Diagnostic evaluation of paediatric autoimmune lymphoproliferative immunodeficiencies (ALPID): a prospective cohort study.
Journal
The Lancet. Haematology
ISSN: 2352-3026
Titre abrégé: Lancet Haematol
Pays: England
ID NLM: 101643584
Informations de publication
Date de publication:
Feb 2024
Feb 2024
Historique:
received:
08
07
2023
revised:
17
11
2023
accepted:
20
11
2023
medline:
2
2
2024
pubmed:
2
2
2024
entrez:
1
2
2024
Statut:
ppublish
Résumé
Lymphoproliferation and autoimmune cytopenias characterise autoimmune lymphoproliferative syndrome. Other conditions sharing these manifestations have been termed autoimmune lymphoproliferative syndrome-like diseases, although they are frequently more severe. The aim of this study was to define the genetic, clinical, and immunological features of these disorders to improve their diagnostic classification. In this prospective cohort study, patients were referred to the Center for Chronic Immunodeficiency in Freiburg, Germany, between Jan 1, 2008 and March 5, 2022. We enrolled patients younger than 18 years with lymphoproliferation and autoimmune cytopenia, lymphoproliferation and at least one additional sign of an inborn error of immunity (SoIEI), bilineage autoimmune cytopenia, or autoimmune cytopenia and at least one additional SoIEI. Autoimmune lymphoproliferative syndrome biomarkers were determined in all patients. Sanger sequencing followed by in-depth genetic studies were recommended for patients with biomarkers indicative of autoimmune lymphoproliferative syndrome, while IEI panels, exome sequencing, or genome sequencing were recommended for patients without such biomarkers. Genetic analyses were done as decided by the treating physician. The study was registered on the German Clinical Trials Register, DRKS00011383, and is ongoing. We recruited 431 children referred for autoimmune lymphoproliferative syndrome evaluation, of whom 236 (55%) were included on the basis of lymphoproliferation and autoimmune cytopenia, 148 (34%) on the basis of lymphoproliferation and another SoIEI, 33 (8%) on the basis of autoimmune bicytopenia, and 14 (3%) on the basis of autoimmune cytopenia and another SoIEI. Median age at diagnostic evaluation was 9·8 years (IQR 5·5-13·8), and the cohort comprised 279 (65%) boys and 152 (35%) girls. After biomarker and genetic assessments, autoimmune lymphoproliferative syndrome was diagnosed in 71 (16%) patients. Among the remaining 360 patients, 54 (15%) had mostly autosomal-dominant autoimmune lymphoproliferative immunodeficiencies (AD-ALPID), most commonly affecting JAK-STAT (26 patients), CTLA4-LRBA (14), PI3K (six), RAS (five), or NFκB (three) signalling. 19 (5%) patients had other IEIs, 17 (5%) had non-IEI diagnoses, 79 (22%) were unresolved despite extended genetics (ALPID-U), and 191 (53%) had insufficient genetic workup for diagnosis. 16 (10%) of 161 patients with a final diagnosis had somatic mutations. Alternative classification of patients fulfilling common variable immunodeficiency or Evans syndrome criteria did not increase the proportion of genetic diagnoses. The ALPID phenotype defined in this study is enriched for patients with genetic diseases treatable with targeted therapies. The term ALPID might be useful to focus diagnostic and therapeutic efforts by triggering extended genetic analysis and consideration of targeted therapies, including in some children currently classified as having common variable immunodeficiency or Evans syndrome. Deutsche Forschungsgemeinschaft under Germany's Excellence Strategy. For the German translation of the abstract see Supplementary Materials section.
Sections du résumé
BACKGROUND
BACKGROUND
Lymphoproliferation and autoimmune cytopenias characterise autoimmune lymphoproliferative syndrome. Other conditions sharing these manifestations have been termed autoimmune lymphoproliferative syndrome-like diseases, although they are frequently more severe. The aim of this study was to define the genetic, clinical, and immunological features of these disorders to improve their diagnostic classification.
METHODS
METHODS
In this prospective cohort study, patients were referred to the Center for Chronic Immunodeficiency in Freiburg, Germany, between Jan 1, 2008 and March 5, 2022. We enrolled patients younger than 18 years with lymphoproliferation and autoimmune cytopenia, lymphoproliferation and at least one additional sign of an inborn error of immunity (SoIEI), bilineage autoimmune cytopenia, or autoimmune cytopenia and at least one additional SoIEI. Autoimmune lymphoproliferative syndrome biomarkers were determined in all patients. Sanger sequencing followed by in-depth genetic studies were recommended for patients with biomarkers indicative of autoimmune lymphoproliferative syndrome, while IEI panels, exome sequencing, or genome sequencing were recommended for patients without such biomarkers. Genetic analyses were done as decided by the treating physician. The study was registered on the German Clinical Trials Register, DRKS00011383, and is ongoing.
FINDINGS
RESULTS
We recruited 431 children referred for autoimmune lymphoproliferative syndrome evaluation, of whom 236 (55%) were included on the basis of lymphoproliferation and autoimmune cytopenia, 148 (34%) on the basis of lymphoproliferation and another SoIEI, 33 (8%) on the basis of autoimmune bicytopenia, and 14 (3%) on the basis of autoimmune cytopenia and another SoIEI. Median age at diagnostic evaluation was 9·8 years (IQR 5·5-13·8), and the cohort comprised 279 (65%) boys and 152 (35%) girls. After biomarker and genetic assessments, autoimmune lymphoproliferative syndrome was diagnosed in 71 (16%) patients. Among the remaining 360 patients, 54 (15%) had mostly autosomal-dominant autoimmune lymphoproliferative immunodeficiencies (AD-ALPID), most commonly affecting JAK-STAT (26 patients), CTLA4-LRBA (14), PI3K (six), RAS (five), or NFκB (three) signalling. 19 (5%) patients had other IEIs, 17 (5%) had non-IEI diagnoses, 79 (22%) were unresolved despite extended genetics (ALPID-U), and 191 (53%) had insufficient genetic workup for diagnosis. 16 (10%) of 161 patients with a final diagnosis had somatic mutations. Alternative classification of patients fulfilling common variable immunodeficiency or Evans syndrome criteria did not increase the proportion of genetic diagnoses.
INTERPRETATION
CONCLUSIONS
The ALPID phenotype defined in this study is enriched for patients with genetic diseases treatable with targeted therapies. The term ALPID might be useful to focus diagnostic and therapeutic efforts by triggering extended genetic analysis and consideration of targeted therapies, including in some children currently classified as having common variable immunodeficiency or Evans syndrome.
FUNDING
BACKGROUND
Deutsche Forschungsgemeinschaft under Germany's Excellence Strategy.
TRANSLATION
UNASSIGNED
For the German translation of the abstract see Supplementary Materials section.
Identifiants
pubmed: 38302222
pii: S2352-3026(23)00362-9
doi: 10.1016/S2352-3026(23)00362-9
pii:
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e114-e126Investigateurs
Mario Abinun
(M)
Tore Abrahamsen
(T)
Michael Albert
(M)
Mohamed Almalky
(M)
Sadaf Altaf
(S)
Royala Babayeva
(R)
Shahrzad Bakhtiar
(S)
Safa Baris
(S)
Ulrich Baumann
(U)
Martina Becker
(M)
Thomas Berger
(T)
Ariane Biebl
(A)
Stefan Bielack
(S)
Saskia Biskup
(S)
Philipp Bismarck
(P)
Sebastian Bode
(S)
Regine Borchers
(R)
Carl Friedrich Boztug
(CF)
Knut Brockmann
(K)
Annelyse Bruwier
(A)
Bernd Buchholz
(B)
Andrew Cant
(A)
Carla N Castro
(CN)
Carl Classen
(C)
Alexander Claviez
(A)
Roman Crazzolara
(R)
Franziska Cuntz
(F)
Nel Dąbrowska-Leonik
(N)
Ute Derichs
(U)
Gregor Dückers
(G)
Wolfgang Eberl
(W)
Georg Ebetsberger-Dachs
(G)
Miriam Erlacher
(M)
Alexandre Fabre
(A)
Laura Faletti
(L)
Susan Farmand
(S)
Antonio Figueiredo
(A)
Marco Fischer
(M)
Tim Flaadt
(T)
Hermann Full
(H)
Eleonora Gambineri
(E)
Hermann Girschick
(H)
Sigune Goldacker
(S)
Bodo Grimbacher
(B)
Miriam Groß
(M)
Andrew J Gruhn
(AJ)
Ezgi Gungoren
(E)
Florian Haberfellner
(F)
Rosie Hague
(R)
Holger Hauch
(H)
Fabian Hauck
(F)
Sabine Heine
(S)
Dirk Holzinger
(D)
Elise Huisman
(E)
Gordana Jakovljevic
(G)
Beki James
(B)
Ales Janda
(A)
Małgorzata Janda
(M)
Neil Jones
(N)
Petra Kaiser-Labusch
(P)
Karim Kentouche
(K)
Julian Knight
(J)
Stephanie Knirsch
(S)
Udo Kontny
(U)
Julia Körholz
(J)
Ezgi Yalcin Krenn
(EY)
Ingrid Kuehnle
(I)
Thomas Kühne
(T)
Jae-Yun Lee-Dimroth
(JY)
Hartwig Lehmann
(H)
Michael H Leipold
(MH)
Andrea Meinhardt
(A)
Kirsten Mönkemöller
(K)
Henner Morbach
(H)
Urs Mücke
(U)
Michaela Nathrath
(M)
Nora Naumann-Bartsch
(N)
Olaf Neth
(O)
Charlotte Niemeyer
(C)
Peter Olbrich
(P)
Róbert Ostró
(R)
Stephen Owens
(S)
Malgorzata Pac
(M)
Rita Pachlopnik Schmid
(R)
Markus G Page
(MG)
Arnulf Pekrun
(A)
Seraina Prader
(S)
Michele Proietti
(M)
Alexander Puzik
(A)
Nada Rajacic
(N)
Tobias Rothoeft
(T)
Freimut H Ryan
(FH)
Sarah Salou
(S)
Elisabeth Salzer
(E)
Sinisa Savic
(S)
Antonio E Schilling
(AE)
Jana Schmid
(J)
Stefan Schönberger
(S)
Catharina Schuetz
(C)
Tore G Schuez-Havupalo
(TG)
Björn Schulte
(B)
Ansgar Schulz
(A)
Volker Schuster
(V)
Markus Seidel
(M)
Kathrin Siepermann
(K)
Petr Smisek
(P)
Maarja Soomann
(M)
Martina Stiefel
(M)
Simone Storck
(S)
Brigitte Strahm
(B)
Elise J Streiter
(EJ)
Charlotte M Teltschik
(CM)
Julian Thalhammer
(J)
Stephan Tippelt
(S)
Vasil Toskov
(V)
Johannes Trück
(J)
Simon Vieth
(S)
Oliver Wegehaupt
(O)
Thomas Wiesel
(T)
Informations de copyright
Copyright © 2024 Elsevier Ltd. All rights reserved.
Déclaration de conflit d'intérêts
Declaration of interests SE are members of a data monitoring committee for leniolisib (Pharming). SH and SE received research funding from Pharming. MA and IC are a full-time employees of UCB Pharma and are shareholders of UCB. SE received research support from UCB for this study, including the whole-genome trio analysis of 30 families. All other authors declare no competing interests.