Regulation of G6PD acetylation by SIRT2 and KAT9 modulates NADPH homeostasis and cell survival during oxidative stress.

Glucose-6-phosphate dehydrogenase (G6PD) is a key enzyme in the pentose phosphate pathway (PPP) and plays an essential role in the oxidative stress response by producing NADPH, the main intracellular reductant. G6PD deficiency is the most common human enzyme defect, affecting more than 400 million people worldwide. Here, we show that G6PD is negatively regulated by acetylation on lysine 403 (K403), an evolutionarily conserved residue. The K403 acetylated G6PD is incapable of forming active dimers and displays a complete loss of activity. Knockdown of G6PD sensitizes cells to oxidative stress, and re-expression of wild-type G6PD, but not the K403 acetylation mimetic mutant, rescues cells from oxidative injury. Moreover, we show that cells sense extracellular oxidative stimuli to decrease G6PD acetylation in a SIRT2-dependent manner. The SIRT2-mediated deacetylation and activation of G6PD stimulates PPP to supply cytosolic NADPH to counteract oxidative damage and protect mouse erythrocytes. We also identified KAT9/ELP3 as a potential acetyltransferase of G6PD. Our study uncovers a previously unknown mechanism by which acetylation negatively regulates G6PD activity to maintain cellular NADPH homeostasis during oxidative stress.

Unfavorable clinical implications of circulating CD44+ lymphocytes in patients with nasopharyngeal carcinoma undergoing radiochemotherapy.

BACKGROUND: To evaluate the use of cellular immunity parameters as predictors of therapy response. METHODS: Circulating lymphocytes were measued by flow cytometry in 94 nasopharyngeal carcinoma (NPC) patients following radiochemotherapy. RESULTS: Significantly decreased percentage of CD3(+), CD4(+), and CD8(+) lymphocytes, significantly increased proportion of CD44(+), CD25(+), NK lymphocytes, and an increased CD4(+)/CD8(+) ratio were indicated in NPC patients as compared with healthy controls. Circulating CD44(+) lymphocytes in both the N2/N3 and III/IV groups were significantly increased as compared to the N0/N1 and I/II groups, respectively (P<0.05). A significant decrease in CD19(+) lymphocytes was observed in the III/IV group as compared with the I/II group (P<0.05). After radiochemotherapy, NPC patients had significantly (P<0.05) decreased percentages of CD4(+), CD44(+), and CD19(+) lymphocytes and a decreased CD4(+)/CD8(+) ratio, whereas the mean percentages of CD8(+) and NK lymphocytes were significantly (P<0.05) increased. However, compared with the pre-radiochemotherapy values, no significant (P>0.05) changes in CD3(+) or CD25(+) lymphocytes were observed in the NPC-treated group. Follow-up analysis indicated significantly lower DFS for patients with high CD44(+) lymphocytes compared to those with low CD44(+) lymphocytes after radiochemotherapy. CONCLUSION: Circulating CD44(+) lymphocytes seems to be a promising criterion to predict survival in NPC patients undergoing radiochemotherapy.

Hypermethylation-modulated downregulation of RASSF1A expression is associated with the progression of esophageal cancer.

BACKGROUND AND AIMS: Chromosome 3p21 is an important locus harboring critical tumor suppressor genes (TSGs) implicated in the pathogenesis of multiple tumors including esophageal carcinoma (EC). Aberrant promoter methylation is a fundamental mechanism of inactivation of TSGs in cancer. RASSF1A, a candidate tumor suppressor gene, recently cloned from the lung tumor locus at 3p21.3, is frequently inactivated by hypermethylation of its promoter region in a number of malignancies. We undertook this study to investigate the methylation status of RASSF1A and its significance in esophageal squamous cell carcinoma (ESCC). METHODS: Real-time RT-PCR and real-time methylation-specific PCR (real-time MSP) were used to detect RASSF1A expression and the methylation status of the RASSF1A promoter, respectively, in 124 primary ESCC tissues. RESULTS: Hypermethylation, partial methylation and unmethylation of the promoter region of RASSF1A were detected in 56 (45.2%), 23 (18.6%) and 45 (36.2%) of 124 ESCC samples, respectively. Unmethylation of the promoter region of RASSF1A was detected in 119 (96%) of the 124 corresponding noncancerous tissues. Five (4.0%) of 124 noncancerous tissues showed partial methylation. The presence of hypermethylation was statistically associated with loss of RASSF1A mRNA expression in primary ESCC (p <0.05). There were statistically significant correlations between the presence of hypermethylation and regional lymph node involvement (p=0.000), histological differentiation (p=0.009) and tumor stage (p=0.000). CONCLUSIONS: Our results suggest that RASSF1A may be one of the ESCC-related TSGs located at 3p21, and hypermethylation of the CpG island promoter of the RASSF1A is associated with the progression of ESCC.

Aberrant methylation of different DNA repair genes demonstrates distinct prognostic value for esophageal cancer.

BACKGROUND: DNA mismatch repair (MMR) deficiency results in a strong mutator phenotype and high-frequency microsatellite instability (MSI-H), which are the hallmarks of many tumors. AIM: The objective of this study is to investigate the promoter CpG island methylation status of mismatch repair genes human mutL homolog 1 (hMLH1), human mutS homolog 2 (hMSH2), and O(6)-methylguanine-DNA methyltransferase (MGMT) in esophageal squamous cell carcinoma (ESCC) and its roles in alkylating agents chemotherapy. METHODS: Real-time methylation-specific polymerase chain reaction (PCR) (real-time MSP) was employed to detect promoter CpG island methylation of the hMLH1, hMSH2, as well as MGMT genes in 235 surgical tumor tissue samples from ESCC patients and their corresponding normal tissue samples. RESULTS: Promoter CpG island methylation of hMLH1, hMSH2, and MGMT were detectable in 43.4, 28.9, and 40.4% of ESCC tumor DNA, respectively, and the loss rates of hMLH1, hMSH2, and MGMT protein expression were 48.6, 34.5, and 40.9% in tumor tissues, respectively. For the entire population of 235 ESCC patients who were enrolled in operating treatment combined with radiotherapy and chemotherapy with alkylating agents, there was a significant difference in the overall survival between patients with methylated MGMT promoter and those with an unmethylated MGMT promoter (P < 0.05). CONCLUSION: Promoter CpG island methylation may be a frequent event in ESCC carcinogenesis. Detection of the methylated sequences of hMLH1, hMSH2, and MGMT appears to be promising as a predictive factor in primary ESCC.

Hypermethylation-modulated down-regulation of CDH1 expression contributes to the progression of esophageal cancer.

CDH1, a cell adhesion molecule, which plays a key role in maintaining the epithelial phenotype, is regarded as an invasion-suppressor gene in light of accumulating evidence from in vitro experiments and clinical observations. In an attempt to clarify the mechanism responsible for inactivation of this gene in carcinomas, we investigated the methylation status of the CDH1 gene 5'-CpG islands and its regulatory mechanism in the progression of esophageal squamous cell carcinoma. Real-time methylation-specific polymerase chain reaction (qMSP) and treatment with the demethylating agent 5-aza-2'-deoxycytidine (5-Aza-CdR) were conducted to analyze the methylation status at the CDH1 promoter region in the human esophageal carcinoma cell lines, EC1 and EC9706. A total of 235 invasive esophageal squamous cell carcinomas (ESCC) at stages I-IV and their corresponding normal tissue samples, were included in an immunohistochemistry study and methylation analysis of CDH1. The results demonstrate that in EC1 and EC9706 cells, the CDH1 promoter is methylated and treatment with 5-Aza-CdR restored CDH1 expression. Enhanced CDH1 expression decreased cell migration, invasion ability and increased adhesion ability. Decreased CDH1 expression was detected in 59.6% of ESCC tissues, compared with their adjacent non-neoplastic epithelia, which had a close correlation with the primary tumor status, lymph node status, distant metatasis and clinicopathologic stage. Hypermethylation at the CDH1 promoter was detected in 97.9% of 140 cases of ESCC with low CDH1 expression. The methylation of CDH1 promoters (P=0.929) was closely correlated with the lack of expression of their corresponding proteins. The Cox regression model for survival analysis showed that increases in CDH1 methylation had a greater impact on the prognosis than tumor clinical stage. These findings suggest that CDH1 gene silencing by promoter hypermethylation and the resultant reduction of CDH1 expression may play an important role in the progression of ESCC. CDH1 methylation was a significant predictor of survival in ESCC patients after surgery.