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Literature DB >> 31844327

High-throughput phenotyping reveals expansive genetic and structural underpinnings of immune variation.

Lucie Abeler-Dörner¹, Adam G Laing^1,2, Anna Lorenc^1,2, Dmitry S Ushakov^1,2, Simon Clare³, Anneliese O Speak³, Maria A Duque-Correa³, Jacqueline K White³, Ramiro Ramirez-Solis³, Namita Saran¹, Katherine R Bull⁴, Belén Morón⁵, Jua Iwasaki⁶, Philippa R Barton⁷, Susana Caetano^1,3, Keng I Hng¹, Emma Cambridge³, Simon Forman⁸, Tanya L Crockford⁴, Mark Griffiths³, Leanne Kane³, Katherine Harcourt³, Cordelia Brandt³, George Notley³, Kolawole O Babalola⁹, Jonathan Warren⁹, Jeremy C Mason⁹, Amrutha Meeniga⁹, Natasha A Karp¹⁰, David Melvin³, Eleanor Cawthorne⁴, Brian Weinrick¹¹, Albina Rahim¹², Sibyl Drissler¹², Justin Meskas¹², Alice Yue¹², Markus Lux¹², George X Song-Zhao⁵, Anna Chan¹, Carmen Ballesteros Reviriego³, Johannes Abeler¹³, Heather Wilson³, Agnieszka Przemska-Kosicka¹, Matthew Edmans⁴, Natasha Strevens³, Markus Pasztorek^1,14, Terrence F Meehan⁹, Fiona Powrie¹⁵, Ryan Brinkman^12,16, Gordon Dougan³, William Jacobs¹¹, Clare M Lloyd⁶, Richard J Cornall⁴, Kevin J Maloy¹⁷, Richard K Grencis⁸, Gillian M Griffiths⁷, David J Adams³, Adrian C Hayday^18,19.

Abstract

By developing a high-density murine immunophenotyping platform compatible with high-throughput genetic screening, we have established profound contributions of genetics and structure to immune variation (http://www.immunophenotype.org). Specifically, high-throughput phenotyping of 530 unique mouse gene knockouts identified 140 monogenic 'hits', of which most had no previous immunologic association. Furthermore, hits were collectively enriched in genes for which humans show poor tolerance to loss of function. The immunophenotyping platform also exposed dense correlation networks linking immune parameters with each other and with specific physiologic traits. Such linkages limit freedom of movement for individual immune parameters, thereby imposing genetically regulated 'immunologic structures', the integrity of which was associated with immunocompetence. Hence, we provide an expanded genetic resource and structural perspective for understanding and monitoring immune variation in health and disease.

Entities: Chemical

Mesh：

Year: 2019 PMID： 31844327 PMCID： PMC7338221 DOI： 10.1038/s41590-019-0549-0

Source DB: PubMed Journal: Nat Immunol ISSN： 1529-2908 Impact factor: 25.606

58 in total

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Journal: Cell Date: 2017-08-10 Impact factor: 41.582

2. Variation in the human immune system is largely driven by non-heritable influences.

Authors: Petter Brodin; Vladimir Jojic; Tianxiang Gao; Sanchita Bhattacharya; Cesar J Lopez Angel; David Furman; Shai Shen-Orr; Cornelia L Dekker; Gary E Swan; Atul J Butte; Holden T Maecker; Mark M Davis
Journal: Cell Date: 2015-01-15 Impact factor: 41.582

3. Global analyses of human immune variation reveal baseline predictors of postvaccination responses.

Authors: John S Tsang; Pamela L Schwartzberg; Yuri Kotliarov; Angelique Biancotto; Zhi Xie; Ronald N Germain; Ena Wang; Matthew J Olnes; Manikandan Narayanan; Hana Golding; Susan Moir; Howard B Dickler; Shira Perl; Foo Cheung
Journal: Cell Date: 2014-04-10 Impact factor: 41.582

4. Natural variation in the parameters of innate immune cells is preferentially driven by genetic factors.

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Journal: Nat Immunol Date: 2018-02-23 Impact factor: 25.606

5. A clinically meaningful metric of immune age derived from high-dimensional longitudinal monitoring.

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Journal: Nat Med Date: 2019-03-06 Impact factor: 53.440

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7. Systems biology of vaccination for seasonal influenza in humans.

Authors: Helder I Nakaya; Jens Wrammert; Eva K Lee; Luigi Racioppi; Stephanie Marie-Kunze; W Nicholas Haining; Anthony R Means; Sudhir P Kasturi; Nooruddin Khan; Gui-Mei Li; Megan McCausland; Vibhu Kanchan; Kenneth E Kokko; Shuzhao Li; Rivka Elbein; Aneesh K Mehta; Alan Aderem; Kanta Subbarao; Rafi Ahmed; Bali Pulendran
Journal: Nat Immunol Date: 2011-07-10 Impact factor: 25.606

8. Adjuvanted influenza-H1N1 vaccination reveals lymphoid signatures of age-dependent early responses and of clinical adverse events.

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Journal: Nat Immunol Date: 2016-01-04 Impact factor: 25.606

9. The cellular composition of the human immune system is shaped by age and cohabitation.

Authors: Edward J Carr; James Dooley; Michelle A Linterman; Adrian Liston; Josselyn E Garcia-Perez; Vasiliki Lagou; James C Lee; Carine Wouters; Isabelle Meyts; An Goris; Guy Boeckxstaens
Journal: Nat Immunol Date: 2016-02-15 Impact factor: 25.606

10. Analysis of five chronic inflammatory diseases identifies 27 new associations and highlights disease-specific patterns at shared loci.

Authors: David Ellinghaus; Luke Jostins; Sarah L Spain; Adrian Cortes; Jörn Bethune; Buhm Han; Yu Rang Park; Soumya Raychaudhuri; Jennie G Pouget; Matthias Hübenthal; Trine Folseraas; Yunpeng Wang; Tonu Esko; Andres Metspalu; Harm-Jan Westra; Lude Franke; Tune H Pers; Rinse K Weersma; Valerie Collij; Mauro D'Amato; Jonas Halfvarson; Anders Boeck Jensen; Wolfgang Lieb; Franziska Degenhardt; Andreas J Forstner; Andrea Hofmann; Stefan Schreiber; Ulrich Mrowietz; Brian D Juran; Konstantinos N Lazaridis; Søren Brunak; Anders M Dale; Richard C Trembath; Stephan Weidinger; Michael Weichenthal; Eva Ellinghaus; James T Elder; Jonathan N W N Barker; Ole A Andreassen; Dermot P McGovern; Tom H Karlsen; Jeffrey C Barrett; Miles Parkes; Matthew A Brown; Andre Franke
Journal: Nat Genet Date: 2016-03-14 Impact factor: 41.307

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3. GIMAP6 regulates autophagy, immune competence, and inflammation in mice and humans.

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Review 5. Immune Privilege: The Microbiome and Uveitis.

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