Nupur Mukherjee

Overexpression of EGFR in Head and Neck Squamous Cell Carcinoma Is Associated with Inactivation of SH3GL2 and CDC25A Genes

The aim of this study is to understand the mechanism of EGFR overexpression in head and neck squamous cell carcinoma (HNSCC). For this reason, expression/mutation of EGFR were analyzed in 30 dysplastic head and neck lesions and 148 HNSCC samples of Indian patients along with 3 HNSCC cell lines. In addition, deletion/methylation/mutation/expression of SH3GL2 (associated with EGFR degradation) and CDC25A (associated with dephosphorylation of EGFR) were analyzed in the same set of samples. Our study revealed high frequency of EGFR overexpression (66–84%), low frequency of gene amplification (10–32.5%) and absence of functional mutation in the dysplastic lesions and HNSCC samples. No correlation was found between protein overexpression and mRNA expression/gene amplification status of EGFR. On the other hand, frequent alterations (deletion/methylation) of SH3GL2 (63–77%) and CDC25A (37–64%) were seen in the dysplastic and HNSCC samples. Two novel single nucleotide polymorphism (SNPs) were found in the promoter region of SH3GL2. Reduced expression of these genes showed concordance with their alterations. Overexpression of EGFR and p-EGFR were significantly associated with reduced expression and alterations of SH3GL2 and CDC25A respectively. In-vitro demethylation experiment by 5-aza-2′-deoxycytidine (5-aza-dC) showed upregulation of SH3GL2 and CDC25A and downregulation of EGFR expression in Hep2 cell line. Poor patient outcome was predicted in the cases with alterations of SH3GL2 and CDC25A in presence of human papilloma virus (HPV) infection. Also, low SH3GL2 and high EGFR expression was a predictor of poor patient survival. Thus, our data suggests that overexpression of EGFR due to its reduced degradation and dephosphorylation is needed for development of HNSCC.

Subtype-specific alterations of the Wnt signaling pathway in breast cancer: clinical and prognostic significance.

The aim of the study is to understand the importance of the Wnt/β‐catenin pathway in the development of breast cancer (BC) and its association with different clinicopathological parameters. Alterations (deletion/methylation/expression) of some Wnt/β‐catenin pathway antagonists like APC, SFRP1/2, CDH1 and activator β‐catenin (CTNNB1) were analyzed in primary BC in Indian patients. High frequencies (65–70%) of overall alterations (deletion/methylation) of the antagonists were seen in the BC samples. Also, 99% (156/158) of the samples showed alterations in any one of the genes, indicating the importance of this pathway in the development of this tumor. Co‐alterations of these genes were observed in 30% of samples, with significantly high alterations in late‐onset (37%) and estrogen receptor (ER)−/progesterone receptor (PR)− (37%) BC compared with early onset (21%) and ER/PR+ (18%) BC samples, respectively. Significantly high (P‐value = 0.001–0.02) alterations of APC and CDH1 genes were seen in ER−/PR− BC compared with ER/PR+ BC. Immunohistochemical analysis showed reduced expression of the Wnt antagonists in BC concordant with their molecular alterations. Nuclear localization of β‐catenin showed significant association with alterations in the antagonists and was also significantly high in the ER−/PR− BC samples. Alterations of SFRP2 coupled with a late clinical stage and low/nulliparity predicted the worst prognosis in BC patients. Therefore, the present study suggests that cumulative alterations in more than one Wnt antagonist along with increased nuclear accumulation of β‐catenin play an important role in the development of BC and have significant clinical as well as prognostic importance. (Cancer Sci 2012; 103: 210–220)

Association of FANCC and PTCH1 with the Development of Early Dysplastic Lesions of the Head and Neck

BackgroundAlteration of chromosome 9q22.3 region is an early and frequent event in head and neck squamous cell carcinoma (HNSCC). The aim of this study was to understand the association of candidate tumor suppressor genes PHF2, FANCC, PTCH1, and XPA located in this region in the development of HNSCC.MethodsThe alterations (deletion, promoter methylation, mutation, expression) of these genes were analyzed in 65 dysplastic head and neck lesions and 84 primary HNSCC samples. Clinicopathologic correlations were made with alterations of the genes.ResultsOverall alterations (deletion, promoter methylation) of FANCC and PTCH1 were high in mild dysplasia and comparable in subsequent stages of tumor progression. However, PHF2 alteration was low in mild dysplasia, but increased in moderate and severe dysplasias. Alterations (deletion, promoter methylation) of FANCC and PTCH1 showed association with each other. Two novel mutations in GLI binding sites of PTCH1 promoter and a novel microsatellite marker hmPTCH1 with four alleles at immediate upstream of the gene were identified. In a case-control study, the (CGG)7 allele of hmPTCH1 was found to be susceptible for HNSCC development. Concordance was seen in the expression (RNA, protein) of these genes with their molecular alterations.ConclusionsAlterations of FANCC and PTCH1 could be used as molecular marker for early diagnosis and prognosis of HNSCC.

Anomalous altered expressions of downstream gene-targets in TP53-miRNA pathways in head and neck cancer

The prevalence of head and neck squamous cell carcinoma, HNSCC, continues to grow. Change in the expression of TP53 in HNSCC affects its downstream miRNAs and their gene targets, anomalously altering the expressions of the five genes, MEIS1, AGTR1, DTL, TYMS and BAK1. These expression alterations follow the repression of TP53 that upregulates miRNA-107, miRNA- 215, miRNA-34 b/c and miRNA-125b, but downregulates miRNA-155. The above five so far unreported genes are the targets of these miRNAs. Meta-analyses of microarray and RNA-Seq data followed by qRT-PCR validation unravel these new ones in HNSCC. The regulatory roles of TP53 on miRNA-155 and miRNA-125b differentiate the expressions of AGTR1 and BAK1in HNSCC vis-à-vis other carcinogenesis. Expression changes alter cell cycle regulation, angiogenic and blood cell formation, and apoptotic modes in affliction. Pathway analyses establish the resulting systems-level functional and mechanistic insights into the etiology of HNSCC.

Frequent alterations of LOH11CR2A, PIG8 and CHEK1 genes at chromosomal 11q24.1-24.2 region in breast carcinoma: clinical and prognostic implications.

To understand the importance of frequent deletions at chromosome 11q24.1‐24.2 region in breast carcinoma, alterations (deletion/methylation) of the candidate genes LOH11CR2A, ROBO3, ROBO4, HEPACAM, PIG8 and CHEK1 located in this region were analyzed in 106 breast carcinoma samples. Among these genes, LOH11CR2A showed highest frequency of deletion (56%), followed by PIG8 (35%), CHEK1 (31%) and ROBO3/ROBO4/HEPACAM loci (28%). Comparable frequency of promoter methylation (26–35%) was observed for LOH11CR2A, CHEK1 and PIG8. Overall alterations (deletion/methylation) of these genes were in the following order: LOH11CR2A (60%) > PIG8 (46%) > CHEK1 (41%) and showed significant association with each other. Breast carcinoma samples that were estrogen/progesterone receptor negative showed significantly high deletion and overall alterations than estrogen/progesterone receptor positive samples for LOH11CR2A, CHEK1 and PIG8. The methylation and overall alteration of LOH11CR2A were significantly associated with tumor stages in breast carcinoma. However, in early/late onset and estrogen/progesterone receptor positive/negative breast carcinoma, the overall alterations of LOH11CR2A, PIG8 and CHEK1 were differentially associated with advanced stages, tumor grade and lymph node metastasis. Alterations of PIG8 and CHEK1 were significantly associated with poor prognosis in patients with early age of onset of the disease indicating significant prognostic importance. Quantitative mRNA expression analysis detected reduced expression of the genes in the order LOH11CR2A > CHEK1 > PIG8. Immunohistochemical analysis showed reduced protein expression of PIG8 and CHEK1 that was concordant with their molecular alterations. Thus, our study suggests that LOH11CR2A, PIG8 and CHEK1 are candidate tumor suppressor genes associated with breast carcinoma and have significant clinical as well as prognostic importance.

Study of association and molecular analysis of human papillomavirus in breast cancer of Indian patients: Clinical and prognostic implication

Objectives Human papillomavirus (HPV) causes tumors primarily Cervical cancer. Recently, inconsistent reports came up in Breast cancer (BC) too. In India, despite treatment 70,218 BC patients die each year. So, we explored the association of HPV, if any, with BC prognosis in Indian pre-therapeutic (PT) and Neo-adjuvant chemotherapy (NACT) patients with subsequent analysis of HPV profile. Methods HPV prevalence was checked and analysis of physical status, copy number, genome variation, promoter methylation and expression (mRNA and protein) of the prevalent subtype was done. Results High prevalence of HPV was observed in both PT (64.0%) and NACT (71.0%) cases with significant association with younger (20–45 yrs) PT patients. Interestingly, HPV infection was significantly increased from adjacent normal breast (9.5%, 2/21), fibro adenomas (30%, 3/10) to tumors (64.8%, 203/313) samples. In both PT and NACT cases, HPV16 was the most prevalent subtype (69.0%) followed by HPV18 and HPV33. Survival analysis illustrated hrHPV infected PT patients had worst prognosis. So, detailed analysis of HPV16 profile was done which showed Europian-G350 as the most frequent HPV16 variant along with high rate of integration. Moreover, low copy number and hyper-methylation of P97 early promoter were concordant with low HPV16 E6 and E7 mRNA and protein expression. Notably, four novel variations (KT020838, KT020840, KT020841 and KT020839) in the LCR region and two (KT020836 and KT020837) in the E6 region were identified for the first time along with two novel E6^E7*I (KU199314) and E6^E7*II (KU199315) fusion transcript variants. Conclusion Thus, significant association of hrHPV with prognosis of Indian BC patients led to additional investigation of HPV16 profile. Outcomes indicated a plausible role of HPV in Indian BC patients.

The stem cell renewal and DNA damage response pathways are frequently altered in fibroepithelial tumors of breast in Indian patients

Genetic and epigenetic alterations in genes associated with distinct cellular pathways were checked in fibroepithelial tumors, including fibroadenomas, benign and malignant phyllode and atypical ductal hyperplasia. A panel of 22 genes associated with different cellular pathways such as stem cell renewal (Wnt and Hedgehog), DNA damage response [homologous recombination (HR), mismatch repair (MMR) and nucleotide excision repair (NER)] and cell proliferation signaling pathway were tested. Alterations (genetic/epigenetic) of the genes associated with Wnt signaling pathway were detected in 100% (20/20) of the breast tumors for at least one out of the six Wnt antagonists tested. Frequent molecular alterations (57-64%) were detected in HR and MMR pathway and low frequency of alterations (8-25%) were seen in cell-proliferation and cell signaling pathways showing a differential pattern of alterations in different tumor types. The patterns of alterations, in particular the epigenetic alterations, differed little from that seen previously in breast carcinoma cells, suggesting epigenetic alterations to be an early event in the development of the tumors. In gene ontology analysis, it was evident that Wnt signaling pathway [GO: 0030111, Kegg: 04310], cell proliferation pathway [GO: 0008285] and pathways in cancer [Kegg: 05200] were significantly enriched by differentially altered genes in fibroadenoma and phyllode tumor types. All these results may provide a new breakthrough in early diagnosis, prognosis and treatment of these tumors.

Potential contribution of SIM2 and ETS2 functional polymorphisms in Down syndrome associated malignancies

BackgroundProper expression and functioning of transcription factors (TFs) are essential for regulation of different traits and thus could be crucial for the development of complex diseases. Subjects with Down syndrome (DS) have a higher incidence of acute lymphoblastic leukemia (ALL) while solid tumors, like breast cancer (BC) and oral cancer (OC), show rare incidences. Triplication of the human chromosome 21 in DS is associated with altered genetic dosage of different TFs. V-ets erythroblastosis virus E26 oncogene homolog 2 (ETS2) and Single Minded 2 (SIM2) are two such TFs that regulate several downstream genes involved in developmental and neurological pathways. Here we studied functional genetic polymorphisms (fSNP) in ETS2 and SIM2 encoding genes in a group of patients and control subjects to better understand association of these variants with DS phenotypes.MethodsWe employed an in silico approach to identify potential target pathways of ETS2 and SIM2. fSNPs in genes encoding for these two TFs were identified using available databases. Selected sites were genotyped in individuals with DS, their parents, ALL, BC, OC as well as ethnically matched control individuals. We further analyzed these data by population-based statistical methods.ResultsAllelic/genotypic association analysis showed significant (P < 0.03) differences of rs2070530, rs1051476, rs11254, rs711 for DS subjects compared to control. rs711 also exhibited significantly different genotypic distribution pattern in parents of DS probands (P < 0.02) and BC patients (P < 0.02). Interaction analysis revealed independent main effect of rs711 in all the groups, while rs11254 exhibited independent main effect in DS subjects only. High entropy values were noticed for rs461155 in the solid tumor groups. Significant interactive effects of rs2070531 with rs1051475, rs1051476, rs11254 were observed in all the groups except DS.ConclusionsWe infer from the present investigation that the difference in frequencies of fSNPs and their independent as well as interactive effects may be the cause for altered expression of SIM2 and ETS2 in DS and malignant groups, which affects different downstream biological pathways. Thus, altered expression of SIM2 and ETS2 could be one of the reasons for variable occurrence of different malignant conditions in DS.

From molecular insight to therapeutic strategy: The holistic approach for treating triple negative breast cancer

Aim of the present study was to analyze the molecular pathogenesis of TNBC, therapeutic practice, challenges, and future goals in treatment strategies. Based on the alterations of distinct pathways, Lehmanns subgroups of TNBCs were further categorized. Those with defective DNA damage repair and replication pathways, viz. Basal Like 1 & 2 (BL1, BL2) were found susceptible to DNA intercalating drugs while those with upregulated cell signalling & motility (mesenchymal (M), mesemchymal stem like (MSL)), cell survival (BL2, M, MSL), angiogenesis (BL2, MSL), T cell signalling (Immunomodulatory/IM) pathways required targeted therapies. Our Meta-analysis categorized 12 randomized previous trial cases, solely under the following drug regimens: [1] DNA destabilizers, [2] PARP inhibitors, [3] Microtubule stabilizers, [4] Angiogenesis inhibitors, [5] Antimetabolite, [6] T cell targeted therapy; as single or combinational therapy. Best therapeutic efficacies of DNA destabilizers with angiogenesis inhibitors in combination than monotherapy with either (OR: 5.011-7.286; p value<0.001) indicated a significant prevalence of BL1 type TNBCs in populations. Statistical significance with antimetabolites as combination therapy (OR: 2.343; p value: 0.018) and not with microtubule stabilizer (OR: 0.377) were observed. Thus, for best ORR in TNBC, personalized medicine should be the therapeutic choice for the clinicians.

Frequent alterations of SLIT2–ROBO1–CDC42 signalling pathway in breast cancer: clinicopathological correlation

The aim of the study was to understand the role of SLIT2–ROBO1/2–CDC42 signalling pathways in development of breast cancer (BC). Primary BC samples (n=150), comprising of almost equal proportion of four subtypes were tested for molecular alterations of SLIT2, ROBO1, ROBO2 and CDC42, the key regulator genes of this pathway. Deletion and methylation frequencies of the candidate genes were seen in the following order: deletion, SLIT2 (38.6%) >ROBO1 (30%) >ROBO2 (7.3%); methylation, SLIT2 (63.3%) >ROBO1 (26.6%) >ROBO2 (9.3%). Majority (80%, 120/150) of the tumours showed alterations (deletion/methylation) in at least one of the candidate genes. Overall, alterations of the candidate genes were as follows: SLIT2, 75.3% (101/150); ROBO1, 45.3% (68/150); ROBO2, 15.3% (23/150). Significantly, higher alteration of SLIT2 locus was observed in triple negative breast cancer (TNBC) over HER2 subtype (P=0.0014). Similar trend is also seen in overall alterations of SLIT2 and/or ROBO1, in TNBC than HER2 subtype (P=0.0012); of SLIT2 and/or ROBO2 in TNBC than luminal A (P=0.014) and HER2 subtype (P=0.048). Immunohistochemical analysis of SLIT2, ROBO1/2 showed reduced expression, concordant with their molecular alterations. Also, high expression of total CDC42 (49/52; 94.2%) and reduced expression of phospho Serine-71 CDC42 (41/52; 78.8%) was observed. Coalterations of SLIT2 and/or ROBO1, SLIT2 and/or ROBO2 had significant association with reduced expression of phospho Serine-71 CDC42 (P=0.0012–0.0038). Alterations of SLIT2 and/or ROBO1, reduced expression of phospho Serine-71 CDC42 predicted poor survival of BC patients. Results indicate the importance of SLIT2–ROBO1–CDC42 signalling pathway in predicting tumour progression.