A non-coding RNASEH1 gene variant associates with type 1 diabetes and interacts with HLA tagSNPs in families from Colombia.

OBJECTIVES: RNASEH1 gene has recently been associated with type 1 diabetes (T1D) in Colombia. The purpose of this study was to fine mapping the putative functional variant in RNASEH1 and testing its interaction with HLA tagSNPs. METHODS: Two-hundred nuclear families with T1D were included in this study. Probands were tested for GAD65 and IA-2 autoantibodies. Genotyping was performed using 20 coding tagSNPs uncovered through Sanger sequencing (N = 96), in addition to 23 tagSNPs chosen from 1000genomes to cover the extent of the gene region. Also, 45 tagSNPs for classic HLA alleles associated with T1D were also genotyped. The transmission disequilibrium test (TDT) was used to test for association and a multiple testing correction was made using permutation. Interaction between RNASEH1 variants and HLA was evaluated by means of the M-TDT test. RESULTS: We identified 20 variants (15 were novel) in the 96 patients sequenced. None of these variants were in linkage disequilibrium. In total, 43 RNASEH1 variants were genotyped in the 200 families. Association between T1D and rs7607888 was identified (P = .002). Haplotype analysis involving rs7607888 variant revealed even stronger association with T1D (most significative P = .0003). HLA tagSNPs displayed stronger associations (OR = 6.39, 95% CI = 4.33-9.44, P-value = 9.74E-28). Finally, we found several statistically significant interactions of HLA variants with rs7607888 (P-value ranged from 8.77E-04 to 5.33E-12). CONCLUSION: Our results verify the association of rs7607888 in RNASEH1 gene with T1D. It is also shown in the interaction between RNASEH1 and HLA for conveying risk to T1D in Northwest Colombia. Work is underway aiming to identify the actual classic HLA alleles associated with the tagSNPs tested here.

RNASEH1 gene variants are associated with autoimmune type 1 diabetes in Colombia.

BACKGROUND: In a previous work, we found linkage and association of type 1 diabetes (T1D) to a 12 known gene region at chromosome 2p25 in Colombian families. Here, we present further work on this candidate region. MATERIALS AND METHODS: Seventeen SNPs located on the 12 candidate genes, in 100 familial trios set, were tested by ARMS-tetraprimer-PCR or PCR-RFLP. Five extra SNPs in the vicinity of rs10186193 were typed. A replica phase included 97 novel familial trios, in whom diabetes-related auto-antibodies (AABs) were tested in sera of the patients. In addition to transmission disequilibrium tests, haplotype analyses were carried out using the unphased software. RESULTS: SNP rs10186193 (at RNASEH1 gene) showed association with T1D (P = 0.005). The additional five SNPs revealed that rs7607888 (P = 2.03 × 10-7), rs55981318 (P = 0.018), and rs1136545 (P = 1.93 × 10-9) were also associated with T1D. Haplotype analysis showed association for rs55981318-rs10186193 (P = 0.0005), rs7563960-rs7607888 (P = 0.0007), rs7607888-rs1136545 (P = 9.21 × 10-10), and rs1136545-rs11538545 (P = 6.67 × 10-8). In contrast, the new set of 97 familial trios tested for SNPs rs55981318, rs10186193, and rs7607888 did not support the previous finding; however, by combining the sample (197 trios), evidence of association of T1D with rs55981318 and rs7607888 was conclusive. In addition, a two-loci haplotype analysis of the combined sample showed significant association of RNASEH1 with T1D (P = 3.1 × 10-5). CONCLUSION: In conclusion, our analyses suggest that RNASEH1 gene variants associate with susceptibility/protection to T1D in Colombia.

Posible implicación del gen RNASEH1 en la etiología de Diabetes Mellitus tipo 1 / Possible implication of the RNASEH1 gene in the etiology of type 1 diabetes mellitus

Las enfermedades complejas se caracterizan porque presentan varios genes además de factores ambientales implicados en su etiología. Las bases genéticas de la diabetes mellitus tipo 1 (T1D) supone un efecto mayor del complejo HLA que interactúa con otros genes y con el ambiente. Mucho se ha descrito acerca de la posible participación de las infecciones virales como desencadenadores de T1D. En esta revisión exploramos los posibles mecanismos por los cuales el gen RNASEH1 podría estar participando en la etiología de T1D, a partir de una infección viral. El gen RNASEH1 se localiza en la región cromosómica 2p25, la cual ha sido recientemente implicada por nosotros en la susceptibilidad a T1D. Este gen ha sido implicado en la enfermedad mediante análisis genético. Acá pretendemos dar sentido biológico a los datos genéticos. Considerando que la enfermedad es multifactorial, este planteamiento no excluye la participación de otros genes u otros factores ambientales.

Complex disorders are characterized by presenting many genes and other environmental factors implicated in their etiology. The genetic bases of type 1 diabetes mellitus (T1D) suppose a major effect of the HLA complex which interacts with other genes and the environment. Much has been written about the possible implication of viral infections as triggers of T1D. This review explores the mechanisms by which the RNASEH1 gene could be involved in the etiology of T1D, due to a viral infection. The RNASEH1 gene is located in chromosome 2p25, which has been recently implicated in the susceptibility to T1D by the authors, through genetic analysis.This text hopes to establish a biological context for the genetic data. Taking into account that this is a multifactorial disease, this approach does not exclude the eventual participation of other genes or environmental factors.