Paleolithic era (approximately 40000-50000 years ago). Further, the pattern of recombination at these polymorphic sites is the pattern expected for selection acting at the 7R VNTR itself, rather than at an adjacent site. We propose a model for selection at the DRD4 locus consistent with these observed LD patterns and with the known biochemical and physiological differences between receptor variants.     

Association between the dopamine D4 receptor gene exon III variable number of tandem repeats and political attitudes in female Han Chinese

Twin and family studies suggest that political attitudes are partially determined by an individual''s genotype. The dopamine D4 receptor gene (DRD4) exon III repeat region that has been extensively studied in connection with human behaviour, is a plausible candidate to contribute to individual differences in political attitudes. A first United States study provisionally identified this gene with political attitude along a liberal–conservative axis albeit contingent upon number of friends. In a large sample of 1771 Han Chinese university students in Singapore, we observed a significant main effect of association between the DRD4 exon III variable number of tandem repeats and political attitude. Subjects with two copies of the 4-repeat allele (4R/4R) were significantly more conservative. Our results provided evidence for a role of the DRD4 gene variants in contributing to individual differences in political attitude particularly in females and more generally suggested that associations between individual genes, and neurochemical pathways, contributing to traits relevant to the social sciences can be provisionally identified.     

Identification of a new selective dopamine D4 receptor ligand

The dopamine D₄ receptor has been shown to play key roles in certain CNS pathologies including addiction to cigarette smoking. Thus, selective D₄ ligands may be useful in treating some of these conditions. Previous studies in our laboratory have indicated that the piperazine analog of haloperidol exhibits selective and increased affinity to the DAD₄ receptor subtype, in comparison to its piperidine analog. This led to further exploration of the piperazine moiety to identify new agents that are selective at the D₄ receptor. Compound 27 (K_iD₄ = 0.84 nM) was the most potent of the compounds tested. However, it only had moderate selectivity for the D₄ receptor. Compound 28 (K_iD₄ = 3.9 nM) while not as potent, was more discriminatory for the D₄ receptor subtype. In fact, compound 28 has little or no binding affinity to any of the other four DA receptor subtypes. In addition, of the 23 CNS receptors evaluated, only two, 5HT_1AR and 5HT_2BR, have binding affinity constants better than 100 nM (K_i <100 nM). Compound 28 is a potentially useful D₄-selective ligand for probing disease treatments involving the D₄ receptor, such as assisting smoking cessation, reversing cognitive deficits in schizophrenia and treating erectile dysfunction. Thus, further optimization, functional characterization and evaluation in animal models may be warranted.     

The dopamine D4 receptor,the ultimate disordered protein

The human D4 dopamine receptor is a synaptic neurotransmitter receptor responsible for neuronal signaling in the mesolimbic system of the brain, an area of the brain that regulates emotion and complex behavior. Its structure makes it a very unusual and interesting G protein-coupled receptor (GPCR) as it has several polymorphic variants of its gene in the region encoding the third intracellular loop (IL3). This region contains from two to seven or more similar 48 base pair repeats. These repeats cause this protein to have a very high disorder index and this, in turn, makes it very interactive with other proteins. Among GPCRs in general, the unusually proline-rich IL3 is unique to the D4 receptor (D4R). We believe that, as in the D2R, this region of the receptor plays a role in it’s interaction with other receptors.     

Folding efficiency is rate-limiting in dopamine D4 receptor biogenesis

Dopamine receptors are G protein-coupled receptors that are critically involved in locomotion, reward, and cognitive processes. The D2 class of dopamine receptors (DRD2, -3, and -4) is the target for antipsychotic medication. DRD4 has been implicated in cognition, and genetic studies have found an association between a highly polymorphic repeat sequence in the human DRD4 coding region and attention deficit hyperactivity disorder. Using DRD4 as a model, we show that antipsychotics can function as potent pharmacological chaperones up-regulating receptor expression and can also rescue a non-functional DRD4 folding mutant. This chaperone-mediated up-regulation involves reduced degradation by the 26 S proteasome; likely via the stabilization of newly synthesized receptor in the endoplasmic reticulum. Dopamine itself can function as a chaperone when shuttled into the cell by means of the dopamine transporter. Furthermore, different repeat variants of DRD4 display differential sensitivity to this chaperone effect. These data suggest that folding efficiency may be rate-limiting for dopamine receptor biogenesis and that this efficiency differs between receptor variants. Consequently, the clinical profile of dopaminergic ligands, including antipsychotics, may include their ability to serve as pharmacological chaperones.     

Allelic association between a Ser-9-Gly polymorphism in the dopamine D3 receptor gene and schizophrenia

We examined a Ser-9-Gly polymorphism in the dopamine D3 receptor gene for allelic association with schizophrenia in 133 patients currently treated with clozapine and 109 controls. Allele 1 (Ser-9) was significantly more frequent in the patients (69%) than in the controls (56%) (P = 0.004). The 1-1 genotype was more common (43% vs 30%) and the 2-2 genotype less common (5% vs 18%) in patients than in controls. When the patient group was subdivided on the basis of clinical response to clozapine, using a 20-point improvement in the global assessment scale as cut-off, genotype 1-1 was found to be more frequent among the non-responders (53% vs 36%, P = 0.04). To place our results in the context of previous studies of this polymorphism and schizophrenia, we performed a meta-analysis of all published data including the present sample. The combined analysis shows evidence for a modest association between genotype 1-1 and schizophrenia (odds ratio 1.25, 95% confidence interval 1.05– 1.49, P = 0.01). These results suggest that the Ser-9 allele, or a nearby polymorphism in linkage disequilibrium, results in a small increase in susceptibility to schizophrenia. Received: 21 August 1995 / Revised: 14 December 1995