Heterozygous FOXN1 Variants Cause Low TRECs and Severe T Cell Lymphopenia, Revealing a Crucial Role of FOXN1 in Supporting Early Thymopoiesis

FOXN1 is the master regulatory gene of thymic epithelium development. FOXN1 deficiency leads to thymic aplasia, alopecia, and nail dystrophy, accounting for the nude/severe combined immunodeficiency (nu/SCID) phenotype in humans and mice. We identified several newborns with low levels of T cell rece...

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Published inAmerican journal of human genetics Vol. 105; no. 3; pp. 549 - 561
Main Authors Bosticardo, Marita, Yamazaki, Yasuhiro, Cowan, Jennifer, Giardino, Giuliana, Corsino, Cristina, Scalia, Giulia, Prencipe, Rosaria, Ruffner, Melanie, Hill, David A., Sakovich, Inga, Yemialyanava, Irma, Tam, Jonathan S., Padem, Nurcicek, Elder, Melissa E., Sleasman, John W., Perez, Elena, Niebur, Hana, Seroogy, Christine M., Sharapova, Svetlana, Gebbia, Jennifer, Kleiner, Gary Ira, Peake, Jane, Abbott, Jordan K., Gelfand, Erwin W., Crestani, Elena, Biggs, Catherine, Butte, Manish J., Hartog, Nicholas, Hayward, Anthony, Chen, Karin, Heimall, Jennifer, Seeborg, Filiz, Bartnikas, Lisa M., Cooper, Megan A., Pignata, Claudio, Bhandoola, Avinash, Notarangelo, Luigi D.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 05.09.2019
Elsevier
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Summary:FOXN1 is the master regulatory gene of thymic epithelium development. FOXN1 deficiency leads to thymic aplasia, alopecia, and nail dystrophy, accounting for the nude/severe combined immunodeficiency (nu/SCID) phenotype in humans and mice. We identified several newborns with low levels of T cell receptor excision circles (TRECs) and T cell lymphopenia at birth, who carried heterozygous loss-of-function FOXN1 variants. Longitudinal analysis showed persistent T cell lymphopenia during infancy, often associated with nail dystrophy. Adult individuals with heterozygous FOXN1 variants had in most cases normal CD4+ but lower than normal CD8+ cell counts. We hypothesized a FOXN1 gene dosage effect on the function of thymic epithelial cells (TECs) and thymopoiesis and postulated that these effects would be more prominent early in life. To test this hypothesis, we analyzed TEC subset frequency and phenotype, early thymic progenitor (ETP) cell count, and expression of FOXN1 target genes (Ccl25, Cxcl12, Dll4, Scf, Psmb11, Prss16, and Cd83) in Foxn1nu/+ (nu/+) mice and age-matched wild-type (+/+) littermate controls. Both the frequency and the absolute count of ETP were significantly reduced in nu/+ mice up to 3 weeks of age. Analysis of the TEC compartment showed reduced expression of FOXN1 target genes and delayed maturation of the medullary TEC compartment in nu/+ mice. These observations establish a FOXN1 gene dosage effect on thymic function and identify FOXN1 haploinsufficiency as an important genetic determinant of T cell lymphopenia at birth.
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These authors contributed equally to this work
ISSN:0002-9297
1537-6605
DOI:10.1016/j.ajhg.2019.07.014