Analysis of positional candidate genes strongly supported CTLA-4 as the gene on 2q associated with APS3v and FOXP3 as the gene on Xp associated with T1D or AITD and APS3v.
Our data showed that the (GT)n microsatelloite polymorphism in the FOXP3/Scrufin gene was associated with Japanese adult onset type 1 diabetes, especially in females, and slowly progressive type 1 diabetes.
These include certain alleles of the cytotoxic T lymphocyte-associated antigen-4 gene (possibly a nonspecific exacerbating molecule of disease risk in several autoimmune diseases), the lymphoid protein tyrosine phosphatase nonreceptor type 22 gene (associated with type 1 diabetes and other autoimmune diseases), TNF-alpha (involved in chronic inflammation, autoimmunity and malignancies) and the FOXP3 gene (expressed by CD4+C25+ regulatory T cells), whose mutations can cause immune dysregulation, polyendocrinopathy and X-linked inheritance syndromes of systemic autoimmunity.
In conclusion, children with only T1D generally showed a lower FOXP3 mRNA expression than did children with CD, or with T1D in combination with CD, which suggests impaired regulation of the immune system in children with T1D.
These investigations suggest that altered peripheral blood frequencies of Tregs, as defined by the expression of FOXP3, are not specifically associated with type 1 diabetes and continue to highlight age as an important variable in analysis of immune regulation.
A recent study showed that the presence of the (GT) n microsatellite polymorphism in the FOXP3 gene was associated with enhancer activity, resulting in an effect on type I diabetes mellitus.
While some progress has been made towards these goals, additional investigations are needed to address the aforementioned knowledge voids including the role for regulatory T cells (Treg), defined by their co-expression of CD4 and CD25 as well as the transcription factor FOXP3, in the pathogenesis and natural history of type 1 diabetes.
Our results indicated an association between FOXP3 and T1D (global p=0.004) and a possible interaction between FOXP3 and the HLA-DR3-DQ2 susceptibility haplotype.
Our data indicate that allelic variation in or near the coding regions of the FOXP3 gene does not have a major role in the inherited susceptibility to the common form of type 1 diabetes.