Key gene boundary discovery may improve treatment of rare inflammatory disorder
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Not all broken genes fail in the same way: some simply stop working, while others interfere with what still works. Researchers from Hiroshima University have identified a critical boundary within the immune-regulating gene called RELA that helps predict how harmful mutations cause disease. Their findings could improve diagnosis and treatment for patients with a rare inherited inflammatory disease.
The study was published in the Journal of Allergy and Clinical Immunology.
RELA produces a protein that plays an important role in immune responses, cell survival and inflammation. Mutations in one copy of the RELA gene can cause a condition known as autosomal dominant RELA deficiency.
Patients may develop recurring mouth and genital ulcers, intestinal inflammation, and, in some cases, broader autoinflammatory symptoms. Thus far, only 45 people from 17 families have been confirmed to have this deficiency worldwide.
"In autosomal dominant RELA deficiency, clinical manifestations differ depending on the nature of the variant," said Satoshi Okada, professor at Hiroshima University's Graduate School of Biomedical and Health Sciences and corresponding author of the study.
Some mutations lead to haploinsufficiency, in which the body does not produce enough functional protein. Others cause a dominant-negative effect, in which the abnormal protein interferes with the normal one.
Seeking a way to accurately predict which type of mutation is responsible for which effect, the team studied eight patients from five families with autosomal dominant RELA deficiency. Their results identified amino acid proline at position 290 (P290) as a key dividing line in the RELA protein.
"RELA variants with a stop codon located N-terminal to amino acid P290 exhibit haploinsufficiency, whereas RELA variants with a stop codon located C-terminal to P290 exhibit a dominant-negative effect," Okada said.
A stop codon is a nucleotide sequence in mRNA that, just like a period at the end of a sentence, signals the cell to terminate protein synthesis. If the stop codon occurs early, before P290 (or near the protein's N-terminal end), the faulty gene copy often cannot produce a usable protein, leaving only one functional copy and causing a shortage of RELA protein.
If the stop codon occurs later, after P290 (or near the C-terminal end), the cell may produce a shortened protein that interferes with the normal one and can trigger more severe inflammation.
Understanding the distinction could have direct clinical value. Patients carrying dominant-negative variants responded less well to corticosteroids and more often required biologic therapies, particularly anti-tumor necrosis factor (anti-TNF) drugs.
"Our findings offer an indicator that could help clinicians interpret newly discovered RELA mutations more quickly and therefore choose more appropriate treatments earlier in the disease course," Okada said.
However, not all variants are easy to classify. Missense mutations, which alter a single amino acid rather than creating an early stop signal, still require laboratory testing since their effects cannot be predicted from location alone.
"Reliably determining the functional impact of RELA missense variants remains an unmet challenge and an important priority for future research," Okada said.
Publication details
Hiroko Hayakawa et al, Discovering patterns in the pathologic significance of non-missense deleterious variants in RELA, Journal of Allergy and Clinical Immunology (2026). DOI: 10.1016/j.jaci.2026.01.020
Journal information: Journal of Allergy and Clinical Immunology
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Clinical geneticsAllergy and immunology Provided by Hiroshima University Who's behind this story?
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