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    ItemOpen Access
    Human genetic and immunological determinants of critical COVID-19 pneumonia
    (Springer Nature, 2022-03-24) Zhang, Qian; Bastard, Paul; Karbuz, Adem; Gervais, Adrian; Tayoun, Ahmad Abou; Aiuti, Alessandro; Belot, Alexandre; Bolze, Alexandre; Gaudet, Alexandre; Bondarenko, Anastasiia; Liu, Zhiyong; Spaan, András N.; Guennoun, Andrea; Arias, Andres Augusto; Planas, Anna M.; Sediva, Anna; Shcherbina, Anna; Neehus, Anna-Lena; Puel, Anne; Froidure, Antoine; Novelli, Antonio; Parlakay, Aslınur Özkaya; Pujol, Aurora; Yahşi, Aysun; Gülhan, Belgin; Bigio, Benedetta; Boisson, Bertrand; Drolet, Beth A.; Franco, Carlos Andres Arango; Flores, Carlos; Rodríguez-Gallego, Carlos; Prando, Carolina; Biggs, Catherine M.; Luyt, Charles-Edouard; Dalgard, Clifton L.; O’Farrelly, Cliona; Matuozzo, Daniela; Dalmau, David; Perlin, David S.; Mansouri, Davood; van de Beek, Diederik; Vinh, Donald C.; Dominguez-Garrido, Elena; Hsieh, Elena W. Y.; Erdeniz, Emine Hafize; Jouanguy, Emmanuelle; Şevketoglu, Esra; Talouarn, Estelle; Quiros-Roldan, Eugenia; Andreakos, Evangelos; Husebye, Eystein; Alsohime, Fahad; Haerynck, Filomeen; Casari, Giorgio; Novelli, Giuseppe; Aytekin, Gökhan; Morelle, Guillaume; Alkan, Gulsum; Bayhan, Gulsum Iclal; Feldman, Hagit Baris; Su, Helen C.; von Bernuth, Horst; Resnick, Igor; Bustos, Ingrid; Meyts, Isabelle; Migeotte, Isabelle; Tancevski, Ivan; Bustamante, Jacinta; Fellay, Jacques; El Baghdadi, Jamila; Martinez-Picado, Javier; Casanova, Jean-Laurent; Rosain, Jeremie; Manry, Jeremy; Chen, Jie; Christodoulou, John; Bohlen, Jonathan; Franco, José Luis; Li, Juan; Anaya, Juan Manuel; Rojas, Julian; Ye, Junqiang; Uddin, K. M. Furkan; Yasar, Kadriye Kart; Kisand, Kai; Okamoto, Keisuke; Chaïbi, Khalil; Mironska, Kristina; Maródi, László; Abel, Laurent; Renia, Laurent; Lorenzo, Lazaro; Hammarström, Lennart; Ng, Lisa F. P.; Quintana-Murci, Lluis; Erazo, Lucia Victoria; Notarangelo, Luigi D.; Reyes, Luis Felipe; Allende, Luis M.; Imberti, Luisa; Renkilaraj, Majistor Raj Luxman Maglorius; Moncada-Velez, Marcela; Materna, Marie; Anderson, Mark S.; Gut, Marta; Chbihi, Marwa; Ogishi, Masato; Emiroglu, Melike; Seppänen, Mikko R. J.; Uddin, Mohammed J.; Shahrooei, Mohammed; Alexander, Natalie; Hatipoglu, Nevin; Marr, Nico; Akçay, Nihal; Boyarchuk, Oksana; Slaby, Ondrej; Akcan, Ozge Metin; Zhang, Peng; Soler-Palacín, Pere; Gregersen, Peter K.; Brodin, Petter; Garçon, Pierre; Morange, Pierre-Emmanuel; Pan-Hammarström, Qiang; Zhou, Qinhua; Philippot, Quentin; Halwani, Rabih; de Diego, Rebeca Perez; Levy, Romain; Yang, Rui; Öz, Şadiye Kübra Tüter; Muhsen, Saleh Al; Kanık-Yüksek, Saliha; Espinosa-Padilla, Sara; Ramaswamy, Sathishkumar; Okada, Satoshi; Bozdemir, Sefika Elmas; Aytekin, Selma Erol; Karabela, Şemsi Nur; Keles, Sevgi; Senoglu, Sevtap; Zhang, Shen-Ying; Duvlis, Sotirija; Constantinescu, Stefan N.; Boisson-Dupuis, Stephanie; Turvey, Stuart E.; Tangye, Stuart G.; Asano, Takaki; Özcelik, Tayfun; Le Voyer, Tom; Maniatis, Tom; Morio, Tomohiro; Mogensen, Trine H.; Sancho-Shimizu, Vanessa; Beziat, Vivien; Solanich, Xavier; Bryceson, Yenan; Lau, Yu-Lung; Itan, Yuval; Cobat, Aurélie; Casanova, Jean-Laurent
    SARS-CoV-2 infection is benign in most individuals but, in around 10% of cases, it triggers hypoxaemic COVID-19 pneumonia, which leads to critical illness in around 3% of cases. The ensuing risk of death (approximately 1% across age and gender) doubles every five years from childhood onwards and is around 1.5 times greater in men than in women. Here we review the molecular and cellular determinants of critical COVID-19 pneumonia. Inborn errors of type I interferons (IFNs), including autosomal TLR3 and X-chromosome-linked TLR7 deficiencies, are found in around 1–5% of patients with critical pneumonia under 60 years old, and a lower proportion in older patients. Pre-existing auto-antibodies neutralizing IFNα, IFNβ and/or IFNω, which are more common in men than in women, are found in approximately 15–20% of patients with critical pneumonia over 70 years old, and a lower proportion in younger patients. Thus, at least 15% of cases of critical COVID-19 pneumonia can be explained. The TLR3- and TLR7-dependent production of type I IFNs by respiratory epithelial cells and plasmacytoid dendritic cells, respectively, is essential for host defence against SARS-CoV-2. In ways that can depend on age and sex, insufficient type I IFN immunity in the respiratory tract during the first few days of infection may account for the spread of the virus, leading to pulmonary and systemic inflammation. © 2022, Springer Nature Limited.
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    ItemOpen Access
    An integrated map of genetic variation from 1,092 human genomes
    (Nature Publishing Group, 2012) Altshuler, D.M.; Durbin, R.M.; Abecasis G.R.; Bentley, D.R.; Chakravarti, A.; Clark, A.G.; Donnelly P.; Eichler, E.E.; Flicek P.; Gabriel, S.B.; Gibbs, R.A.; Green, E.D.; Hurles, M.E.; Knoppers, B.M.; Korbel J.O.; Lander, E.S.; Lee, C.; Lehrach H.; Mardis, E.R.; Marth G.T.; McVean G.A.; Nickerson, D.A.; Schmidt J.P.; Sherry, S.T.; Wang, J.; Wilson, R.K.; Dinh H.; Kovar, C.; Lee, S.; Lewis L.; Muzny, D.; Reid J.; Wang, M.; Fang X.; Guo X.; Jian, M.; Jiang H.; Jin X.; Li G.; Li J.; Li Y.; Li, Z.; Liu X.; Lu, Y.; Ma X.; Su, Z.; Tai, S.; Tang, M.; Wang, B.; Wang G.; Wu H.; Wu, R.; Yin, Y.; Zhang W.; Zhao J.; Zhao, M.; Zheng X.; Zhou, Y.; Gupta, N.; Clarke L.; Leinonen, R.; Smith, R.E.; Zheng-Bradley X.; Grocock, R.; Humphray, S.; James, T.; Kingsbury, Z.; Sudbrak, R.; Albrecht, M.W.; Amstislavskiy V.S.; Borodina, T.A.; Lienhard, M.; Mertes F.; Sultan, M.; Timmermann, B.; Yaspo, M.-L.; Fulton L.; Fulton, R.; Weinstock G.M.; Balasubramaniam, S.; Burton J.; Danecek P.; Keane, T.M.; Kolb-Kokocinski, A.; McCarthy, S.; Stalker J.; Quail, M.; Davies, C.J.; Gollub J.; Webster, T.; Wong, B.; Zhan, Y.; Auton, A.; Yu F.; Bainbridge, M.; Challis, D.; Evani, U.S.; Lu J.; Nagaswamy, U.; Sabo, A.; Wang Y.; Yu J.; Coin L.J.M.; Fang L.; Li Q.; Li, Z.; Lin H.; Liu, B.; Luo, R.; Qin, N.; Shao H.; Wang, B.; Xie, Y.; Ye, C.; Yu, C.; Zhang F.; Zheng H.; Zhu H.; Garrison, E.P.; Kural, D.; Lee W.-P.; Fung Leong W.; Ward, A.N.; Wu J.; Zhang, M.; Griffin L.; Hsieh, C.-H.; Mills, R.E.; Shi X.; Von Grotthuss, M.; Zhang, C.; Daly, M.J.; Depristo, M.A.; Banks, E.; Bhatia G.; Carneiro, M.O.; Del Angel G.; Genovese G.; Handsaker, R.E.; Hartl, C.; McCarroll, S.A.; Nemesh J.C.; Poplin, R.E.; Schaffner, S.F.; Shakir, K.; Yoon, S.C.; Lihm J.; Makarov V.; Jin H.; Kim W.; Cheol Kim, K.; Rausch, T.; Beal, K.; Cunningham F.; Herrero J.; McLaren W.M.; Ritchie G.R.S.; Gottipati, S.; Keinan, A.; Rodriguez-Flores J.L.; Sabeti P.C.; Grossman, S.R.; Tabrizi, S.; Tariyal, R.; Cooper, D.N.; Ball, E.V.; Stenson P.D.; Barnes, B.; Bauer, M.; Keira Cheetham, R.; Cox, T.; Eberle, M.; Kahn, S.; Murray L.; Peden J.; Shaw, R.; Ye, K.; Batzer, M.A.; Konkel, M.K.; Walker J.A.; MacArthur, D.G.; Lek, M.; Herwig, R.; Shriver, M.D.; Bustamante, C.D.; Byrnes J.K.; De La Vega F.M.; Gravel, S.; Kenny, E.E.; Kidd J.M.; Maples, B.K.; Moreno-Estrada, A.; Zakharia F.; Halperin, E.; Baran, Y.; Craig, D.W.; Christoforides, A.; Homer, N.; Izatt, T.; Kurdoglu, A.A.; Sinari, S.A.; Squire, K.; Xiao, C.; Sebat J.; Bafna V.; Ye, K.; Burchard, E.G.; Hernandez, R.D.; Gignoux, C.R.; Haussler, D.; Katzman, S.J.; James Kent W.; Howie, B.; Ruiz-Linares, A.; Dermitzakis, E.T.; Lappalainen, T.; Devine, S.E.; Liu X.; Maroo, A.; Tallon L.J.; Rosenfeld J.A.; Michelson L.P.; Min Kang H.; Anderson P.; Angius, A.; Bigham, A.; Blackwell, T.; Busonero F.; Cucca F.; Fuchsberger, C.; Jones, C.; Jun G.; Li Y.; Lyons, R.; Maschio, A.; Porcu, E.; Reinier F.; Sanna, S.; Schlessinger, D.; Sidore, C.; Tan, A.; Kate Trost, M.; Awadalla P.; Hodgkinson, A.; Lunter G.; Marchini J.L.; Myers, S.; Churchhouse, C.; Delaneau O.; Gupta-Hinch, A.; Iqbal, Z.; Mathieson I.; Rimmer, A.; Xifara, D.K.; Oleksyk, T.K.; Fu, Y.; Liu X.; Xiong, M.; Jorde L.; Witherspoon, D.; Xing J.; Browning, B.L.; Alkan C.; Hajirasouliha I.; Hormozdiari F.; Ko, A.; Sudmant P.H.; Chen, K.; Chinwalla, A.; Ding L.; Dooling, D.; Koboldt, D.C.; McLellan, M.D.; Wallis J.W.; Wendl, M.C.; Zhang Q.; Tyler-Smith, C.; Albers, C.A.; Ayub Q.; Chen, Y.; Coffey, A.J.; Colonna V.; Huang, N.; Jostins L.; Li H.; Scally, A.; Walter, K.; Xue, Y.; Zhang, Y.; Gerstein, M.B.; Abyzov, A.; Balasubramanian, S.; Chen J.; Clarke, D.; Fu, Y.; Habegger L.; Harmanci, A.O.; Jin, M.; Khurana, E.; Jasmine Mu X.; Sisu, C.; Degenhardt J.; Stütz, A.M.; Keira Cheetham, R.; Church, D.; Michaelson J.J.; Blackburne, B.; Lindsay, S.J.; Ning, Z.; Frankish, A.; Harrow J.; Mu X.J.; Fowler G.; Hale W.; Kalra, D.; Barker J.; Kelman G.; Kulesha, E.; Radhakrishnan, R.; Roa, A.; Smirnov, D.; Streeter I.; Toneva I.; Vaughan, B.; Ananiev V.; Belaia, Z.; Beloslyudtsev, D.; Bouk, N.; Chen, C.; Cohen, R.; Cook, C.; Garner J.; Hefferon, T.; Kimelman, M.; Liu, C.; Lopez J.; Meric P.; O'Sullivan, C.; Ostapchuk, Y.; Phan L.; Ponomarov, S.; Schneider V.; Shekhtman, E.; Sirotkin, K.; Slotta, D.; Zhang H.; Barnes, K.C.; Beiswanger, C.; Cai H.; Cao H.; Gharani, N.; Henn, B.; Jones, D.; Kaye J.S.; Kent, A.; Kerasidou, A.; Mathias, R.; Ossorio P.N.; Parker, M.; Reich, D.; Rotimi, C.N.; Royal, C.D.; Sandoval, K.; Su, Y.; Tian, Z.; Tishkoff, S.; Toji L.H.; Via, M.; Wang Y.; Yang H.; Yang L.; Zhu J.; Bodmer W.; Bedoya G.; Ming, C.Z.; Yang G.; Jia You, C.; Peltonen L.; Garcia-Montero, A.; Orfao, A.; Dutil J.; Martinez-Cruzado J.C.; Brooks L.D.; Felsenfeld, A.L.; McEwen J.E.; Clemm, N.C.; Duncanson, A.; Dunn, M.; Guyer, M.S.; Peterson J.L.; Lacroute P.
    By characterizing the geographic and functional spectrum of human genetic variation, the 1000 Genomes Project aims to build a resource to help to understand the genetic contribution to disease. Here we describe the genomes of 1,092 individuals from 14 populations, constructed using a combination of low-coverage whole-genome and exome sequencing. By developing methods to integrate information across several algorithms and diverse data sources, we provide a validated haplotype map of 38 million single nucleotide polymorphisms, 1.4 million short insertions and deletions, and more than 14,000 larger deletions. We show that individuals from different populations carry different profiles of rare and common variants, and that low-frequency variants show substantial geographic differentiation, which is further increased by the action of purifying selection. We show that evolutionary conservation and coding consequence are key determinants of the strength of purifying selection, that rare-variant load varies substantially across biological pathways, and that each individual contains hundreds of rare non-coding variants at conserved sites, such as motif-disrupting changes in transcription-factor-binding sites. This resource, which captures up to 98% of accessible single nucleotide polymorphisms at a frequency of 1% in related populations, enables analysis of common and low-frequency variants in individuals from diverse, including admixed, populations. © 2012 Macmillan Publishers Limited. All rights reserved.