Tumor necrosis factor gene polymorphism in migraine

OBJECTIVE: To better define the involvement of human leukocyte antigen region (HLA) genes in migraine via an association study of the tumor necrosis factor (TNF) genes, located in the HLA class III region, with migraine with and without aura. BACKGROUND: Migraine without aura and migraine with aura are disorders involving multiple factors-environmental and genetic. In a previous study, we hypothesized a protective role for the HLA-DR2 antigen, providing additional basis for the proposed genetic heterogeneity between migraine without aura and migraine with aura. The cytokines produced by TNF genes are polypeptide effectors of inflammatory reaction and endothelial function. METHODS: Tumor necrosis factor (TNF)-308 (TNF-308A and TNF-308G alleles) and lymphotoxin alpha (TNFB*1 and TNFB*2 alleles) polymorphisms were analyzed by the NcoI-cleaved polymerase chain reaction-amplified fragments in 47 patients with migraine without aura, 32 patients with migraine with aura, and 101 migraine-free controls. RESULTS: The frequency of TNFB*2 allele was significantly increased in our patients with migraine without aura as compared with the control group (78.72% versus 61.4%, Pc =.004), but no significant differences were found between patients with migraine with aura and controls. Additionally, there was a significant decrease of TNFB*1 homozygotes in patients with migraine without aura compared with the control group (2.13% versus 16.8%, Pc =.0201). Carriage of the TNFB*2 allele confers a high risk for the development of migraine without aura. No significant association was found at TNF-308 polymorphism. CONCLUSION: These data support the hypothesis that lymphotoxin alpha could be a susceptibility gene in migraine without aura and confirm previous data indicating that migraine with and without aura are distinct entities with different genetic backgrounds

HLA-DQ and susceptibility to celiac disease: Evidence for gender differences and parent-of-origin effects

BACKGROUND AND AIMS: Celiac disease (CD) is twice as frequent among female than male. Despite the large number of reports on the DQ2/DQ8 association, no systematic studies have investigated a possible different role of the HLA genes in the two genders. We performed case-control and family-based analyses of DR-DQ variants in a pediatric CD cohort with the aim of comparing female to male associations and to investigate the paternal/maternal inheritance of the disease-predisposing haplotypes. METHODS: A total of 281 female and 156 male pediatric celiac patients, 292 nuclear families, and 551 controls were genotyped for HLA-DRB1, DQA1, and DQB1 loci. Odds ratio, parental origin of the disease-associated haplotypes, and transmission ratio distortion were valuated in-between male and female cases. RESULTS: DQ2/DQ8 were more frequent in female than in male patients (94% F, 85% M; P = 1.6 x 10(-3)) with a 99.1% and 90.5% calculated negative predictive value of the HLA test, respectively. Surprisingly, the majority of the 39 DQ2/DQ8 negative cases were male. The analysis of the DQ2 haplotype origin showed that 61% of female patients and 42% of male patients carried a paternal combination (P = 0.02). The transmission disequilibrium test (TDT) proved the major distortion in the DR3-DQ2 transmission from fathers to daughters. CONCLUSIONS: CD is confirmed to be more prevalent in female than in male (F:M = 1.8) but, in DQ2/DQ8 negative patients, we found an unexpected male excess (F:M = 0.7). Moreover, only the inheritance of a paternal DQ2 haplotype led to a daughters predominance. These data show a role of HLA genes on the disease sex bias and suggest a possible different effect of parent-specific epigenetic modifications in the two genders.Celiac disease (CD) is twice as frequent among female than male. Despite the large number of reports on the DQ2/DQ8 association, no systematic studies have investigated a possible different role of the HLA genes in the two genders. We performed case-control and family-based analyses of DR-DQ variants in a pediatric CD cohort with the aim of comparing female to male associations and to investigate the paternal/maternal inheritance of the disease-predisposing haplotypes. METHODS: A total of 281 female and 156 male pediatric celiac patients, 292 nuclear families, and 551 controls were genotyped for HLA-DRB1, DQA1, and DQB1 loci. Odds ratio, parental origin of the disease-associated haplotypes, and transmission ratio distortion were evaluated in-between male and female cases. RESULTS: DQ2/DQ8 were more frequent in female than in male patients (94% F, 85% M; P = 1.6 x 10(-3)) with a 99.1% and 90.5% calculated negative predictive value of the HLA test, respectively. Surprisingly, the majori