Dynamic molecular changes during the first week of human life follow a robust developmental trajectory

Amy Huei‐Yi Lee(University of British Columbia), Casey P. Shannon(Prevention of Organ Failure), Nelly Amenyogbe(University of British Columbia), Tue Bjerg Bennike(Boston Children's Hospital), Joann Diray‐Arce(Boston Children's Hospital), Olubukola T. Idoko(MRC Unit the Gambia), Erin E. Gill(University of British Columbia), Rym Ben-Othman(University of British Columbia), William Pomat(Papua New Guinea Institute of Medical Research), Simon D. van Haren(Boston Children's Hospital), Kim‐Anh Lê Cao(The University of Melbourne), Momoudou Cox(MRC Unit the Gambia), Alansana Darboe(MRC Unit the Gambia), Reza Falsafi(University of British Columbia), Davide Ferrari(The University of Melbourne), Daniel J. Harbeson(University of British Columbia), Daniel He(Prevention of Organ Failure), Bing Cai(University of British Columbia), Samuel J. Hinshaw(University of British Columbia), Jorjoh Ndure(MRC Unit the Gambia), Jainaba Njie-Jobe(MRC Unit the Gambia), Matthew A. Pettengill(Boston Children's Hospital), Peter Richmond(The Kids Research Institute Australia), Rebecca Ford(Papua New Guinea Institute of Medical Research), G Saleu(Papua New Guinea Institute of Medical Research), Geraldine Masiria(Papua New Guinea Institute of Medical Research), John Paul Matlam(Papua New Guinea Institute of Medical Research), Wendy Kirarock(Papua New Guinea Institute of Medical Research), Elishia Roberts(MRC Unit the Gambia), Mehrnoush Malek(BC Cancer Agency), Guzman Sánchez‐Schmitz(Boston Children's Hospital), Amrit Singh(University of British Columbia Hospital), Asimenia Angelidou(Boston Children's Hospital), Kinga K. Smolen(Boston Children's Hospital), Diana Vo(Boston Children's Hospital), Ken Kraft(Boston Children's Hospital), Kerry McEnaney(Boston Children's Hospital), Sofia M. Vignolo(Boston Children's Hospital), Arnaud Marchant(Université Libre de Bruxelles), Ryan R. Brinkman(BC Cancer Agency), Al Ozonoff(Boston Children's Hospital), Robert E. W. Hancock(University of British Columbia), Anita H.J. van den Biggelaar(The Kids Research Institute Australia), Hanno Steen(Boston Children's Hospital), Scott J. Tebbutt(University of British Columbia Hospital), Beate Kampmann(London School of Hygiene & Tropical Medicine), Ofer Levy(Broad Institute), Tobias R. Kollmann(University of British Columbia)
Nature Communications
March 12, 2019
10.1038/s41467-019-08794-x
Cited by 198Open Access
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Abstract

Systems biology can unravel complex biology but has not been extensively applied to human newborns, a group highly vulnerable to a wide range of diseases. We optimized methods to extract transcriptomic, proteomic, metabolomic, cytokine/chemokine, and single cell immune phenotyping data from <1 ml of blood, a volume readily obtained from newborns. Indexing to baseline and applying innovative integrative computational methods reveals dramatic changes along a remarkably stable developmental trajectory over the first week of life. This is most evident in changes of interferon and complement pathways, as well as neutrophil-associated signaling. Validated across two independent cohorts of newborns from West Africa and Australasia, a robust and common trajectory emerges, suggesting a purposeful rather than random developmental path. Systems biology and innovative data integration can provide fresh insights into the molecular ontogeny of the first week of life, a dynamic developmental phase that is key for health and disease.

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