AI Article Synopsis
- PLCγ2 is a key signaling molecule involved in immune regulation, and its variants can lead to conditions like PLCγ2-associated immune dysregulation (PLAID), particularly PLAID with cold urticaria (PLAID-CU), caused by specific genetic mutations.
- Researchers conducted a study combining RNA sequencing and whole genome sequencing to identify genetic lesions in patients with antibody deficiency and known PLAID-CU cases.
- The study found that two probands had novel PLCG2 transcripts with in-frame deletions linked to splice site mutations and deletions, which resulted in impaired ERK phosphorylation in a model system, highlighting the role of these genetic alterations in PLAID-CU.
Article Abstract
Background: Phospholipase Cγ2 (PLCγ2) is an important signaling molecule that receives and transmits signals from various cell surface receptors in most hematopoietic lineages. Variants of PLCG2 cause PLCγ2-associated immune dysregulation (PLAID), a family of conditions classified by mutational effect. PLAID with cold urticaria (PLAID-CU) is caused by in-frame deletions of PLCG2 that are dominant negative at physiologic temperatures but become spontaneously active at subphysiologic temperatures.
Objective: We identified genetic lesions that cause PLAID by combining RNA sequencing of full-length PLCG2 with whole genome sequencing.
Methods: We studied 9 probands with antibody deficiency and a positive evaporative cooling test, along with 2 known PLAID-CU patients and 3 healthy subjects. Illumina sequencing was performed on full-length PLCG2 cDNA synthesized from peripheral blood mononuclear cell RNA, and whole genome sequencing was used to identify genetic lesions. Novel alternate transcripts were overexpressed in the Plcg2-deficient DT40 cell overexpression system. Extracellular signal-regulated kinase (ERK) phosphorylation was quantified by flow cytometry with and without B-cell receptor crosslinking.
Results: Two probands expressed novel alternative transcripts of PLCG2 with in-frame deletions. Proband 1, expressing PLCG2 without exons 18-19, carried a splice site mutation in intron 19. Proband 2, expressing PLCG2 without exons 19-22, carried a 14 kb de novo deletion of PLCG2. DT40 cells overexpressing the exon 18-19 or exon 19-22 deletions failed to phosphorylate ERK in response to B-cell receptor crosslinking.
Conclusion: In addition to autosomal dominant genomic deletions, de novo deletions and splice site mutations of PLCG2 can also cause PLAID-CU. All of these can be identified by cDNA-based sequencing.
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| http://dx.doi.org/10.1016/j.jaci.2024.06.025 | DOI Listing |
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