Graves' disease is the leading cause of hyperthyroidism affecting 1.0–1.6% of the population. Antithyroid drugs are the treatment cornerstone, but may cause life-threatening agranulocytosis. Here we conduct a two-stage association study on two separate subject sets (in total 42 agranulocytosis cases and 1,208 Graves' disease controls), using direct human leukocyte antigen genotyping and SNP-based genome-wide association study. We demonstrate HLA-B*38:02 (Armitage trend Pcombined=6.75 × 10−32) and HLA-DRB1*08:03 (Pcombined=1.83 × 10−9) as independent susceptibility loci. The genome-wide association study identifies the same signals. Estimated odds ratios for these two loci comparing effective allele carriers to non-carriers are 21.48 (95% confidence interval=11.13–41.48) and 6.13 (95% confidence interval=3.28–11.46), respectively. Carrying both HLA-B*38:02 and HLA-DRB1*08:03 increases odds ratio to 48.41 (Pcombined=3.32 × 10−21, 95% confidence interval=21.66–108.22). Our results could be useful for antithyroid-induced agranulocytosis and potentially for agranulocytosis caused by other chemicals.
The immunogenicity of HLA-A*0201-restricted cytotoxic T lymphocyte (CTL) peptide in severe acute respiratory syndrome coronavirus (SARS-CoV) nuclear capsid (N) and spike (S) proteins was determined by testing the proteins' ability to elicit a specific cellular immune response after immunization of HLA-A2.1 transgenic mice and in vitro vaccination of HLA-A2.1 positive human peripheral blood mononuclearcytes (PBMCs). First, we screened SARS N and S amino acid sequences for allele-specific motif matching those in human HLA-A2.1 MHC-I molecules. From HLA peptide binding predictions (http://thr.cit.nih.gov/molbio/hla_bind/), ten each potential N- and S-specific HLA-A2.1-binding peptides were synthesized. The high affinity HLA-A2.1 peptides were validated by T2-cell stabilization assays, with immunogenicity assays revealing peptides N223-231, N227-235, and N317-325 to be the first identified HLA-A*0201-restricted CTL epitopes of SARS-CoV N protein. In addition, previous reports identified three HLA-A*0201-restricted CTL epitopes of S protein (S978-986, S1203-1211, and S1167-1175), here we found two novel peptides S787-795 and S1042-1050 as S-specific CTL epitopes. Moreover, our identified N317-325 and S1042-1050 CTL epitopes could induce recall responses when IFN-gamma stimulation of blood CD8+ T-cells revealed significant difference between normal healthy donors and SARS-recovered patients after those PBMCs were in vitro vaccinated with their cognate antigen. Our results would provide a new insight into the development of therapeutic vaccine in SARS.
BackgroundGraves' disease (GD) is the leading cause of hyperthyroidism and thyroid eye disease inherited as a complex trait. Although geoepidemiology studies showed relatively higher prevalence of GD in Asians than in Caucasians, previous genetic studies were contradictory concerning whether and/or which human leukocyte antigen (HLA) alleles are associated with GD in Asians.Methodology/Principal FindingsWe conducted a case-control association study (499 unrelated GD cases and 504 controls) and a replication in an independent family sample (419 GD individuals and their 282 relatives in 165 families). To minimize genetic and phenotypic heterogeneity, we included only ethnic Chinese Han population in Taiwan and excluded subjects with hypothyroidism. We performed direct and comprehensive genotyping of six classical HLA loci (HLA-A, -B, -C, -DPB1, -DQB1 and -DRB1) to 4-digit resolution. Combining the data of two sample populations, we found that B*46:01 (odds ratio under dominant model [OR] = 1.33, Bonferroni corrected combined P [PBc] = 1.17×10−2), DPB1*05:01 (OR = 2.34, PBc = 2.58×10−10), DQB1*03:02 (OR = 0.62, PBc = 1.97×10−2), DRB1*15:01 (OR = 1.68, PBc = 1.22×10−2) and DRB1*16:02 (OR = 2.63, PBc = 1.46×10−5) were associated with GD. HLA-DPB1*05:01 is the major gene of GD in our population and singly accounts for 48.4% of population-attributable risk.Conclusions/SignificanceThese GD-associated alleles we identified in ethnic Chinese Hans, and those identified in other Asian studies, are totally distinct from the known associated alleles in Caucasians. Identification of population-specific association alleles is the critical first step for individualized medicine. Furthermore, comparison between different susceptibility/protective alleles across populations could facilitate generation of novel hypothesis about GD pathophysiology and indicate a new direction for future investigation.
Human papillomavirus (HPV) is considered to be a necessary but not sufficient cause for cervical cancer. The host immunogenetic background plays an important role in the persistence of HPV infection and subsequent development of cervical cancer. Cytotoxic T-lymphocyte antigen-4 (CTLA-4) is a molecule expressed mainly on activated T cells and is important in the down-regulation of T-cell activation. The aim of this study was to determine if polymorphisms of the CTLA-4 gene are associated with HPV-induced cervical cancer in Taiwanese women. Polymerase chain reaction-restriction fragment length polymorphism was used to genotype -318 C/T, +49 A/G and CT60 A/G polymorphisms in 144 women with cervical squamous cell carcinoma (CSCC) and 378 ethnicity-matched healthy control women. The presence and genotypes of HPV in CSCC were determined by E6-, E7-based nested polymerase chain reaction. The frequency of C/T genotype of -318 C/T polymorphism was significantly higher in patients with HPV-16-positive CSCC compared with controls (odds ratio = 1.99, 95% confidence interval = 1.16-3.42, P(c) = 0.03). No significant associations were found for +49 A/G and CT60 A/G polymorphisms. Analysis of haplotypes, computationally inferred from genotype data, also revealed no significant differences in distribution among all subjects with CSCC, those with HPV-16-positive CSCC and controls. Our results suggest that the -318 C/T variant in the promoter region of the CTLA-4 gene is associated with HPV-16-associated CSCC in Taiwanese women.
examined, suggesting that the absence of functional T cells, rather than specifically CD247, affects NK differentiation. This observation is consistent with data from patients undergoing stem cell transplantation (SCT) in whom the first NK cells to repopulate the periphery have an immature phenotype and are less able to mediate cytotoxicity before T-cell recovery. 8 Interestingly, the ability of peripheral blood NK cells from the CD247-deficient patient to proliferate in mixed lymphocyte cultures in vitro was severely limited (see Fig E3 in this article's Online Repository at www.jacionline.org), but this phenotype could be reversed by IL-2 addition.During differentiation, the ability of NK cells to respond to stimulation is finely tuned in function of the repertoire of inhibitory and activating receptors expressed by each NK cell. 9 Because CD247 deficiency causes decreased expression and function of a range of activating NK receptors, impaired signaling might underlie the partial block of NK cell differentiation and NK cell hyporesponsiveness, which were observed in the CD247deficient patient. Importantly, similar changes in NK cell phenotype and function have not been seen in children with symptomatic congenital human cytomegalovirus (CMV) infection, 10 arguing against the hypothesis that the changes observed in the CD247-deficient patient are a consequence of CMV infection.Our observations have direct implications for the clinical management of immunodeficient patients. Even when not directly fatal, episodes of infectious disease delay transplantation and negatively affect the outcome. Thus, because NK cells play a critical role in antiviral immunity, the potentiation of NK cell function, for example by means of low-dose therapy with IL-2, could be a useful strategy to minimize infections and aid in the management of these patients until SCT.We thank all of the subjects who have contributed blood samples for these studies and Drs M. Lopez-Botet, J. Gil-Herrera, and M. L. Toribio for helpful discussion and advice.
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