Biallelic PI4KA mutations disrupt B-cell metabolism and cause B-Cell lymphopenia and hypogammaglobulinemia
Biallelic PI4KA mutations disrupt B-cell metabolism and cause B-Cell lymphopenia and hypogammaglobulinemia
Purpose: PI4KA-related disorder is a highly clinically variable condition characterized by neurological (limb spasticity, developmental delay, intellectual disability, seizures, ataxia, nystagmus) and gastrointestinal (inflammatory bowel disease and multiple intestinal atresia) manifestations. Although features consistent with immunodeficiency (autoimmunity/autoinflammation and recurrent infections) have been reported in a subset of patients, the burden of B-cell deficiency and hypogammaglobulinemia has not been extensively investigated. We sought to describe the clinical presentation and manifestations of patients with PI4KA-related disorder and to investigate the metabolic consequences of biallelic PI4KA variants in B cells.
Methods: clinical data from patients with PI4KA variants were obtained. Multi-omics analyses combining transcriptome, proteome, lipidome and metabolome analyses in conjunction with functional assays were performed in EBV-transformed B cells.
Results: clinical and laboratory data of 13 patients were collected. Recurrent infections (7/13), autoimmune/autoinflammatory manifestations (5/13), B-cell deficiency (8/13) and hypogammaglobulinemia (8/13) were frequently observed. Patients' B cells frequently showed increased transitional and decreased switched memory B-cell subsets. Pathway analyses based on differentially expressed transcripts and proteins confirmed the central role of PI4KA in B cell differentiation with altered B-cell receptor (BCR) complex and signalling. By altering lipids production and tricarboxylic acid cycle regulation, and causing increased endoplasmic reticulum stress, biallelic PI4KA mutations disrupt B cell metabolism inducing mitochondrial dysfunction. As a result, B cells show hyperactive PI3K/mTOR pathway, increased autophagy and deranged cytoskeleton organization.
Conclusion: by altering lipid metabolism and TCA cycle, impairing mitochondrial activity, hyperactivating mTOR pathway and increasing autophagy, PI4KA-related disorder causes a syndromic inborn error of immunity presenting with B-cell deficiency and hypogammaglobulinemia.
Saettini, Francesco
f0224f33-9292-4a5c-9254-36d9019f4a29
Guerra, Fabiola
0d9407be-aab0-4a40-9402-a7f86ecc7ae6
Mauri, Mario
7293d7bc-d7c5-4ec6-9ef5-81f7a2d76fa7
Salter, Claire G.
fd214de9-a3f8-4db7-93e5-64d399182975
23 September 2024
Saettini, Francesco
f0224f33-9292-4a5c-9254-36d9019f4a29
Guerra, Fabiola
0d9407be-aab0-4a40-9402-a7f86ecc7ae6
Mauri, Mario
7293d7bc-d7c5-4ec6-9ef5-81f7a2d76fa7
Salter, Claire G.
fd214de9-a3f8-4db7-93e5-64d399182975
et al.
(2024)
Biallelic PI4KA mutations disrupt B-cell metabolism and cause B-Cell lymphopenia and hypogammaglobulinemia.
Journal of Clinical Immunology, 45, [15].
(doi:10.1007/s10875-024-01793-8).
Abstract
Purpose: PI4KA-related disorder is a highly clinically variable condition characterized by neurological (limb spasticity, developmental delay, intellectual disability, seizures, ataxia, nystagmus) and gastrointestinal (inflammatory bowel disease and multiple intestinal atresia) manifestations. Although features consistent with immunodeficiency (autoimmunity/autoinflammation and recurrent infections) have been reported in a subset of patients, the burden of B-cell deficiency and hypogammaglobulinemia has not been extensively investigated. We sought to describe the clinical presentation and manifestations of patients with PI4KA-related disorder and to investigate the metabolic consequences of biallelic PI4KA variants in B cells.
Methods: clinical data from patients with PI4KA variants were obtained. Multi-omics analyses combining transcriptome, proteome, lipidome and metabolome analyses in conjunction with functional assays were performed in EBV-transformed B cells.
Results: clinical and laboratory data of 13 patients were collected. Recurrent infections (7/13), autoimmune/autoinflammatory manifestations (5/13), B-cell deficiency (8/13) and hypogammaglobulinemia (8/13) were frequently observed. Patients' B cells frequently showed increased transitional and decreased switched memory B-cell subsets. Pathway analyses based on differentially expressed transcripts and proteins confirmed the central role of PI4KA in B cell differentiation with altered B-cell receptor (BCR) complex and signalling. By altering lipids production and tricarboxylic acid cycle regulation, and causing increased endoplasmic reticulum stress, biallelic PI4KA mutations disrupt B cell metabolism inducing mitochondrial dysfunction. As a result, B cells show hyperactive PI3K/mTOR pathway, increased autophagy and deranged cytoskeleton organization.
Conclusion: by altering lipid metabolism and TCA cycle, impairing mitochondrial activity, hyperactivating mTOR pathway and increasing autophagy, PI4KA-related disorder causes a syndromic inborn error of immunity presenting with B-cell deficiency and hypogammaglobulinemia.
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Accepted/In Press date: 23 August 2024
e-pub ahead of print date: 23 September 2024
Published date: 23 September 2024
Identifiers
Local EPrints ID: 509405
URI: http://eprints.soton.ac.uk/id/eprint/509405
ISSN: 0271-9142
PURE UUID: 520d194e-3622-46d7-b035-627c1be15b16
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Date deposited: 20 Feb 2026 17:42
Last modified: 21 Feb 2026 03:23
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Contributors
Author:
Francesco Saettini
Author:
Fabiola Guerra
Author:
Mario Mauri
Author:
Claire G. Salter
Corporate Author: et al.
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