Associations of risk factors obesity and occupational airborne exposures with CDKN2A/p16 aberrant DNA methylation in esophageal cancer patients.

It is known that obesity and occupational airborne exposure such as dust are among risk factors of esophageal cancer development, in particular squamous cell carcinoma (SCC) of esophagus. Here, we tested whether these factors could also affect aberrant DNA methylation. DNAs from 44 fresh tumor tissues and 19 non-tumor adjacent normal tissues, obtained from 44 patients affected by SCC of esophagus (SCCE), were studied for methylation at the CDKN2A/p16 gene promoter by methylation-specific polymerase chain reaction assay. Statistical methods were used to assess association of promoter methylation with biopathological, clinical, and personal information data, including obesity and airborne exposures. Methylation at the CDKN2A/p16 gene promoter was detected in 12 out of 44 tumor samples. None of the non-tumor tissues exhibited the aberrant methylation. Our results confirmed previously described significant association with low tumor stage (P= 0.002); in addition, we found that obesity (P= 0.001) and occupational exposure (P= 0.008) were both significantly associated with CDKN2A/p16 promoter methylation. This study provides evidence that obesity and occupational exposure increase the risk of developing esophageal cancer through an enhancement of CDKN2A/p16 promoter methylation.

A comprehensive study on the major mutations in glucose-6-phosphate dehydrogenase-deficient polymorphic variants identified in the coastal provinces of Caspian Sea in the north of Iran.

BACKGROUND: The aim of this study was the molecular analysis of G6PD patients for G6PD mutations in the coastal provinces of the Caspian Sea in north of Iran. METHODS: Studies on G6PD deficiency in the coastal provinces of the Caspian Sea in Iran were performed in 248 patients with a history of favism, in Mazandaran, Golestan and Gillan provinces, which contributed 74, 71 and 103 samples, respectively. Three different major polymorphic variants were determined by molecular analysis, using SSCP, sequencing and PCR-RFLP methods. Firstly, all Mazandaranian samples were searched for the Mediterranean mutation by PCR-RFLP method. The remaining samples of the Mazandaran province were analysed by SSCP followed by sequencing for other mutations. Then, our research was expanded in two other provinces, Golestan and Gillan, by the PCR-RFLP method. RESULTS: Three different major polymorphic variants were found: G6PD Mediterranean 75.4% (187 out of 248), G6PD Chatham 19.76% (49 out of 248), G6PD Cosenza 2.02% (5 out of 248) and 7 samples out of 248 remained unknown. Also, there was no significant difference in the incidence of various G6PD polymorphic variants with mean age, and various blood work values such as Hb, WBC and MCV between two major variants (p>0.20). CONCLUSIONS: These results which are the first molecular investigation in north of Iran indicate a higher prevalence of G6PD Chatham in this large Iranian population than anywhere else in the world. The distribution of these G6PD variants is more similar to that found in an Italian population (80-84% for Mediterranean, 20% for Chatham and 1.9% for Cosenza mutation). Although the origin of Iranian population is rather uncertain, the closer similarity of the mutation spectrum to Italian rather than Middle Eastern population may indicate that these populations have a common ancestral origin.

Molecular identification of mutations in G6PD gene in patients with favism in Iran.

Glucose 6-phosphate dehydrogenase is a highly polymorphic enzyme encoded by a human X-linked gene (Xq2.8). This enzyme catalyses the first step of pentose phosphate pathway, that converts glucose 6-phosphate to 6-phosphogluconate with production of NADPH2. G6PD deficiency is the most common human metabolic inborn error affecting more than 400 million people world wide. The main clinical manifestations are acute hemolytic anemia and jaundice, triggered by infection or ingestion of Fava beans or oxidative drugs. A predominant variant of G6PD named Mediterranean is often associated with favism. This has been evident in several countries including Northern coastal provinces of Iran. Other current variants are Chatham and Cosenza. Molecular identification of the most prevalent mutations in G6PD gene was carried out in 71 males and females with G6PD deficiency. They were from Iranian Northern province of Golestan. DNA was extracted from blood samples and analyzed for known G6PD mutation by PCR and restriction fragment length polymorphisms (RFLP) technique. Adapting this method, revealed that Mediterranean mutation at nt 563(C-->T) is predominant in the area (69%) and 26.7% of patients have Chatham mutation at nt 1003(G-->A). Findings indicate a higher prevalence of these mutations, in Golestan compared to Mazandaran (66.2% Mediterranean and 19% Chatham mutation) and Gilan (86.4% Mediterranean and 9.71% Chatham mutations). Cosenza mutation at nt 1376(G-->C), by PCR-RFLP technique was not found among other 3 samples (4.3%). The similarity of these results with mutations in Italy indicates probable existence of a common ancestral origin in the observed populations.