TY - JOUR
T1 - Whole Exome Sequencing Identifies Epithelial and Immune Dysfunction-Related Biomarkers in Food Protein-Induced Enterocolitis Syndrome
AU - Camino-Mera, Alba
AU - Pardo-Seco, Jacobo
AU - Bello, Xabier
AU - Argiz, Laura
AU - Boyle, Robert J
AU - Custovic, Adnan
AU - Herberg, Jethro
AU - Kaforou, Myrsini
AU - Arasi, Stefania
AU - Fiocchi, Alessandro
AU - Pecora, Valentina
AU - Barni, Simona
AU - Mori, Francesca
AU - Bracamonte, Teresa
AU - Echeverria, Luis
AU - O'Valle-Aísa, Virginia
AU - Hernández-Martínez, Noelia Lara
AU - Carballeira, Iria
AU - García, Emilio
AU - Garcia-Magan, Carlos
AU - Moure-González, José Domingo
AU - Gonzalez-Delgado, Purificación
AU - Garriga-Baraut, Teresa
AU - Infante, Sonsoles
AU - Zambrano-Ibarra, Gabriela
AU - Tomás-Pérez, Margarita
AU - Machinena, Adrianna
AU - Pascal, Mariona
AU - Prieto, Ana
AU - Vázquez-Cortes, Sonia
AU - Fernández-Rivas, Montserrat
AU - Vila, Leticia
AU - Alsina, Laia
AU - Torres, María José
AU - Mangone, Giusi
AU - Quirce, Santiago
AU - Martinón-Torres, Federico
AU - Vázquez-Ortiz, Marta
AU - Gómez-Carballa, Alberto
AU - Salas, Antonio
N1 - Publisher Copyright:
© 2024 The Author(s). Clinical & Experimental Allergy published by John Wiley & Sons Ltd.
PY - 2024/11
Y1 - 2024/11
N2 - Background: Food protein-induced enterocolitis syndrome (FPIES) is a food allergy primarily affecting infants, often leading to vomiting and shock. Due to its poorly understood pathophysiology and lack of specific biomarkers, diagnosis is frequently delayed. Understanding FPIES genetics can shed light on disease susceptibility and pathophysiology—key to developing diagnostic, prognostic, preventive and therapeutic strategies. Using a well-characterised cohort of patients we explored the potential genome-wide susceptibility factors underlying FPIES. Methods: Blood samples from 41 patients with oral food challenge-proven FPIES were collected for a comprehensive whole exome sequencing association study. Results: Notable genetic variants, including rs872786 (RBM8A), rs2241880 (ATG16L1) and rs2289477 (ATG16L1), were identified as significant findings in FPIES. A weighted SKAT model identified six other associated genes including DGKZ and SIRPA. DGKZ induces TGF-β signalling, crucial for epithelial barrier integrity and IgA production; RBM8A is associated with thrombocytopenia absent radius syndrome, frequently associated with cow's milk allergy; SIRPA is associated with increased neutrophils/monocytes in inflamed tissues as often observed in FPIES; ATG16L1 is associated with inflammatory bowel disease. Coexpression correlation analysis revealed a functional correlation between RBM8A and filaggrin gene (FLG) in stomach and intestine tissue, with filaggrin being a known key pathogenic and risk factor for IgE-mediated food allergy. A transcriptome-wide association study suggested genetic variability in patients impacted gene expression of RBM8A (stomach and pancreas) and ATG16L1 (transverse colon). Conclusions: This study represents the first case–control exome association study of FPIES patients and marks a crucial step towards unravelling genetic susceptibility factors underpinning the syndrome. Our findings highlight potential factors and pathways contributing to FPIES, including epithelial barrier dysfunction and immune dysregulation. While these results are novel, they are preliminary and need further validation in a second cohort of patients.
AB - Background: Food protein-induced enterocolitis syndrome (FPIES) is a food allergy primarily affecting infants, often leading to vomiting and shock. Due to its poorly understood pathophysiology and lack of specific biomarkers, diagnosis is frequently delayed. Understanding FPIES genetics can shed light on disease susceptibility and pathophysiology—key to developing diagnostic, prognostic, preventive and therapeutic strategies. Using a well-characterised cohort of patients we explored the potential genome-wide susceptibility factors underlying FPIES. Methods: Blood samples from 41 patients with oral food challenge-proven FPIES were collected for a comprehensive whole exome sequencing association study. Results: Notable genetic variants, including rs872786 (RBM8A), rs2241880 (ATG16L1) and rs2289477 (ATG16L1), were identified as significant findings in FPIES. A weighted SKAT model identified six other associated genes including DGKZ and SIRPA. DGKZ induces TGF-β signalling, crucial for epithelial barrier integrity and IgA production; RBM8A is associated with thrombocytopenia absent radius syndrome, frequently associated with cow's milk allergy; SIRPA is associated with increased neutrophils/monocytes in inflamed tissues as often observed in FPIES; ATG16L1 is associated with inflammatory bowel disease. Coexpression correlation analysis revealed a functional correlation between RBM8A and filaggrin gene (FLG) in stomach and intestine tissue, with filaggrin being a known key pathogenic and risk factor for IgE-mediated food allergy. A transcriptome-wide association study suggested genetic variability in patients impacted gene expression of RBM8A (stomach and pancreas) and ATG16L1 (transverse colon). Conclusions: This study represents the first case–control exome association study of FPIES patients and marks a crucial step towards unravelling genetic susceptibility factors underpinning the syndrome. Our findings highlight potential factors and pathways contributing to FPIES, including epithelial barrier dysfunction and immune dysregulation. While these results are novel, they are preliminary and need further validation in a second cohort of patients.
KW - ATG16L1
KW - DGKZ
KW - FPIES
KW - NGS
KW - RBM8A
KW - exomes
KW - food allergy
UR - http://www.scopus.com/inward/record.url?scp=85205519816&partnerID=8YFLogxK
U2 - 10.1111/cea.14564
DO - 10.1111/cea.14564
M3 - Article
C2 - 39348862
AN - SCOPUS:85205519816
SN - 0954-7894
VL - 54
SP - 919
EP - 929
JO - Clinical and Experimental Allergy
JF - Clinical and Experimental Allergy
IS - 11
ER -