Differential operation of MLH1/MSH2 and FANCD2 crosstalk in chemotolerant bladder carcinoma: a clinical and therapeutic intervening study.

We aimed to understand the crosstalk between mismatch repair (MMR) and FA-BRCA pathway in primary bladder carcinoma (BlCa) samples as well as in chemotolerant cell line. We analysed the genetic alterations of MLH1 and MSH2 (MMR-related genes) and after that we correlated it with the nuclear translocation of FANCD2 protein. Next, we evaluated this crosstalk in T24 BlCa cell line in response to doxorubicin treatment. In primary BlCa tumors, infrequent genetic deletion (17-20%) but frequent promoter methylation (28-55%) of MLH1 and MSH2 was observed, where MLH1 was significantly (p < 0.05) more methylated among the early staged samples (NMIBC). However, MSH2 was significantly more altered among the NMIBC samples, signifying the importance of MMR pathway during the early pathogenesis of the disease. Furthermore, BlCa samples with underexpressed MLH1/MSH2 protein possessed cytoplasmic FANCD2 protein; encouraging that inefficiency of MMR proteins might restrict FANCD2 nuclear translocation. Next, we analysed publicly available data in GEO2R tool where we observed that in response to chemotherapeutic drugs, expression of MLH1, MSH2 and FANCD2 were diminishing. Validating this result in doxorubicin tolerant T24 cells, we found that expression of MLH1 and MSH2 was gradually decreased with increasing dose of doxorubicin. Interestingly, FANCD2 mono-ubiquitination (L-form) was also reduced in chemotolerant T24 cells. The crosstalk between MMR and FA-BRCA pathway was substantiated in the primary BlCa tumors. Further, in response to doxorubicin, this crosstalk was found to be hampered due to under-expression of MLH1 and MSH2 gene, thereby rendering chemotolerance.

Differential promoter usages of PTCH1 and down regulation of HHIP are associated with HNSCC progression.

PURPOSE: The study was aimed to understand the importance of the hedgehog signaling pathway in development of head and neck squamous cell carcinoma (HNSCC). METHODS: The molecular profiles of the key regulatory genes of the pathway were analysed in the adjacent normal epithelium and tumor samples. The findings were validated in HNSCC cell line. RESULTS: In the bioinformatical analysis, severe reduction in the expression of HHIP was evident in the datasets. The protein and mRNA expression studies in our sample pool revealed interplay of various isoforms of PTCH1 gene (PTCH1-1 and 1B) together with high/medium expression of GLI, SHH, SMO and HHIP in the basal/parabasal layers of the normal epithelium. As the disease progressed, severe downregulation of HHIP coupled with upregulation of GLI1 and differential expression pattern of various PTCH1 gene isoform was evident. Promoter methylation analysis of PTCH1 gene revealed the involvement of more than one promoter of PTCH1 in regulating the expression of different isoform of this gene during tumorigenesis. Treating the FaDu cell line with the demethylating agent 5-aza-2'-deoxycytidine reversed the methylation effects of HHIP and PTCH1 and de-activated the pathway. Also, reduced expression of HHIP-AS1 was observed in our sample pool suggesting multiple ways of regulation of the HHIP gene. Lastly, the patients with under expression of HHIP, HHIP-AS1, high expression of GLI1 showed worse five-year over-all survival trend. CONCLUSION: Dynamic promoter switching of PTCH1 and frequent inactivation of HHIP are the key regulatory events of hedgehog pathway activation in HNSCC.

Differential Wnt-ß- catenin pathway activation in HPV positive and negative oral epithelium is transmitted during head and neck tumorigenesis: clinical implications.

The aim of this study is to understand the association of HPV infection and wnt-ß-catenin self-renewal pathway in development of head and neck squamous cell carcinoma (HNSCC). For this reason, the molecular profiles (methylation/deletion/expression) of antagonists (SFRP1/2 and DKK1), agonists (FZD7 and LRP6) and effector protein ß-catenin of the pathway were analyzed in HPV positive/negative oral epithelium at first, followed by its changes during development of the tumor along with correlations with different clinico-pathological parameters. HPV infection alone or in combination with tobacco habit could activate p- ß-catenin expression in basal/parabasal layers of oral epithelium through high expression of FZD7 and significant down regulation of SFRP1/2 through promoter hypermethylation due to over expression of DNMT1 with ubiquitous down regulation of DKK1 and up-regulation of LRP6. This phenomenon has been seen in respective HPV positive and negative HNSCC tumors with additional deletion/microsatellite size alterations in the antagonists. Overall alterations (methylation/deletion) of SFRP1/2, DKK1 gradually increased from Group I (HPV-/Tobacco-) to Group IV(HPV+/Tobacco+) tumors, leading to the worst prognosis of the patients. Thus, the transmission of differentially activated wnt-ß-catenin pathway from HPV positive/negative basal/parabasal layers of oral epithelium to HNSCC tumors determines differences in molecular pathogenesis of the disease.