Sandra Rodríguez-Rodero

Protective Effect of the HLA-Bw4I80 Epitope and the Killer Cell Immunoglobulin-Like Receptor 3DS1 Gene against the Development of Hepatocellular Carcinoma in Patients with Hepatitis C Virus Infection

The aim of the present study was to investigate, in 152 Spanish patients infected with hepatitis C virus (HCV), the possibility that killer cell immunoglobulin-like receptors (KIRs) influence progression to hepatocellular carcinoma. KIRs are related to the activation and inhibition of natural killer cells and may play an important role in the innate response against infection with such viruses as HCV. We found that the human leukocyte antigen-Bw4I80 epitope and the KIR3DS1 gene were more frequent in HCV carriers than in patients with hepatocellular carcinoma. Moreover, these associations were not independent of each other--the KIR3DS1/Bw4I80 genotype clearly was also more frequent in HCV carriers (odds ratio, 24.22).

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.

DNA methylation signatures identify biologically distinct thyroid cancer subtypes.

OBJECTIVE The purpose of this study was to determine the global patterns of aberrant DNA methylation in thyroid cancer. RESEARCH DESIGN AND METHODS We have used DNA methylation arrays to determine, for the first time, the genome-wide promoter methylation status of papillary, follicular, medullary, and anaplastic thyroid tumors. RESULTS We identified 262 and 352 hypermethylated and 13 and 21 hypomethylated genes in differentiated papillary and follicular tumors, respectively. Interestingly, the other tumor types analyzed displayed more hypomethylated genes (280 in anaplastic and 393 in medullary tumors) than aberrantly hypermethylated genes (86 in anaplastic and 131 in medullary tumors). Among the genes indentified, we show that 4 potential tumor suppressor genes (ADAMTS8, HOXB4, ZIC1, and KISS1R) and 4 potential oncogenes (INSL4, DPPA2, TCL1B, and NOTCH4) are frequently regulated by aberrant methylation in primary thyroid tumors. In addition, we show that aberrant promoter hypomethylation-associated overexpression of MAP17 might promote tumor growth in thyroid cancer. CONCLUSIONS Thyroid cancer subtypes present differential promoter methylation signatures, and nondifferentiated subtypes are characterized by aberrant promoter hypomethylation rather than hypermethylation. Additional studies are needed to determine the potential clinical interest of the tumor subtype-specific DNA methylation signatures described herein and the role of aberrant promoter hypomethylation in nondifferentiated thyroid tumors.

Genetic and Non-genetic Predictors of LINE-1 Methylation in Leukocyte DNA

Background: Altered DNA methylation has been associated with various diseases. Objective: We evaluated the association between levels of methylation in leukocyte DNA at long interspersed nuclear element 1 (LINE-1) and genetic and non-genetic characteristics of 892 control participants from the Spanish Bladder Cancer/EPICURO study. Methods: We determined LINE-1 methylation levels by pyrosequencing. Individual data included demographics, smoking status, nutrient intake, toenail concentrations of 12 trace elements, xenobiotic metabolism gene variants, and 515 polymorphisms among 24 genes in the one-carbon metabolism pathway. To assess the association between LINE-1 methylation levels (percentage of methylated cytosines) and potential determinants, we estimated beta coefficients (βs) by robust linear regression. Results: Women had lower levels of LINE-1 methylation than men (β = –0.7, p = 0.02). Persons who smoked blond tobacco showed lower methylation than nonsmokers (β = –0.7, p = 0.03). Arsenic toenail concentration was inversely associated with LINE-1 methylation (β = –3.6, p = 0.003). By contrast, iron (β = 0.002, p = 0.009) and nickel (β = 0.02, p = 0.004) were positively associated with LINE-1 methylation. Single nucleotide polymorphisms (SNPs) in DNMT3A (rs7581217-per allele, β = 0.3, p = 0.002), TCN2 (rs9606756-GG, β = 1.9, p = 0.008; rs4820887-AA, β = 4.0, p = 4.8 × 10–7; rs9621049-TT, β = 4.2, p = 4.7 × 10–9), AS3MT (rs7085104-GG, β = 0.7, p = 0.001), SLC19A1 (rs914238, TC vs. TT: β = 0.5 and CC vs. TT: β = –0.3, global p = 0.0007) and MTHFS (rs1380642, CT vs. CC: β = 0.3 and TT vs. CC; β = –0.8, global p = 0.05) were associated with LINE-1 methylation. Conclusions: We identified several characteristics, environmental factors, and common genetic variants that predicted DNA methylation among study participants.

Epigenetic regulation of the immune system in health and disease

Epigenetics comprises various mechanisms that mold chromatin structures and regulate gene expression with stability, thus defining cell identity and function and adapting cells to environmental changes. Alteration of these mechanisms contributes to the inception of various pathological conditions. Given the complexity of the immune system, one would predict that a higher-order, supragenetic regulation is indispensable for generation of its constituents and control of its functions. Here, we summarize various aspects of immune system physiology and pathology in which epigenetic pathways have been implicated. Increasing knowledge in this field, together with the development of specific tools with which to manipulate epigenetic pathways, might form a basis for new strategies of immune function modulation, both to optimize immune therapies for infections or cancer and to control immune alterations in aging or autoimmunity.

Association of MHC class I related gene B (MICB) to celiac disease.

BACKGROUND AND AIMS:Celiac disease (CD) is an enteropathic disorder characterized by strong association with HLA-DQ2. Our aim was to investigate whether MICB, a gene located in the MHC class I region, may contribute to CD susceptibility.PATIENTS AND METHODS:Total of 133 CD patients, previously reported to be associated with MICA-A5.1, and 116 controls were initially analyzed. Twenty-eight additional DQ2-negative CD patients were also studied. MICB was typed by PCR using sequence-specific primers. HLA-B, -DRB1, -DQA1, -DQB1, and MICA were also typed.RESULTS:The allele MICB0106 was strongly associated with CD (pc < 0.000001, odds ratio (OR) = 5.6, 95% confidence interval (CI) = 3.1–10.1) and it was overrepresented in atypical patients compared with typical ones (pc= 0.04, OR = 2.9, CI = 1.4–6.1). MICB0106 was part of DR3-DQ2 haplotype (B8-MICA-A5.1-MICB0106-DR3-DQ2), and consequently a strong linkage disequilibrium between MICB0106 with DQ2 (λs = 1) and MICA-A5.1 (λs = 0.55) was found. To analyze whether the association of MICB is independent of this haplotype, its association was also studied in DQ2-negative patients (n = 46). DQ8 (28% vs 9%, p = 0.0085, pc= NS) and MICB0104 (52% vs 30%, p = 0.01, pc= NS) were increased in DQ2-negative patients. MICA-A5.1 was significantly increased in atypical patients (pc= 0.001, OR = 6.4, CI = 2.2–18.4), and this association was independent of DQ2 and DQ8 (pc= 0.02, OR = 2.6, CI = 1.1–6.1).CONCLUSIONS:The expression of MIC genes on enterocytes under stressful conditions and their function as ligands of intraepithelial γδ and CD8 T cells, together with the data presented here suggest a potential role of MIC genes in the pathogenesis of CD.

Genetic influence of the nonclassical major histocompatibility complex class I molecule MICB in multiple sclerosis susceptibility.

It has been widely reported that the major histocompatibility complex (MHC) class II region provides the main genetic contribution to multiple sclerosis (MS) susceptibility. However, recent studies have suggested that the MHC class I region may also contribute to the development of MS. In this study, we investigated the possible association of the human leukocyte antigen (HLA)-B, MHC class I chain-related gene B (MICB) and MHC class I chain-related gene A (MICA) genes, located in the MHC class I region, with MS susceptibility. For this purpose, we analyzed the distribution of HLA-DR, HLA-B, MICB and MICA alleles in 121 MS patients and 156 healthy controls. Neither HLA-B nor MICA alleles were found to be associated with MS susceptibility, and only the frequency of HLA-DRB1*01 allele was found to be increased in controls (31% vs 14%, P(c) = 0.011). However, MICB*004 allele frequency was significantly increased in MS patients (46.3% vs 23.3%, P(c) < 0.001, odds ratio = 2.82, 95% confidence interval = 1.68-4.73). Although, MICB*004 and HLA-DRB1*15 belong to the AH 7.1 ancestral haplotype, the association of MICB*004 to MS susceptibility was found to be independent of HLA-DRB1*15 in our population. This and previous studies clearly suggest that the MHC class I, in addition to class II, could be involved in MS susceptibility.

Soluble MHC class I chain-related protein B serum levels correlate with disease activity in relapsing–remitting multiple sclerosis

Recent studies demonstrated that dysregulation of NKG2D and its ligands, leading to activation of autoreactive effector cells, can trigger autoimmune diseases, but soluble forms of these ligands can downmodulate NKG2D expression in T effector cells. We investigated the presence of soluble major histocompatibility complex class I chain-related A or B (MICA or MICB) molecules in sera of multiple sclerosis (MS) patients and whether they play a role in the progression of the disease. Although soluble MICA serum levels did not differ, soluble MICB serum levels were higher in MS patients compared with controls. Moreover, the highest MICB levels were in MS patients during relapses. Using immunohistochemistry techniques, it was possible to locate MIC expression in neurons of MS demyelinating plaques that were intracellularly accumulated. Elevated soluble MICB levels exist in serum of multiple sclerosis patients related with disease activity. This may contribute to the modulation of immune response activity during relapses.

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.

Epigenetic modulators of thyroid cancer

There are some well known factors involved in the etiology of thyroid cancer, including iodine deficiency, radiation exposure at early ages, or some genetic changes. However, epigenetic modulators that may contribute to development of these tumors and be helpful to for both their diagnosis and treatment have recently been discovered. The currently known changes in DNA methylation, histone modifications, and non-coding RNAs in each type of thyroid carcinoma are reviewed here.