Altered intragenic DNA methylation of HOOK2 gene in adipose tissue from individuals with obesity and type 2 diabetes.

AIMS/HYPOTHESIS: Failure in glucose response to insulin is a common pathology associated with obesity. In this study, we analyzed the genome wide DNA methylation profile of visceral adipose tissue (VAT) samples in a population of individuals with obesity and assessed whether differential methylation profiles are associated with the presence of type 2 diabetes (T2D). METHODS: More than 485,000 CpG genome sites from VAT samples from women with obesity undergoing gastric bypass (n = 18), and classified as suffering from type 2 diabetes (T2D) or not (no type 2 diabetes, NT2D), were analyzed using DNA methylation arrays. RESULTS: We found significant differential methylation between T2D and NT2D samples in 24 CpGs that map with sixteen genes, one of which, HOOK2, demonstrated a significant correlation between differentially hypermethylated regions on the gene body and the presence of type 2 diabetes. This was validated by pyrosequencing in a population of 91 samples from both males and females with obesity. Furthermore, when these results were analyzed by gender, female T2D samples were found hypermethylated at the cg04657146-region and the cg 11738485-region of HOOK2 gene, whilst, interestingly, male samples were found hypomethylated in this latter region. CONCLUSION: The differential methylation profile of the HOOK2 gene in individuals with T2D and obesity might be related to the attendant T2D, but further studies are required to identify the potential role of HOOK2 gene in T2D disease. The finding of gender differences in T2D methylation of HOOK2 also warrants further investigation.

Epigenetic alterations in endocrine-related cancer.

Aberrant epigenetics is a hallmark of cancer, and endocrine-related tumors are no exception. Recent research has been identifying an ever-growing number of epigenetic alterations in both genomic DNA methylation and histone post-translational modification in tumors of the endocrine system. Novel microarray and ultra-deep sequencing technologies have allowed the identification of genome-wide epigenetic patterns in some tumor types such as adrenocortical, parathyroid, and breast carcinomas. However, in other cancer types, such as the multiple endocrine neoplasia syndromes and thyroid cancer, tumor information is limited to candidate genes alone. Future research should fill this gap and deepen our understanding of the functional role of these alterations in cancer, as well as defining their possible clinical uses.

Transcriptional regulation of MICA and MICB: a novel polymorphism in MICB promoter alters transcriptional regulation by Sp1.

MHC class I-related genes A/B (MICA/B) are ligands of the NKG2D receptor expressed on T and NK cells. Their expression is highly restricted in normal tissues, but is up-regulated in tumoral and infected cells. We show that the minimal promoter of both genes contains a CCAAT box, which binds to NF-Y, and a GC box, which binds to Sp1, Sp3 and Sp4. We also demonstrate that MICB promoter is polymorphic, showing three single nucleotide polymorphisms (C>G at +16, -341, -408) and a deletion of two base pairs at -66 (AG>--) that is located close to the CCAAT box (-70) and the GC box (-86). Transcriptional activity associated with MICB promoter variants carrying this deletion, present in the 45.3% of Spanish population, showed a remarkable decrease (18-fold, p <0.01). By functional analysis, we show that the deletion plays a critical role in MICB promoter activity by diminishing Sp1 transcriptional activation. These important variations in MICB expression among normal individuals could imply a significant difference in the natural immune response against infections or tumor transformation, and might thereby contribute to an increased aberrant immune response against self cells, providing the molecular basis for the associations of the MICB gene to different autoimmune diseases.