Centre for Eye Research Australia (CERA) - Research Publications

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Author: Hewitt, Alexander × Author: Xie, Jing × Start date: 2013 × Type: Journal Article ×

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    Genetic Loci for Retinal Arteriolar Microcirculation
    Sim, X ; Jensen, RA ; Ikram, MK ; Cotch, MF ; Li, X ; MacGregor, S ; Xie, J ; Smith, AV ; Boerwinkle, E ; Mitchell, P ; Klein, R ; Klein, BEK ; Glazer, NL ; Lumley, T ; McKnight, B ; Psaty, BM ; de Jong, PTVM ; Hofman, A ; Rivadeneira, F ; Uitterlinden, AG ; van Duijn, CM ; Aspelund, T ; Eiriksdottir, G ; Harris, TB ; Jonasson, F ; Launer, LJ ; Attia, J ; Baird, PN ; Harrap, S ; Holliday, EG ; Inouye, M ; Rochtchina, E ; Scott, RJ ; Viswanathan, A ; Li, G ; Smith, NL ; Wiggins, KL ; Kuo, JZ ; Taylor, KD ; Hewitt, AW ; Martin, NG ; Montgomery, GW ; Sun, C ; Young, TL ; Mackey, DA ; van Zuydam, NR ; Doney, ASF ; Palmer, CNA ; Morris, AD ; Rotter, JI ; Tai, ES ; Gudnason, V ; Vingerling, JR ; Siscovick, DS ; Wang, JJ ; Wong, TY ; Wallace, GR (PUBLIC LIBRARY SCIENCE, 2013-06-12)
    Narrow arterioles in the retina have been shown to predict hypertension as well as other vascular diseases, likely through an increase in the peripheral resistance of the microcirculatory flow. In this study, we performed a genome-wide association study in 18,722 unrelated individuals of European ancestry from the Cohorts for Heart and Aging Research in Genomic Epidemiology consortium and the Blue Mountain Eye Study, to identify genetic determinants associated with variations in retinal arteriolar caliber. Retinal vascular calibers were measured on digitized retinal photographs using a standardized protocol. One variant (rs2194025 on chromosome 5q14 near the myocyte enhancer factor 2C MEF2C gene) was associated with retinal arteriolar caliber in the meta-analysis of the discovery cohorts at genome-wide significance of P-value <5×10(-8). This variant was replicated in an additional 3,939 individuals of European ancestry from the Australian Twins Study and Multi-Ethnic Study of Atherosclerosis (rs2194025, P-value = 2.11×10(-12) in combined meta-analysis of discovery and replication cohorts). In independent studies of modest sample sizes, no significant association was found between this variant and clinical outcomes including coronary artery disease, stroke, myocardial infarction or hypertension. In conclusion, we found one novel loci which underlie genetic variation in microvasculature which may be relevant to vascular disease. The relevance of these findings to clinical outcomes remains to be determined.
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    Short Sleep Duration Is Associated with Risk of Future Diabetes but Not Cardiovascular Disease: a Prospective Study and Meta-Analysis
    Holliday, EG ; Magee, CA ; Kritharides, L ; Banks, E ; Attia, J ; Miao, X-P (PUBLIC LIBRARY SCIENCE, 2013-11-25)
    Genetic factors explain a majority of risk variance for age-related macular degeneration (AMD). While genome-wide association studies (GWAS) for late AMD implicate genes in complement, inflammatory and lipid pathways, the genetic architecture of early AMD has been relatively under studied. We conducted a GWAS meta-analysis of early AMD, including 4,089 individuals with prevalent signs of early AMD (soft drusen and/or retinal pigment epithelial changes) and 20,453 individuals without these signs. For various published late AMD risk loci, we also compared effect sizes between early and late AMD using an additional 484 individuals with prevalent late AMD. GWAS meta-analysis confirmed previously reported association of variants at the complement factor H (CFH) (peak P = 1.5×10(-31)) and age-related maculopathy susceptibility 2 (ARMS2) (P = 4.3×10(-24)) loci, and suggested Apolipoprotein E (ApoE) polymorphisms (rs2075650; P = 1.1×10(-6)) associated with early AMD. Other possible loci that did not reach GWAS significance included variants in the zinc finger protein gene GLI3 (rs2049622; P = 8.9×10(-6)) and upstream of GLI2 (rs6721654; P = 6.5×10(-6)), encoding retinal Sonic hedgehog signalling regulators, and in the tyrosinase (TYR) gene (rs621313; P = 3.5×10(-6)), involved in melanin biosynthesis. For a range of published, late AMD risk loci, estimated effect sizes were significantly lower for early than late AMD. This study confirms the involvement of multiple established AMD risk variants in early AMD, but suggests weaker genetic effects on the risk of early AMD relative to late AMD. Several biological processes were suggested to be potentially specific for early AMD, including pathways regulating RPE cell melanin content and signalling pathways potentially involved in retinal regeneration, generating hypotheses for further investigation.
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    Childhood gene-environment interactions and age-dependent effects of genetic variants associated with refractive error and myopia: The CREAM Consortium
    Fan, Q ; Guo, X ; Tideman, JWL ; Williams, KM ; Yazar, S ; Hosseini, SM ; Howe, LD ; St Pourcain, B ; Evans, DM ; Timpson, NJ ; McMahon, G ; Hysi, PG ; Krapohl, E ; Wang, YX ; Jonas, JB ; Baird, PN ; Wang, JJ ; Cheng, C-Y ; Teo, Y-Y ; Wong, T-Y ; Ding, X ; Wojciechowski, R ; Young, TL ; Parssinen, O ; Oexle, K ; Pfeiffer, N ; Bailey-Wilson, JE ; Paterson, AD ; Klaver, CCW ; Plomin, R ; Hammond, CJ ; Mackey, DA ; He, M ; Saw, S-M ; Williams, C ; Guggenheim, JA (NATURE PORTFOLIO, 2016-05-13)
    Myopia, currently at epidemic levels in East Asia, is a leading cause of untreatable visual impairment. Genome-wide association studies (GWAS) in adults have identified 39 loci associated with refractive error and myopia. Here, the age-of-onset of association between genetic variants at these 39 loci and refractive error was investigated in 5200 children assessed longitudinally across ages 7-15 years, along with gene-environment interactions involving the major environmental risk-factors, nearwork and time outdoors. Specific variants could be categorized as showing evidence of: (a) early-onset effects remaining stable through childhood, (b) early-onset effects that progressed further with increasing age, or (c) onset later in childhood (N = 10, 5 and 11 variants, respectively). A genetic risk score (GRS) for all 39 variants explained 0.6% (P = 6.6E-08) and 2.3% (P = 6.9E-21) of the variance in refractive error at ages 7 and 15, respectively, supporting increased effects from these genetic variants at older ages. Replication in multi-ancestry samples (combined N = 5599) yielded evidence of childhood onset for 6 of 12 variants present in both Asians and Europeans. There was no indication that variant or GRS effects altered depending on time outdoors, however 5 variants showed nominal evidence of interactions with nearwork (top variant, rs7829127 in ZMAT4; P = 6.3E-04).
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    Meta-analysis of gene-environment-wide association scans accounting for education level identifies additional loci for refractive error
    Fan, Q ; Verhoeven, VJM ; Wojciechowski, R ; Barathi, VA ; Hysi, PG ; Guggenheim, JA ; Hoehn, R ; Vitart, V ; Khawaja, AP ; Yamashiro, K ; Hosseini, SM ; Lehtimaki, T ; Lu, Y ; Haller, T ; Xie, J ; Delcourt, C ; Pirastu, M ; Wedenoja, J ; Gharahkhani, P ; Venturini, C ; Miyake, M ; Hewitt, AW ; Guo, X ; Mazur, J ; Huffman, JE ; Williams, KM ; Polasek, O ; Campbell, H ; Rudan, I ; Vatavuk, Z ; Wilson, JF ; Joshi, PK ; McMahon, G ; St Pourcain, B ; Evans, DM ; Simpson, CL ; Schwantes-An, T-H ; Igo, RP ; Mirshahi, A ; Cougnard-Gregoire, A ; Bellenguez, C ; Blettner, M ; Raitakari, O ; Kaehoenen, M ; Seppala, I ; Zeller, T ; Meitinger, T ; Ried, JS ; Gieger, C ; Portas, L ; van Leeuwen, EM ; Amin, N ; Uitterlinden, AG ; Rivadeneira, F ; Hofman, A ; Vingerling, JR ; Wang, YX ; Wang, X ; Boh, ET-H ; Ikram, MK ; Sabanayagam, C ; Gupta, P ; Tan, V ; Zhou, L ; Ho, CEH ; Lim, W ; Beuerman, RW ; Siantar, R ; Tai, E-S ; Vithana, E ; Mihailov, E ; Khor, C-C ; Hayward, C ; Luben, RN ; Foster, PJ ; Klein, BEK ; Klein, R ; Wong, H-S ; Mitchell, P ; Metspalu, A ; Aung, T ; Young, TL ; He, M ; Paerssinen, O ; van Duijn, CM ; Wang, JJ ; Williams, C ; Jonas, JB ; Teo, Y-Y ; David, AMM ; Oexle, K ; Yoshimura, N ; Paterson, AD ; Pfeiffer, N ; Wong, T-Y ; Baird, PN ; Stambolian, D ; Bailey-Wilson, JE ; Cheng, C-Y ; Hammond, CJ ; Klaver, CCW ; Saw, S-M ; Rahi, JS ; Korobelnik, J-F ; Kemp, JP ; Timpson, NJ ; Smith, GD ; Craig, JE ; Burdon, KP ; Fogarty, RD ; Iyengar, SK ; Chew, E ; Janmahasatian, S ; Martin, NG ; MacGregor, S ; Xu, L ; Schache, M ; Nangia, V ; Panda-Jonas, S ; Wright, AF ; Fondran, JR ; Lass, JH ; Feng, S ; Zhao, JH ; Khaw, K-T ; Wareham, NJ ; Rantanen, T ; Kaprio, J ; Pang, CP ; Chen, LJ ; Tam, PO ; Jhanji, V ; Young, AL ; Doering, A ; Raffel, LJ ; Cotch, M-F ; Li, X ; Yip, SP ; Yap, MKH ; Biino, G ; Vaccargiu, S ; Fossarello, M ; Fleck, B ; Yazar, S ; Tideman, JWL ; Tedja, M ; Deangelis, MM ; Morrison, M ; Farrer, L ; Zhou, X ; Chen, W ; Mizuki, N ; Meguro, A ; Makela, KM (NATURE PUBLISHING GROUP, 2016-04)
    Myopia is the most common human eye disorder and it results from complex genetic and environmental causes. The rapidly increasing prevalence of myopia poses a major public health challenge. Here, the CREAM consortium performs a joint meta-analysis to test single-nucleotide polymorphism (SNP) main effects and SNP × education interaction effects on refractive error in 40,036 adults from 25 studies of European ancestry and 10,315 adults from 9 studies of Asian ancestry. In European ancestry individuals, we identify six novel loci (FAM150B-ACP1, LINC00340, FBN1, DIS3L-MAP2K1, ARID2-SNAT1 and SLC14A2) associated with refractive error. In Asian populations, three genome-wide significant loci AREG, GABRR1 and PDE10A also exhibit strong interactions with education (P<8.5 × 10(-5)), whereas the interactions are less evident in Europeans. The discovery of these loci represents an important advance in understanding how gene and environment interactions contribute to the heterogeneity of myopia.
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    Genome-wide association meta-analysis of corneal curvature identifies novel loci and shared genetic influences across axial length and refractive error
    Fan, Q ; Pozarickij, A ; Tan, NYQ ; Guo, X ; Verhoeven, VJM ; Vitart, V ; Guggenheim, JA ; Miyake, M ; Tideman, JWL ; Khawaja, AP ; Zhang, L ; MacGregor, S ; Hoehn, R ; Chen, P ; Biino, G ; Wedenoja, J ; Saffari, SE ; Tedja, MS ; Xie, J ; Lanca, C ; Wang, YX ; Sahebjada, S ; Mazur, J ; Mirshahi, A ; Martin, NG ; Yazar, S ; Pennell, CE ; Yap, M ; Haarman, AEG ; Enthoven, CA ; Polling, J ; Hewitt, AW ; Jaddoe, VWV ; van Duijn, CM ; Hayward, C ; Polasek, O ; Tai, E-S ; Yoshikatsu, H ; Hysi, PG ; Young, TL ; Tsujikawa, A ; Wang, JJ ; Mitchell, P ; Pfeiffer, N ; Parssinen, O ; Foster, PJ ; Fossarello, M ; Yip, SP ; Williams, C ; Hammond, CJ ; Jonas, JB ; He, M ; Mackey, DA ; Wong, T-Y ; Klaver, CCW ; Saw, S-M ; Baird, PN ; Cheng, C-Y (NATURE PORTFOLIO, 2020-03-19)
    Corneal curvature, a highly heritable trait, is a key clinical endophenotype for myopia - a major cause of visual impairment and blindness in the world. Here we present a trans-ethnic meta-analysis of corneal curvature GWAS in 44,042 individuals of Caucasian and Asian with replication in 88,218 UK Biobank data. We identified 47 loci (of which 26 are novel), with population-specific signals as well as shared signals across ethnicities. Some identified variants showed precise scaling in corneal curvature and eye elongation (i.e. axial length) to maintain eyes in emmetropia (i.e. HDAC11/FBLN2 rs2630445, RBP3 rs11204213); others exhibited association with myopia with little pleiotropic effects on eye elongation. Implicated genes are involved in extracellular matrix organization, developmental process for body and eye, connective tissue cartilage and glycosylation protein activities. Our study provides insights into population-specific novel genes for corneal curvature, and their pleiotropic effect in regulating eye size or conferring susceptibility to myopia.