DNA Methylation Remodeling after Bariatric Surgery Correlates with Clinical Parameters.

The altered functions of adipose tissue are one of the main issues in obesity. Bariatric surgery is associated with improvement of obesity associated comorbidities. Here DNA methylation remodeling in adipose tissue after bariatric surgery is examined. After six months postoperative, DNA methylation shows changes in 1155 CpG sites, 66 of these sites correlate with body mass index. Some sites also show correlation with LDL-C, HDL-C, total cholesterol, and triglycerides. CpG sites are located in genes that have not previously been linked to obesity or metabolic diseases. GNAS complex locus is one of those that presented CpG site with the greatest changes after surgery, and the most significant correlation with BMI and lipid profiles. These results show that epigenetic regulation may be involved in the alteration of adipose tissue functions in obesity.

Detection Of Mutations In The Isocitrate Dehydrogenase Genes (IDH1/IDH2) Using castPCRTM In Patients With AML And Their Clinical Impact In Mexico City.

OBJECTIVE: Approximately 40-50% of patients with acute myeloid leukaemia (AML) have been reported to present with a normal karyotype and a variable disease-free period, most likely due to the molecular heterogeneity presented by these patients. A variety of mutations have been identified at the molecular level, such as those in the IDH1/2 gene, which causes a gain of function of the isocitrate dehydrogenase enzyme, generating high levels of the (R)-2-hydroxyglutarate oncometabolite, which competitively inhibits dioxygenase enzymes. Therefore, the objective of this study was to evaluate the incidence of IDH1/2 gene mutations in AML patients and their impact on survival. MATERIALS AND METHODS: A total of 101 patients with a diagnosis of AML were included; mononuclear cells were obtained for DNA extraction and purification. Mutations were detected using TaqMan™ competitive allele-specific probes (castPCR™). Overall survival curves were plotted using IBM SPSS Statistics 23 software. RESULTS: The frequency of IDH gene mutations was 19.8%. For the IDH1 gene, 13.8% of the mutations identified included R132H, V178I, G105G and R132C. The frequency of mutations of the IDH2 gene was 5.9%; the variants included R172K and R140Q. The mean survival time in patients without IDH1 gene mutations was 173.15 days (120.20-226.10), while the mean survival time for patients with mutations was 54.95 days (9.7-100.18), p = 0.001. CONCLUSION: The frequency of IDH1 and IDH2 gene mutations in the sample was similar to that reported in other studies. The analysis of these mutations in AML patients is of great importance as a prognostic factor due to their impact on survival and their use as potential therapeutic targets or as targets of inhibitors of IDH1(Ivosidenib, Tibsovo) and IDH2 (Enasidenib, Idhifa).

Analysis of the dynamic aberrant landscape of DNA methylation and gene expression during arsenic-induced cell transformation.

Inorganic arsenic is a well-known carcinogen associated with several types of cancer, but the mechanisms involved in arsenic-induced carcinogenesis are not fully understood. Recent evidence points to epigenetic dysregulation as an important mechanism in this process; however, the effects of epigenetic alterations in gene expression have not been explored in depth. Using microarray data and applying a multivariate clustering analysis in a Gaussian mixture model, we describe the alterations in DNA methylation around the promoter region and the impact on gene expression in HaCaT cells during the transformation process caused by chronic exposure to arsenic. Using this clustering approach, the genes were grouped according to their methylation and expression status in the epigenetic landscape, and the changes that occurred during the cellular transformation were identified adequately. Thus, we present a valuable method for identifying epigenomic dysregulation.

NFE2L2 Gene Variants and Arsenic Susceptibility: A Lymphoblastoid Model.

Arsenic (As) exposure is a major risk for several types of cancer and metabolic diseases such as diabetes. The transcription factor nuclear factor erythroid 2-related factor (Nrf2) is a key mediator in the cellular defense against As-induced adverse effects. The -653G/A and -617C/A gene variants modulate expression levels of the Nrf2 coding gene (NFE2L2) and are postulated to be associated with several illnesses. In this study the functional effect of these polymorphisms was investigated in the cellular sensitivity to As-mediated effects. Using quantitative real-time polymerase chain reaction (qRT-PCR) the basal levels of NFE2L2 mRNA and the induced levels of NFE2L2 and its target gene NQO1 were measured in lymphoblastoid cells carrying different genotypes for -653G/A and -617C/A polymorphisms following As exposure. The effects of different NFE2L2 gene genotypes on cell proliferation were also explored after chronic metal exposure. A tendency toward reduction in basal levels of NFE2L2 mRNA was noted in the heterozygous (GA/CA) and risk homozygous (AA/AA) genotypes of both polymorphisms in immortalized lymphoblastoid cells. Although the expression of NFE2L2 and NQO1 after acute acute iAs exposure was not markedly influenced by -653G/A and -617C/A genotype, it was found that these single-nucleotide polymorphisms (SNPs) were correlated with a differential sensitivity to chronic exposure to the metalloid. Further studies are needed to completely understand the role of -653G/A and -617C/A SNPs in regulation of the NFE2L2 gene.

The NRF2-KEAP1 pathway is an early responsive gene network in arsenic exposed lymphoblastoid cells.

Inorganic arsenic (iAs), a major environmental contaminant, has risen as an important health problem worldwide. More detailed identification of the molecular mechanisms associated with iAs exposure would help to establish better strategies for prevention and treatment. Although chronic iAs exposures have been previously studied there is little to no information regarding the early events of exposure to iAs. To better characterize the early mechanisms of iAs exposure we conducted gene expression studies using sublethal doses of iAs at two different time-points. The major transcripts differentially regulated at 2 hrs of iAs exposure included antioxidants, detoxificants and chaperones. Moreover, after 12 hrs of exposure many of the down-regulated genes were associated with DNA replication and S phase cell cycle progression. Interestingly, the most affected biological pathway by both 2 or 12 hrs of iAs exposure were the Nrf2-Keap1 pathway, represented by the highly up-regulated HMOX1 transcript, which is transcriptionally regulated by the transcription factor Nrf2. Additional Nrf2 targets included SQSTM1 and ABCB6, which were not previously associated with acute iAs exposure. Signalling pathways such as interferon, B cell receptor and AhR route were also responsive to acute iAs exposure. Since HMOX1 expression increased early (20 min) and was responsive to low iAs concentrations (0.1 µM), this gene could be a suitable early biomarker for iAs exposure. In addition, the novel Nrf2 targets SQSTM1 and ABCB6 could play an important and previously unrecognized role in cellular protection against iAs.

HMOX1 promoter (GT)n polymorphim is associated with childhood-onset systemic lupus erythematosus but not with juvenile rheumatoid arthritis in a Mexican population.

OBJECTIVES: The heme oxigenase 1 (HO-1), a rate-limiting enzyme for heme degradation, is an important cytoprotective protein. Transcriptional activity of HO-1 coding gene (HMOX1) can be regulated by the presence of a dinucleotide repeat polymorphism (GT)n at its promoter region. Accordingly, length of (GT)n repeat has been associated with susceptibility to several diseases. We investigated whether the HMOX1 (GT)n polymorphism was associated with childhood-onset systemic lupus erythematosus (SLE) and juvenile rheumatoid arthritis (JRA) susceptibility. METHODS: We studied 207 and 333 unrelated Mexican patients with JRA and childhood-onset SLE, respectively. The control population consisted of 653 individuals ethnically matched with cases. The HMOX1 (GT)n polymorphism was genotype by PCR and fluorescence technology. RESULTS: We found 27 different alleles, with the 22 and 29 repeats as the most common alleles. Distribution of short allele (n<25) and SS genotype was not statistically associated with JRA subjects. Interestingly, the frequency of both short allele and SS genotype was significantly associated with SLE susceptibility (OR=1.47, 95%CI [1.14-1.89], p=0.002; and OR=2.79, 95%CI [1.24-6.24], p=0.01, respectively). CONCLUSIONS: The distribution pattern of HMOX1 (GT) alleles was different in the Mexican population than those reported elsewhere. Our results suggest that HMOX1 (GT)n polymorphism was associated with susceptibility to childhood-onset SLE but not with JRA in Mexican individuals.

HPV16 E2 could act as down-regulator in cellular genes implicated in apoptosis, proliferation and cell differentiation.

BACKGROUND: Human Papillomavirus (HPV) E2 plays several important roles in the viral cycle, including the transcriptional regulation of the oncogenes E6 and E7, the regulation of the viral genome replication by its association with E1 helicase and participates in the viral genome segregation during mitosis by its association with the cellular protein Brd4. It has been shown that E2 protein can regulate negative or positively the activity of several cellular promoters, although the precise mechanism of this regulation is uncertain. In this work we constructed a recombinant adenoviral vector to overexpress HPV16 E2 and evaluated the global pattern of biological processes regulated by E2 using microarrays expression analysis. RESULTS: The gene expression profile was strongly modified in cells expressing HPV16 E2, finding 1048 down-regulated genes, and 581 up-regulated. The main cellular pathway modified was WNT since we found 28 genes down-regulated and 15 up-regulated. Interestingly, this pathway is a convergence point for regulating the expression of genes involved in several cellular processes, including apoptosis, proliferation and cell differentiation; MYCN, JAG1 and MAPK13 genes were selected to validate by RT-qPCR the microarray data as these genes in an altered level of expression, modify very important cellular processes. Additionally, we found that a large number of genes from pathways such as PDGF, angiogenesis and cytokines and chemokines mediated inflammation, were also modified in their expression. CONCLUSIONS: Our results demonstrate that HPV16 E2 has regulatory effects on cellular gene expression in HPV negative cells, independent of the other HPV proteins, and the gene profile observed indicates that these effects could be mediated by interactions with cellular proteins. The cellular processes affected suggest that E2 expression leads to the cells in to a convenient environment for a replicative cycle of the virus.

NFE2L2 gene variants and susceptibility to childhood-onset asthma.

INTRODUCTION: Environmental factors causing oxidative stress are known to be associated with asthma morbidity. The antioxidative gene NFE2L2 has been implicated in asthma development in mice models. In humans, the SNPs -617C/A and -653G/A, located at the promoter region of NFE2L2 gene, have been found associated with the susceptibility to develop diverse chronic-degenerative diseases. OBJECTIVE: To determine if there is association of the -617C/A and -653G/A NFE2L2 SNPs and childhood-onset asthma in a Mexican population. MATERIALS AND METHODS: In a case-control study 242 unrelated patients with diagnosis of asthma and 358 ethnically- and sex-matched healthy individuals were included. The -617C/A and -653G/A NFE2L2 genotyping was carried out using the TaqMan allelic discrimination assay. RESULTS: The risk allele of both polymorphisms showed a high frequency in our sample (-617A: 24% and -653A: 40%), similarly to those previously reported in Asiatic populations (-617A: 24-29% and -653A: 42-52%; p > 0.05). In contrast, the -617A allele frequency was higher than that reported in a European-African admixed population (10%, p < 0.001). The allelic and genotypic frequencies from both polymorphisms showed no significant differences among cases and controls in female and male samples. Likewise, haplotype analysis found no association between NFE2L2 gene variants and the disease. CONCLUSIONS: Despite the experimental evidence suggesting that NFE2L2 gene is involved in asthma pathogenesis, the -617C/A and -653G/A SNPs were not associated with childhood-onset asthma.

Dp71f modulates GSK3-beta recruitment to the beta1-integrin adhesion complex.

Previously, it was shown that Dp71f binds to the beta1-integrin adhesion complex to modulate PC12 cell adhesion. The absence of Dp71f led to a failure in the beta1-integrin adhesion complex formation. One of the structural proteins which links the beta1-integrin cytoplasmic domain to the actin cytoskeleton is ILK. GSK3-beta is an ILK substrate and the carboxi-terminal region of dystrophin 427 is a substrate for hierarchical phosphorylation by GSK3-beta. Dp71f contains the carboxi-terminal domain present in dystrophin 427. By using co-immunoprecipitation assays, in the present work it is demonstrated that in the neuronal PC12 cell line an interaction between Dp71f and GSK3-beta occurs. This interaction was corroborated by in vitro pulldown assays. We show that GSK3-beta is recruited to the beta1-integrin complex and that a reduced expression of Dp71f induces a reduced GSK3-beta recruitment to the beta1-integrin complex. In addition, the present work establishes that adhesion of PC12 cells to laminin does not influence the phosphorylation status of Dp71f.

TAF1 interacts with and modulates human papillomavirus 16 E2-dependent transcriptional regulation.

High-risk human papillomavirus (HPV) infection is the main etiological factor in the development of cervical cancer and viral type 16 is the most frequently found in this neoplasia. The E2 protein plays a key role in viral DNA replication, transcription and genome maintenance. E2 is a sequence-specific DNA-binding protein that activates or represses the transcriptional activity of promoters depending on the distance from the E2-binding sites to the TATA box. The transactivation properties of E2 are modulated by the interaction with several cellular factors that regulate the recruitment of transcription factor IID. Here, we demonstrate by pull-down assays the in vitro interaction of HPV16 E2 and TAF1. The domain of TAF1 necessary for the binding maps into its amino region, while the carboxy-terminal DNA-binding domain and the transactivation domain of the E2 protein are involved in the interaction. By transient cotransfection assays on C-33 A cells, we demonstrated that TAF1 enhances the activation of an E2-dependent artificial promoter while overexpression of TAF1 alleviates the E2-dependent repression of a high-risk HPV long control region. The specific modification of the transcriptional activity of both promoters by TAF1 suggests that the interaction between these proteins could participate in the modulation of the transregulatory properties of E2, with important biological consequences.

Dystrophin Dp71f associates with the beta1-integrin adhesion complex to modulate PC12 cell adhesion.

Dystrophin Dp71 is the main product of the Duchenne muscular dystrophy gene in the brain; however, its function is unknown. To study the role of Dp71 in neuronal cells, we previously generated by antisense treatment PC12 neuronal cell clones with decreased Dp71 expression (antisense-Dp71 cells). PC12 cells express two different splicing isoforms of Dp71, a cytoplasmic variant called Dp71f and a nuclear isoform called Dp71d. We previously reported that antisense-Dp71 cells display deficient adhesion to substrate and reduced immunostaining of beta1-integrin in the cell area contacting the substrate. In this study, we isolated additional antisense-Dp71 clones to analyze in detail the potential involvement of Dp71f isoform with the beta1-integrin adhesion system of PC12 cells. Immunofluorescence analyses as well as immunoprecipitation assays demonstrated that the PC12 cell beta1-integrin adhesion complex is composed of beta1-integrin, talin, paxillin, alpha-actinin, FAK and actin. In addition, our results showed that Dp71f associates with most of the beta1-integrin complex components (beta1-integrin, FAK, alpha-actinin, talin and actin). In the antisense-Dp71 cells, the deficiency of Dp71 provokes a significant reduction of the beta1-integrin adhesion complex and, consequently, the deficient adhesion of these cells to laminin. In vitro binding experiments confirmed the interaction of Dp71f with FAK and beta1-integrin. Our data indicate that Dp71f is a structural component of the beta1-integrin adhesion complex of PC12 cells that modulates PC12 cell adhesion by conferring proper complex assembly and/or maintenance.

Effects of HRAS oncogene on cell cycle progression in a cervical cancer-derived cell line.

BACKGROUND: Human papillomavirus (HPV) infection is the most prevalent factor in anogenital cancers. However, epidemiological surveys and molecular data indicate that viral presence is not enough to induce cervical cancer, suggesting that cellular factors could play a key role. One of the most important genes involved in cancer development is the RAS oncogene, and activating mutations in this gene have been associated with HPV infection and cervical neoplasia. Thus, we determined the effect of HRAS oncogene expression on cell proliferation in a cell line immortalized by E6 and E7 oncogenes. METHODS: HPV positive human cervical carcinoma-derived cell lines (HeLa), previously transfected with the HRAS oncogene or the empty vector, were used. We first determined the proliferation rate and cell cycle profile of these cells by using flow cytometry and BrdU incorporation assays. In order to determine the signaling pathway regulated by HRAS and implicated in the alteration of proliferation of these cells, we used specific chemical inhibitors to inactivate the Raf and PI3K pathways. RESULTS: We observed that HeLa cells stably transfected with oncogenic HRAS progressed faster than control cells on the cell cycle by reducing their G1 phase. Additionally, HRAS overexpression accelerated the G1/S transition. Specific chemical inhibitors for PI3K and MEK activities indicated that both PI3K/AKT and RAF/MEK/ERK pathways are involved in the HRAS oncogene-induced reduction of the G1 phase. CONCLUSIONS: Our results suggest that the HRAS oncogene could play an important role in the development of cervical cancer, in addition to the presence of HPV, by reducing the G1 phase and accelerating the G1/S transition of infected cells.