One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them

Ainsley V.C. Knox; Lauren Y. Cominsky; Di Sun; Emylette Cruz Cabrera; Brian E. Nolan; Edann Ofray; Elisa Benetti; Camilla Visconti; Federica Barzaghi; Sergio D. Rosenzweig; Monica G. Lawrence; Kathleen E. Sullivan; Samuel Yoon; Suzanna Rachimi; Nurcicek Padem; Erin Conboy; Maja Stojanovic; Gordana Petrovic; Srdjan Pasic; Joseph Church; Ronald M. Ferdman; Fabio Candotti; Tiphaine Arlabosse; Katerina Theodoropoulou; Cullen M. Dutmer; László Maródi; Gabriella Szücs; Arnon Broides; Amit Nahum; Jacov Levy; Kaisa Kettunen; Ravindra Daddali; Mikko Seppänen; Markku Vänttinen; Timi Martelius; Juha Grönholm; Matilde Peri; Chiara Azzari; Silvia Ricci; Samar Ojaimi; Emily S.J. Edwards; Menno C. van Zelm; Jinqiao Sun; Hassan Abolhassani; Qiang Pan-Hammarström; Hakon Hakonarson; Daniel Mayr; Kaan Boztug; Bertrand Boisson; Jean Laurent Casanova; Carole Le Coz; Gregory M.K. Poon; Neil Romberg

doi:10.1182/blood.2024026683

One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them

Ainsley V.C. Knox, Lauren Y. Cominsky, Di Sun, Emylette Cruz Cabrera, Brian E. Nolan, Edann Ofray, Elisa Benetti, Camilla Visconti, Federica Barzaghi, Sergio D. Rosenzweig, Monica G. Lawrence, Kathleen E. Sullivan, Samuel Yoon, Suzanna Rachimi, Nurcicek Padem, Erin Conboy, Maja Stojanovic, Gordana Petrovic, Srdjan Pasic, Joseph ChurchRonald M. Ferdman, Fabio Candotti, Tiphaine Arlabosse, Katerina Theodoropoulou, Cullen M. Dutmer, László Maródi, Gabriella Szücs, Arnon Broides, Amit Nahum, Jacov Levy, Kaisa Kettunen, Ravindra Daddali, Mikko Seppänen, Markku Vänttinen, Timi Martelius, Juha Grönholm, Matilde Peri, Chiara Azzari, Silvia Ricci, Samar Ojaimi, Emily S.J. Edwards, Menno C. van Zelm, Jinqiao Sun, Hassan Abolhassani, Qiang Pan-Hammarström, Hakon Hakonarson, Daniel Mayr, Kaan Boztug, Bertrand Boisson, Jean Laurent Casanova, Carole Le Coz, Gregory M.K. Poon, Neil Romberg

Tutkimustuotos: Artikkelijulkaisu › Artikkeli › Tieteellinen › vertaisarvioitu

Abstrakti

Leukopoiesis is lethally arrested in mice lacking the master transcriptional regulator PU.1. Depending on the animal model, subtotal PU.1 loss either induces acute myeloid leukemia or arrests early B-cell and dendritic-cell development. Although humans with absolute PU.1 deficiency have not been reported, a small cadre of congenital agammaglobulinemia patients with sporadic, inborn PU.1 haploinsufficiency was recently described. To better estimate the penetrance, clinical complications, immunophenotypic features, and malignancy risks of PU.1-mutated agammaglobulinemia (PU.MA), a collection of 134 novel or rare PU.1 variants from publicly available databases, institutional cohorts, previously published reports, and unsolved agammaglobulinemia cases were functionally analyzed. In total, 25 loss-of-function (LOF) variants were identified in 33 heterozygous carriers from 21 kindreds across 13 nations. Of individuals harboring LOF PU.1 variants, 22 were agammaglobulinemic, 5 displayed antibody deficiencies, and 6 were unaffected, indicating an estimated disease penetrance of 81.8% with variable expressivity. In a cluster of patients, disease onset was delayed, sometimes into adulthood. All LOF variants conveyed effects via haploinsufficiency, either by destabilizing PU.1, impeding nuclear localization, or directly interfering with transcription. PU.MA patient immunophenotypes consistently demonstrated B-cell, conventional dendritic-cell, and plasmacytoid dendritic-cell deficiencies. Associated infectious and noninfectious symptoms hewed closely to X-linked agammaglobulinemia and not monogenic dendritic-cell deficiencies. No carriers of LOF PU.1 variants experienced hematologic malignancies. Collectively, in vitro and clinical data indicate heterozygous LOF PU.1 variants undermine humoral immunity but do not convey strong leukemic risks.

Alkuperäiskieli	englanti
Lehti	Blood
ISSN	0006-4971
DOI - pysyväislinkit	https://doi.org/10.1182/blood.2024026683
Tila	Julkaistu - 2025
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä, vertaisarvioitu

Lisätietoja

Publisher Copyright:
© 2025

Pääsy asiakirjaan

10.1182/blood.2024026683

Siteeraa tätä

Knox, A. V. C., Cominsky, L. Y., Sun, D., Cruz Cabrera, E., Nolan, B. E., Ofray, E., Benetti, E., Visconti, C., Barzaghi, F., Rosenzweig, S. D., Lawrence, M. G., Sullivan, K. E., Yoon, S., Rachimi, S., Padem, N., Conboy, E., Stojanovic, M., Petrovic, G., Pasic, S., ... Romberg, N. (2025). One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them. Blood. https://doi.org/10.1182/blood.2024026683

@article{75c6d345221549ba8215e9d0712026e9,

title = "One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them",

abstract = "Leukopoiesis is lethally arrested in mice lacking the master transcriptional regulator PU.1. Depending on the animal model, subtotal PU.1 loss either induces acute myeloid leukemia or arrests early B-cell and dendritic-cell development. Although humans with absolute PU.1 deficiency have not been reported, a small cadre of congenital agammaglobulinemia patients with sporadic, inborn PU.1 haploinsufficiency was recently described. To better estimate the penetrance, clinical complications, immunophenotypic features, and malignancy risks of PU.1-mutated agammaglobulinemia (PU.MA), a collection of 134 novel or rare PU.1 variants from publicly available databases, institutional cohorts, previously published reports, and unsolved agammaglobulinemia cases were functionally analyzed. In total, 25 loss-of-function (LOF) variants were identified in 33 heterozygous carriers from 21 kindreds across 13 nations. Of individuals harboring LOF PU.1 variants, 22 were agammaglobulinemic, 5 displayed antibody deficiencies, and 6 were unaffected, indicating an estimated disease penetrance of 81.8% with variable expressivity. In a cluster of patients, disease onset was delayed, sometimes into adulthood. All LOF variants conveyed effects via haploinsufficiency, either by destabilizing PU.1, impeding nuclear localization, or directly interfering with transcription. PU.MA patient immunophenotypes consistently demonstrated B-cell, conventional dendritic-cell, and plasmacytoid dendritic-cell deficiencies. Associated infectious and noninfectious symptoms hewed closely to X-linked agammaglobulinemia and not monogenic dendritic-cell deficiencies. No carriers of LOF PU.1 variants experienced hematologic malignancies. Collectively, in vitro and clinical data indicate heterozygous LOF PU.1 variants undermine humoral immunity but do not convey strong leukemic risks.",

author = "Knox, {Ainsley V.C.} and Cominsky, {Lauren Y.} and Di Sun and {Cruz Cabrera}, Emylette and Nolan, {Brian E.} and Edann Ofray and Elisa Benetti and Camilla Visconti and Federica Barzaghi and Rosenzweig, {Sergio D.} and Lawrence, {Monica G.} and Sullivan, {Kathleen E.} and Samuel Yoon and Suzanna Rachimi and Nurcicek Padem and Erin Conboy and Maja Stojanovic and Gordana Petrovic and Srdjan Pasic and Joseph Church and Ferdman, {Ronald M.} and Fabio Candotti and Tiphaine Arlabosse and Katerina Theodoropoulou and Dutmer, {Cullen M.} and L{\'a}szl{\'o} Mar{\'o}di and Gabriella Sz{\"u}cs and Arnon Broides and Amit Nahum and Jacov Levy and Kaisa Kettunen and Ravindra Daddali and Mikko Sepp{\"a}nen and Markku V{\"a}nttinen and Timi Martelius and Juha Gr{\"o}nholm and Matilde Peri and Chiara Azzari and Silvia Ricci and Samar Ojaimi and Edwards, {Emily S.J.} and {van Zelm}, {Menno C.} and Jinqiao Sun and Hassan Abolhassani and Qiang Pan-Hammarstr{\"o}m and Hakon Hakonarson and Daniel Mayr and Kaan Boztug and Bertrand Boisson and Casanova, {Jean Laurent} and {Le Coz}, Carole and Poon, {Gregory M.K.} and Neil Romberg",

note = "Publisher Copyright: {\textcopyright} 2025",

year = "2025",

doi = "10.1182/blood.2024026683",

language = "English",

journal = "Blood",

issn = "0006-4971",

publisher = "Elsevier B.V.",

}

Knox, AVC, Cominsky, LY, Sun, D, Cruz Cabrera, E, Nolan, BE, Ofray, E, Benetti, E, Visconti, C, Barzaghi, F, Rosenzweig, SD, Lawrence, MG, Sullivan, KE, Yoon, S, Rachimi, S, Padem, N, Conboy, E, Stojanovic, M, Petrovic, G, Pasic, S, Church, J, Ferdman, RM, Candotti, F, Arlabosse, T, Theodoropoulou, K, Dutmer, CM, Maródi, L, Szücs, G, Broides, A, Nahum, A, Levy, J, Kettunen, K, Daddali, R, Seppänen, M, Vänttinen, M, Martelius, T , Grönholm, J, Peri, M, Azzari, C, Ricci, S, Ojaimi, S, Edwards, ESJ, van Zelm, MC, Sun, J, Abolhassani, H, Pan-Hammarström, Q, Hakonarson, H, Mayr, D, Boztug, K, Boisson, B, Casanova, JL, Le Coz, C, Poon, GMK & Romberg, N 2025, 'One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them', Blood. https://doi.org/10.1182/blood.2024026683

TY - JOUR

T1 - One hundred thirty-four germ line PU.1 variants and the agammaglobulinemic patients carrying them

AU - Knox, Ainsley V.C.

AU - Cominsky, Lauren Y.

AU - Sun, Di

AU - Cruz Cabrera, Emylette

AU - Nolan, Brian E.

AU - Ofray, Edann

AU - Benetti, Elisa

AU - Visconti, Camilla

AU - Barzaghi, Federica

AU - Rosenzweig, Sergio D.

AU - Lawrence, Monica G.

AU - Sullivan, Kathleen E.

AU - Yoon, Samuel

AU - Rachimi, Suzanna

AU - Padem, Nurcicek

AU - Conboy, Erin

AU - Stojanovic, Maja

AU - Petrovic, Gordana

AU - Pasic, Srdjan

AU - Church, Joseph

AU - Ferdman, Ronald M.

AU - Candotti, Fabio

AU - Arlabosse, Tiphaine

AU - Theodoropoulou, Katerina

AU - Dutmer, Cullen M.

AU - Maródi, László

AU - Szücs, Gabriella

AU - Broides, Arnon

AU - Nahum, Amit

AU - Levy, Jacov

AU - Kettunen, Kaisa

AU - Daddali, Ravindra

AU - Seppänen, Mikko

AU - Vänttinen, Markku

AU - Martelius, Timi

AU - Grönholm, Juha

AU - Peri, Matilde

AU - Azzari, Chiara

AU - Ricci, Silvia

AU - Ojaimi, Samar

AU - Edwards, Emily S.J.

AU - van Zelm, Menno C.

AU - Sun, Jinqiao

AU - Abolhassani, Hassan

AU - Pan-Hammarström, Qiang

AU - Hakonarson, Hakon

AU - Mayr, Daniel

AU - Boztug, Kaan

AU - Boisson, Bertrand

AU - Casanova, Jean Laurent

AU - Le Coz, Carole

AU - Poon, Gregory M.K.

AU - Romberg, Neil

PY - 2025

Y1 - 2025

N2 - Leukopoiesis is lethally arrested in mice lacking the master transcriptional regulator PU.1. Depending on the animal model, subtotal PU.1 loss either induces acute myeloid leukemia or arrests early B-cell and dendritic-cell development. Although humans with absolute PU.1 deficiency have not been reported, a small cadre of congenital agammaglobulinemia patients with sporadic, inborn PU.1 haploinsufficiency was recently described. To better estimate the penetrance, clinical complications, immunophenotypic features, and malignancy risks of PU.1-mutated agammaglobulinemia (PU.MA), a collection of 134 novel or rare PU.1 variants from publicly available databases, institutional cohorts, previously published reports, and unsolved agammaglobulinemia cases were functionally analyzed. In total, 25 loss-of-function (LOF) variants were identified in 33 heterozygous carriers from 21 kindreds across 13 nations. Of individuals harboring LOF PU.1 variants, 22 were agammaglobulinemic, 5 displayed antibody deficiencies, and 6 were unaffected, indicating an estimated disease penetrance of 81.8% with variable expressivity. In a cluster of patients, disease onset was delayed, sometimes into adulthood. All LOF variants conveyed effects via haploinsufficiency, either by destabilizing PU.1, impeding nuclear localization, or directly interfering with transcription. PU.MA patient immunophenotypes consistently demonstrated B-cell, conventional dendritic-cell, and plasmacytoid dendritic-cell deficiencies. Associated infectious and noninfectious symptoms hewed closely to X-linked agammaglobulinemia and not monogenic dendritic-cell deficiencies. No carriers of LOF PU.1 variants experienced hematologic malignancies. Collectively, in vitro and clinical data indicate heterozygous LOF PU.1 variants undermine humoral immunity but do not convey strong leukemic risks.

AB - Leukopoiesis is lethally arrested in mice lacking the master transcriptional regulator PU.1. Depending on the animal model, subtotal PU.1 loss either induces acute myeloid leukemia or arrests early B-cell and dendritic-cell development. Although humans with absolute PU.1 deficiency have not been reported, a small cadre of congenital agammaglobulinemia patients with sporadic, inborn PU.1 haploinsufficiency was recently described. To better estimate the penetrance, clinical complications, immunophenotypic features, and malignancy risks of PU.1-mutated agammaglobulinemia (PU.MA), a collection of 134 novel or rare PU.1 variants from publicly available databases, institutional cohorts, previously published reports, and unsolved agammaglobulinemia cases were functionally analyzed. In total, 25 loss-of-function (LOF) variants were identified in 33 heterozygous carriers from 21 kindreds across 13 nations. Of individuals harboring LOF PU.1 variants, 22 were agammaglobulinemic, 5 displayed antibody deficiencies, and 6 were unaffected, indicating an estimated disease penetrance of 81.8% with variable expressivity. In a cluster of patients, disease onset was delayed, sometimes into adulthood. All LOF variants conveyed effects via haploinsufficiency, either by destabilizing PU.1, impeding nuclear localization, or directly interfering with transcription. PU.MA patient immunophenotypes consistently demonstrated B-cell, conventional dendritic-cell, and plasmacytoid dendritic-cell deficiencies. Associated infectious and noninfectious symptoms hewed closely to X-linked agammaglobulinemia and not monogenic dendritic-cell deficiencies. No carriers of LOF PU.1 variants experienced hematologic malignancies. Collectively, in vitro and clinical data indicate heterozygous LOF PU.1 variants undermine humoral immunity but do not convey strong leukemic risks.

U2 - 10.1182/blood.2024026683

DO - 10.1182/blood.2024026683

M3 - Article

C2 - 39854693

AN - SCOPUS:105003696703

SN - 0006-4971

JO - Blood

JF - Blood

ER -