Natural Killer Cells from Patients with Recombinase-Activating Gene and Non-Homologous End Joining Gene Defects Comprise a Higher Frequency of CD56bright NKG2A+++ Cells, and Yet Display Increased Degranulation and Higher Perforin Content

Kerry Dobbs(National Institute of Allergy and Infectious Diseases), Giovanna Tabellini(University of Brescia), Enrica Calzoni(University of Brescia), Ornella Patrizi(University of Brescia), Paula Martínez(Hospital General de Niños Ricardo Gutierrez), Silvia Giliani(Azienda Socio Sanitaria Territoriale degli Spedali Civili di Brescia), Daniele Moratto(University of Brescia), Waleed Al–Herz(Kuwait University), Caterina Cancrini(Bambino Gesù Children's Hospital), Morton J. Cowan(UCSF Benioff Children's Hospital), Jacob J. Bleesing(Cincinnati Children's Hospital Medical Center), Claire Booth(University College London), David Buchbinder(University of California, Irvine), Siobhan O. Burns(University College London), Talal A. Chatila(Boston Children's Hospital), Janet Chou(Boston Children's Hospital), Vanessa Daza-Cajigal(University College London), Lisa M. Ott de Bruin(Boston Children's Hospital), Maite Teresa de la Morena(The University of Texas Southwestern Medical Center), Gigliola Di Matteo(Bambino Gesù Children's Hospital), Andrea Finocchi(University of Rome Tor Vergata), Raif S. Geha(Boston Children's Hospital), Rakesh K. Goyal(Children's Mercy Hospital), Anthony Hayward(Brown University), Steven M. Holland(National Institutes of Health), Chiung‐Hui Huang(National University Hospital), Maria Kanariou(Children's Hospital Agia Sophia), Alejandra King(Hospital Luis Calvo Mackenna), Blanka Kaplan(Hofstra University), Anastasiya Kleva(Hofstra University), Taco W. Kuijpers(Emma Kinderziekenhuis), Bee Wah Lee(National University Hospital), Vassilios Lougaris(University of Brescia), Michel J. Massaad(Boston Children's Hospital), Isabelle Meyts(KU Leuven), Megan Morsheimer(National Institutes of Health), Bénédicte Neven(Délégation Paris 5), Sung‐Yun Pai(Boston Children's Hospital), Nima Parvaneh(Tehran University of Medical Sciences), Alessandro Plebani(University of Brescia), Susan E. Prockop(Memorial Sloan Kettering Cancer Center), İsmail Reisli(Necmettin Erbakan University), Jian Yi Soh(National University Hospital), Raz Somech(Edmond and Lily Safra Children's Hospital), Troy R. Torgerson(University of Washington), Yae-Jaen Kim(Samsung Medical Center), Jolán E. Walter(Johns Hopkins All Children's Hospital), Andrew R. Gennery(Great North Children's Hospital), Sevgi Keleş(Necmettin Erbakan University), John Manis(Boston Children's Hospital), Emanuela Marcenaro(University of Genoa), Alessandro Moretta(University of Genoa), Silvia Parolini(University of Brescia), Luigi D. Notarangelo(National Institutes of Health)
Frontiers in Immunology
July 17, 2017
10.3389/fimmu.2017.00798
Cited by 51Open Access
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Abstract

Mutations of the recombinase Activating Genes 1 and 2 (RAG1, RAG2) in humans are associated with a broad range of phenotypes. For patients with severe clinical presentation, hematopoietic stem cell transplantation (HSCT) represents the only curative treatment, however high rates of graft failure and incomplete immune reconstitution have been observed, especially after unconditioned haploidentical transplantation. Studies in mice have shown that Rag-/- NK cells have a mature phenotype, reduced fitness and increased cytotoxicity. We aimed to analyze NK cell phenotype and function in patients with mutations in RAG and in non-homologous end joining (NHEJ) genes. Here we provide evidence that NK cells from these patients have an immature phenotype, with significant expansion of CD56bright CD16-/int CD57- cells, yet increased degranulation and high perforin content. Correlation was observed between in vitro recombinase activity of the mutant proteins, NK cell abnormalities, and in vivo clinical phenotype. Addition of serotherapy in the conditioning regimen, with the aim of depleting the autologous NK cell compartment, may be important to facilitate engraftment and immune reconstitution in patients with RAG and NHEJ defects treated by HSCT.

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