Microbiology & Immunology - Research Publications

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Type: Journal Article × Start date: 2010 × End date: 2019 × Author: Simmons, Cameron × Author: Dunstan, Sarah ×

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    Genome-wide association study identifies susceptibility loci for dengue shock syndrome at MICB and PLCE1
    Khor, CC ; Tran, NBC ; Pang, J ; Davila, S ; Hoang, TL ; Ong, RTH ; Dunstan, SJ ; Wills, B ; Farrar, J ; Ta, VT ; Tran, TG ; Nguyen, TNB ; Le, TT ; Le, BL ; Nguyen, MT ; Nguyen, THT ; Mai, NL ; Nguyen, MN ; Nguyen, TH ; Nguyen, VC ; Tran, TT ; Tan, DEK ; Sakuntabhai, A ; Teo, Y-Y ; Hibberd, ML ; Simmons, CP (NATURE PUBLISHING GROUP, 2011-11)
    Hypovolemic shock (dengue shock syndrome (DSS)) is the most common life-threatening complication of dengue. We conducted a genome-wide association study of 2,008 pediatric cases treated for DSS and 2,018 controls from Vietnam. Replication of the most significantly associated markers was carried out in an independent Vietnamese sample of 1,737 cases and 2,934 controls. SNPs at two loci showed genome-wide significant association with DSS. We identified a susceptibility locus at MICB (major histocompatibility complex (MHC) class I polypeptide-related sequence B), which was within the broad MHC region on chromosome 6 but outside the class I and class II HLA loci (rs3132468, P(meta) = 4.41 × 10(-11), per-allele odds ratio (OR) = 1.34 (95% confidence interval: 1.23-1.46)). We identified associated variants within PLCE1 (phospholipase C, epsilon 1) on chromosome 10 (rs3765524, P(meta) = 3.08 × 10(-10), per-allele OR = 0.80 (95% confidence interval: 0.75-0.86)). We identify two loci associated with susceptibility to DSS in people with dengue, suggesting possible mechanisms for this severe complication of dengue.
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    Variation in human genes encoding adhesion and proinflammatory molecules are associated with severe malaria in the Vietnamese
    Dunstan, SJ ; Rocketts, KA ; Quyen, NTN ; Teo, YY ; Thai, CQ ; Hang, NT ; Jeffreys, A ; Clark, TG ; Small, KS ; Simmons, CP ; Day, N ; O'Riordan, SE ; Kwiatkowski, DP ; Farrar, J ; Phu, NH ; Hien, TT (NATURE PUBLISHING GROUP, 2012-09)
    The genetic basis for susceptibility to malaria has been studied widely in African populations but less is known of the contribution of specific genetic variants in Asian populations. We genotyped 67 single-nucleotide polymorphisms (SNPs) in 1030 severe malaria cases and 2840 controls from Vietnam. After data quality control, genotyping data of 956 cases and 2350 controls were analysed for 65 SNPs (3 gender confirmation, 62 positioned in/near 42 malarial candidate genes). A total of 14 SNPs were monomorphic and 2 (rs8078340 and rs33950507) were not in Hardy-Weinberg equilibrium in controls (P<0.01). In all, 7/46 SNPs in 6 genes (ICAM1, IL1A, IL17RC, IL13, LTA and TNF) were associated with severe malaria, with 3/7 SNPs in the TNF/LTA region. Genotype-phenotype correlations between SNPs and clinical parameters revealed that genotypes of rs708567 (IL17RC) correlate with parasitemia (P=0.028, r(2)=0.0086), with GG homozygotes having the lowest parasite burden. Additionally, rs708567 GG homozygotes had a decreased risk of severe malaria (P=0.007, OR=0.78 (95% CI; 0.65-0.93)) and death (P=0.028, OR=0.58 (95% CI; 0.37-0.93)) than those with AA and AG genotypes. In summary, variants in six genes encoding adhesion and proinflammatory molecules are associated with severe malaria in the Vietnamese. Further replicative studies in independent populations will be necessary to confirm these findings.
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    TM4SF20 Ancestral Deletion and Susceptibility to a Pediatric Disorder of Early Language Delay and Cerebral White Matter Hyperintensities
    Wiszniewski, W ; Hunter, JV ; Hanchard, NA ; Willer, JR ; Shaw, C ; Tian, Q ; Illner, A ; Wang, X ; Cheung, SW ; Patel, A ; Campbell, IM ; Gelowani, V ; Hixson, P ; Ester, AR ; Azamian, MS ; Potocki, L ; Zapata, G ; Hernandez, PP ; Ramocki, MB ; Santos-Cortez, RLP ; Wang, G ; York, MK ; Justice, MJ ; Chu, ZD ; Bader, PI ; Omo-Griffith, L ; Madduri, NS ; Scharer, G ; Crawford, HP ; Yanatatsaneejit, P ; Eifert, A ; Kerr, J ; Bacino, CA ; Franklin, AIA ; Goin-Kochel, RP ; Simpson, G ; Immken, L ; Haque, ME ; Stosic, M ; Williams, MD ; Morgan, TM ; Pruthi, S ; Omary, R ; Boyadjiev, SA ; Win, KK ; Thida, A ; Hurles, M ; Hibberd, ML ; Khor, CC ; Chau, NVV ; Gallagher, TE ; Mutirangura, A ; Stankiewicz, P ; Beaudet, AL ; Maletic-Savatic, M ; Rosenfeld, JA ; Shaffer, LG ; Davis, EE ; Belmont, JW ; Dunstan, S ; Simmons, CP ; Bonnen, PE ; Leal, SM ; Katsanis, N ; Lupski, JR ; Lalani, SR (CELL PRESS, 2013-08-08)
    White matter hyperintensities (WMHs) of the brain are important markers of aging and small-vessel disease. WMHs are rare in healthy children and, when observed, often occur with comorbid neuroinflammatory or vasculitic processes. Here, we describe a complex 4 kb deletion in 2q36.3 that segregates with early childhood communication disorders and WMH in 15 unrelated families predominantly from Southeast Asia. The premature brain aging phenotype with punctate and multifocal WMHs was observed in ~70% of young carrier parents who underwent brain MRI. The complex deletion removes the penultimate exon 3 of TM4SF20, a gene encoding a transmembrane protein of unknown function. Minigene analysis showed that the resultant net loss of an exon introduces a premature stop codon, which, in turn, leads to the generation of a stable protein that fails to target to the plasma membrane and accumulates in the cytoplasm. Finally, we report this deletion to be enriched in individuals of Vietnamese Kinh descent, with an allele frequency of about 1%, embedded in an ancestral haplotype. Our data point to a constellation of early language delay and WMH phenotypes, driven by a likely toxic mechanism of TM4SF20 truncation, and highlight the importance of understanding and managing population-specific low-frequency pathogenic alleles.
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    Variation at HLA-DRB1 is associated with resistance to enteric fever
    Dunstan, SJ ; Nguyen, TH ; Buhm, H ; Li, Z ; Trinh, TBT ; Sim, KS ; Parry, CM ; Nguyen, TC ; Ha, V ; Nguyen, PHL ; Nga, TVT ; Phat, VV ; Koirala, S ; Dongol, S ; Arjyal, A ; Karkey, A ; Shilpakar, O ; Dolecek, C ; Foo, JN ; Le, TP ; Mai, NL ; Tan, D ; Aung, T ; Do, NH ; Teo, YY ; Hibberd, ML ; Anders, KL ; Okada, Y ; Raychaudhuri, S ; Simmons, CP ; Baker, S ; de Bakker, PIW ; Basnyat, B ; Tran, TH ; Farrar, JJ ; Khor, CC (NATURE PUBLISHING GROUP, 2014-12)
    Enteric fever affects more than 25 million people annually and results from systemic infection with Salmonella enterica serovar Typhi or Paratyphi pathovars A, B or C(1). We conducted a genome-wide association study of 432 individuals with blood culture-confirmed enteric fever and 2,011 controls from Vietnam. We observed strong association at rs7765379 (odds ratio (OR) for the minor allele = 0.18, P = 4.5 × 10(-10)), a marker mapping to the HLA class II region, in proximity to HLA-DQB1 and HLA-DRB1. We replicated this association in 595 enteric fever cases and 386 controls from Nepal and also in a second independent collection of 151 cases and 668 controls from Vietnam. Imputation-based fine-mapping across the extended MHC region showed that the classical HLA-DRB1*04:05 allele (OR = 0.14, P = 2.60 × 10(-11)) could entirely explain the association at rs7765379, thus implicating HLA-DRB1 as a major contributor to resistance against enteric fever, presumably through antigen presentation.
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    Characterising private and shared signatures of positive selection in 37 Asian populations
    Liu, X ; Lu, D ; Saw, W-Y ; Shaw, PJ ; Wangkumhang, P ; Ngamphiw, C ; Fucharoen, S ; Lert-itthiporn, W ; Chin-inmanu, K ; Tran, NBC ; Anders, K ; Kasturiratne, A ; de Silva, HJ ; Katsuya, T ; Kimura, R ; Nabika, T ; Ohkubo, T ; Tabara, Y ; Takeuchi, F ; Yamamoto, K ; Yokota, M ; Mamatyusupu, D ; Yang, W ; Chung, Y-J ; Jin, L ; Hoh, B-P ; Wickremasinghe, AR ; Ong, R-H ; Khor, C-C ; Dunstan, SJ ; Simmons, C ; Tongsima, S ; Suriyaphol, P ; Kato, N ; Xu, S ; Teo, Y-Y (NATURE PUBLISHING GROUP, 2017-04)
    The Asian Diversity Project (ADP) assembled 37 cosmopolitan and ethnic minority populations in Asia that have been densely genotyped across over half a million markers to study patterns of genetic diversity and positive natural selection. We performed population structure analyses of the ADP populations and divided these populations into four major groups based on their genographic information. By applying a highly sensitive algorithm haploPS to locate genomic signatures of positive selection, 140 distinct genomic regions exhibiting evidence of positive selection in at least one population were identified. We examined the extent of signal sharing for regions that were selected in multiple populations and observed that populations clustered in a similar fashion to that of how the ancestry clades were phylogenetically defined. In particular, populations predominantly located in South Asia underwent considerably different adaptation as compared with populations from the other geographical regions. Signatures of positive selection present in multiple geographical regions were predicted to be older and have emerged prior to the separation of the populations in the different regions. In contrast, selection signals present in a single population group tended to be of lower frequencies and thus can be attributed to recent evolutionary events.