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FOXP3 mutations causing early-onset insulin-requiring diabetes but without other features of immune dysregulation, polyendocrinopathy, enteropathy, X-linked syndrome.

Citation
Hwang, J. L., et al. “Foxp3 Mutations Causing Early-Onset Insulin-Requiring Diabetes But Without Other Features Of Immune Dysregulation, Polyendocrinopathy, Enteropathy, X-Linked Syndrome.”. Pediatric Diabetes, pp. 388-392.
Center Albert Einstein College of Medicine University of Chicago
Multicenter
Multicenter
Author Jessica L Hwang, Soo-Young Park, Honggang Ye, May Sanyoura, Ashley N Pastore, David Carmody, Daniela Del Gaudio, Janna F Wilson, Craig L Hanis, Xiaoming Liu, Gil Atzmon, Benjamin Glaser, Louis H Philipson, Siri Atma W Greeley, T2D-Genes Consortium
Keywords Foxp3, T cell, autoimmunity, Monogenic diabetes, splice mutation
Abstract

Diabetes occurs in 1/90 000 to 1/160 000 births and when diagnosed under 6 months of age is very likely to have a primary genetic cause. FOXP3 encodes a transcription factor critical for T regulatory cell function and mutations are known to cause "immune dysregulation, polyendocrinopathy (including insulin-requiring diabetes), enteropathy, X-linked" (IPEX) syndrome. This condition is often fatal unless patients receive a bone-marrow transplant. Here we describe the phenotype of male neonates and infants who had insulin-requiring diabetes without other features of IPEX syndrome and were found to have mutations in FOXP3. Whole-exome or next generation sequencing of genes of interest was carried out in subjects with isolated neonatal diabetes without a known genetic cause. RT-PCR was carried out to investigate the effects on RNA splicing of a novel intronic splice-site variant. Four male subjects were found to have FOXP3 variants in the hemizygous state: p.Arg114Trp, p.Arg347His, p.Lys393Met, and c.1044+5G>A which was detected in 2 unrelated probands and in a brother diagnosed with diabetes at 2.1 years of age. Of these, p.Arg114Trp is likely a benign rare variant found in individuals of Ashkenazi Jewish ancestry and p.Arg347His has been previously described in patients with classic IPEX syndrome. The p.Lys393Met and c.1044+5G>A variants are novel to this study. RT-PCR studies of the c.1044+5G>A splice variant confirmed it affected RNA splicing by generating both a wild type and truncated transcript. We conclude that FOXP3 mutations can cause early-onset insulin-requiring diabetes with or without other features of IPEX syndrome.

Year of Publication
2018
Journal
Pediatric diabetes
Volume
19
Issue
3
Number of Pages
388-392
Date Published
12/2018
ISSN Number
1399-5448
DOI
10.1111/pedi.12612
Alternate Journal
Pediatr Diabetes
PMID
29193502
PMCID
PMC5918222
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