Increased CPA6 promoter methylation in focal epilepsy and in febrile seizures.

Focal epilepsy (FE) is one of the most common forms of adult epilepsy and is usually regarded as a multifactorial disorder. Febrile seizures (FS) often appear during childhood in a subtype of FE patients, i.e. with temporal lobe epilepsy (TLE) and hippocampal sclerosis (HS). FS are the most common human convulsive event associated with fever. Genetic evidences for FS have suggested a complex mode of inheritance. Until now, to investigate genes at the genomic level, linkage analysis of familial forms and association studies have been performed, but nothing conclusive has been clearly related to FE and FS. As complex disorders, environmental factors might play a crucial role through epigenetic modification of key candidate genes such as CPA6, which encodes Carboxypeptidase A6, an extracellular protein. Therefore, we assessed DNA methylation in promoter of CPA6. In 186 FE patients and 92 FS patients compared to 93 healthy controls and 42 treated controls with antiepileptic drugs (AEDs), we found significant higher levels of methylation for epileptic patients. Methylation status were 3.4% (±3.2%) for FE cases and 4.3% (±3.5%) for FS cases, whereas healthy individuals and treated controls with AEDs showed a level of 0.8% (±2.9%) and 1.5% (±3.9%), respectively (p≤0.001 for all comparisons). These results let growing evidence for DNA methylation involvment in FE and FS.

Dopamine transporter genotype conveys familial risk of attention-deficit/hyperactivity disorder through striatal activation.

OBJECTIVE: The dopamine transporter (DAT1) gene has been implicated in attention-deficit/hyperactivity disorder (ADHD), although the mechanism by which it exerts its effects remains unknown. The polymorphism associated with ADHD has been shown to affect expression of the transporter in vitro and in vivo. Dopamine transporters are predominantly expressed in the striatum, but also in the cerebellar vermis. Stimulant medication is often effective in ADHD and is believed to exert its effects by blocking dopamine transporters in the striatum. We set out to investigate the effect of the DAT1 genotype in ADHD in a small, preliminary study. We hypothesized that the DAT1 genotype would affect brain activation patterns in a manner similar to that of stimulant medication, with the lesser expressing allele mirroring its effects. METHOD: We investigated DAT1 gene effects on brain activation patterns in an all-male sample of sibling pairs discordant for ADHD (n = 20) and controls (n = 9). All of the subjects participated in a functional magnetic resonance imaging session using a go/no-go paradigm and provided a DNA sample for analysis. RESULTS: DAT1 genotype affected activation in the striatum and cerebellar vermis. The genotype interacted with familial risk of ADHD in the striatum but not the vermis. CONCLUSIONS: These preliminary results suggest that the DAT1 gene effects in the striatum are involved in translating the genetic risk of ADHD into a neurobiological substrate. As such, this study represents a first step in elucidating the neurobiological mechanisms underlying genetic influences in ADHD. Furthermore, these results may contribute to long-term possibilities for the development of new treatments: If the DAT1 genotype has differential effects on striatal activation, then it may be useful as a surrogate endpoint in individualized treatments targeting genotype/functional magnetic resonance imaging activation profiles.

Suicide attempts and the tryptophan hydroxylase gene.

Tryptophan hydroxylase (TPH) is the rate-limiting enzyme of serotonin synthesis. In this case-control study, we investigated whether the TPH gene was a susceptibility factor for suicidal behavior. Seven polymorphisms spanning the entire gene were studied in a case-control study including 231 individuals who had attempted suicide and 281 controls. Significant associations were found between variants in introns 7, 8 and 9 (chi(2) = 11.2, df = 1, P< 0.0008 for the allele distribution; these loci are in complete linkage disequilibrium) and in the 3' noncoding region (chi(2) = 30.94, P = 0.0014) and suicide attempt. The association was strongest for subjects who had attempted suicide by violent means and who had a history of major depression. No significant association was observed between suicide attempts and polymorphisms in the promoter, intron 1 and intron 3. The results presented here, and those of previous studies, suggest that a genetic variant of the 3' part of the TPH gene may be a susceptibility factor for a phenotype combining suicidal behavior, mood disorder and impulsive aggression.

Identification and analysis of new sequence variants in the human tryptophan hydroxylase (TpH) gene.

The tryptophan hydroxylase (TpH) gene codes for the rate-limiting enzyme in serotonin biosynthesis. It is one of the major candidate genes for psychiatric and behavioral disorders. A polymorphism in TpH intron 7 has been shown to be associated with suicidal attempts, aggressive behavior and psychiatric illnesses. By systematically screening the TpH genomic sequence, we identified and confirmed an earlier report of four variants in the promoter region and localized six new sequence variants, ie two in intron 1b, one in exon 1c, one in intron 8, one in intron 9 and a microsatellite in the 3' region, 5687 bp downstream of the last exon 11. We analyzed these polymorphisms, as well as the one in intron 7, by Single Strand Conformation Analysis, microsatellite or restriction analysis in a collection of 175 West European Caucasian healthy subjects. The four variants in the promoter region are in complete linkage disequilibrium (frequencies of G-T-G-T and T-C-A-G haplotypes are 0. 41 and 0.59, respectively). Deletion of GTT in intron 1b is rare (0. 7%) and so not informative. The rarer allele T of intron 1b polymorphism T3792A has a frequency of 0.34 and is in partial linkage disequilibrium with the more common alleles of intron 7, 8 and 9. The polymorphisms of these three introns are in complete linkage disequilibrium and the frequencies of haplotypes A-T-C and C-C-T are 0.36 and 0.64 respectively. We detected 10 different alleles in the microsatellite localized in the 3' region; allele '194' is in partial linkage disequilibrium with haplotype A-T-C of introns 7, 8, and 9. Analysis of these different polymorphisms will constitute an important tool for future studies between the TpH gene and psychiatric disorders. Molecular Psychiatry (2000) 5, 49-55.