Guru Prasad Maiti

Frequent alterations of the candidate genes hMLH1, ITGA9 and RBSP3 in early dysplastic lesions of head and neck: Clinical and prognostic significance

To understand the association between candidate tumor suppressor genes (TSGs) human mismatch repair protein homologue 1 (hMLH1), AP20 region gene 1 (APRG1), integrin α RLC (ITGA9), RB1 serine phosphates from human chromosome 3 (RBSP3) at chromosomal 3p22.3 region and development of head and neck squamous cell carcinoma (HNSCC), alterations (deletion/promoter methylation/expression) of these genes were analyzed in 65 dysplastic lesions and 84 HNSCC samples. Clinicopathological correlations were made with alterations of the genes. In HNSCC, deletion frequencies of hMLH1, ITGA9, and RBSP3 were comparatively higher than APRG1. Overall alterations (deletion/methylation) of hMLH1, ITGA9, and RBSP3 were high (45–55%) in mild dysplasia and comparable in subsequent stages of tumor progression. Quantitative RT‐PCR analysis showed reduced expression of these genes in tumors concordant to their molecular alterations. An in vitro demethylation experiment by 5‐aza‐2′‐deoxycytidine confirmed the promoter hypermethylation of RBSP3 in Hep2 and UPCI:SCC084 cell lines. Functionally less‐active RBSP3A isoform was predominant in tumor tissues contrary to the adjacent normal tissue of tumors where more active RBSP3B isoform was prevalent. In immunohistochemical analysis, intense nuclear staining of hMLH1 and pRB (phosphorylated RB, the substrate of RBSP3) proteins were seen in the basal layer of normal epithelium. In tumors, concordance was seen between (i) low/intermediate level of hMLH1 expression and its molecular alterations; and (ii) intense nuclear staining of pRB and RBSP3 alterations. Poor patient outcome was seen with hMLH1 and RBSP3 alterations. Moreover, in absence of human papilloma virus (HPV) infection, tobacco‐addicted patients with hMLH1, RBSP3 alterations, and nodal invasions showed poor prognosis. Thus our data suggests that dysregulation of hMLH1, ITGA9, and RBSP3 associated multiple cellular pathways are needed for the development of early dysplastic lesions of the head and neck. (Cancer Sci 2010)

Alterations of 3p21.31 Tumor Suppressor Genes in Head and Neck Squamous Cell Carcinoma: Correlation With Progression and Prognosis

The aim of our study was to analyze the alterations of some candidate tumor suppressor genes (TSGs) viz. LIMD1, LTF, CDC25A, SCOTIN, RASSF1A and CACNA2D2 located in the chromosomal region 3p21.31 associated with the development of early dysplastic lesions of head and neck. In analysis of 72 dysplastic lesions and 116 squamous cell carcinoma of head and neck, both deletion and promoter methylation have been seen in these genes except for CDC25A and SCOTIN where no methylation has been detected. The alteration of LIMD1 was highest (50%) in the mild dysplastic lesions and did not change significantly during progression of tumor indicating its association with this stage of the disease. It was evident that alterations of LTF, CDC25A and CACNA2D2 were associated with development of moderate dysplastic lesions, while alterations in RASSF1A and CACNA2D2 were needed for progression. Novel somatic mutations were seen in exon 1 of LIMD1 (7%), intron 3/exon4 splice junction of LTF (2%) and exon 7 of cdc25A (10%). Quantitative RT‐PCR analysis revealed mean reduced expression of the genes in the following order: LTF (67.6 ± 16.8) > LIMD1 (53.2 ± 20.1) > CACNA2D2 (23.7 ± 7.1) > RASSF1A (15.1 ± 5.6) > CDC25A (5.3 ± 2.3) > SCOTIN (0.58 ± 0.54). Immunohistochemical analysis of CDC25A showed its localization both in cytoplasm and nucleus in primary lesions and oral cancer cell lines. In absence of HPV infection, LTF and RASSF1A alterations jointly have adverse impact on survival of tobacco addicted patients. Thus, our data suggested that multiple candidate TSGs in the chromosomal 3p21.31 region were differentially associated with the early dysplastic lesions of head and neck.

SH3GL2 and CDKN2A/2B loci are independently altered in early dysplastic lesions of head and neck: correlation with HPV infection and tobacco habit

To understand the association of candidate tumour suppressor genes SH3GL2, p16INK4a, p14ARF, and p15INK4b in the pathogenesis of head and neck squamous cell carcinoma (HNSCC), we studied the deletion, mutation, and methylation of these genes in 61 dysplastic lesions and 94 HNSCC samples. In mild dysplasia, SH3GL2, p16INK4a, and p14ARF showed a higher frequency of overall alterations (60–70%) than in p15INK4b (40%). However, in subsequent stages of tumour progression, the alteration frequency of these genes did not change significantly. One novel mutation in common exon 2 of p16INK4a/p14ARF and three in exon 9 of SH3GL2 were seen. Concordance was seen in the expression of these genes with their molecular alterations. Deletions of INK4A‐ARF and p15INK4b have a significant poor patient outcome. The alterations of p16INK4a, p14ARF, and p15INK4b were positively correlated with tobacco and inversely with HPV, while SH3GL2 alterations were independent of these factors. Based on aetiological factors, four tumour subtypes were recognized: HPV−tobacco− (I), HPV+tobacco− (II), HPV−tobacco+ (III), and HPV+tobacco+ (IV). Groups III and IV showed a high frequency of p16INK4a/p14ARF/p15INK4b alterations with significant poor patient outcome in comparison to group II. Our findings suggest that deregulation of SH3GL2‐associated signalling and p16INK4a/p14ARF/p15INK4b‐mediated G1–S/G2–M checkpoints of cell cycle are independent pathways for the development of early dysplastic lesions of the head and neck. Copyright

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.

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.

Alterations of ROBO1/DUTT1 and ROBO2 loci in early dysplastic lesions of head and neck: clinical and prognostic implications

Deletion of chromosomal 3p12.3 was suggested to be associated with dysplastic lesions of head and neck. This region harbors two candidate tumor suppressors ROBO1/DUTT1,ROBO2 and two non-coding RNAs (ncRNAs) located at intron 2 of ROBO1/DUTT1. Aim of this study is to understand the role of these genes in development of head and neck squamous cell carcinoma. A collection of 72 dysplastic lesions and 116 HNSCC samples and two oral cancer cell lines were analyzed for ROBO1/DUTT1 and ROBO2 deletion and promoter methylation. ROBO1/DUTT1, ROBO2 and two ncRNAs mRNA expression were analyzed by Q-PCR. Immunohistochemical analysis of ROBO1/DUTT1 and ROBO2 was performed. Alterations of these genes were correlated with different clinicopathological parameters. High frequency of molecular alterations (deletion/methylation) was seen in ROBO1/DUTT1 than ROBO2. In mild dysplastic lesions both of these genes showed high molecular alterations and remained more or less constant in subsequent stages. Q-PCR analysis showed reduced expression of these genes and the two ncRNAs. In vitro demethylation experiment by 5-aza-dC showed upregulation of ROBO1/DUTT1 and ROBO2 while the expression of the ncRNAs remained unchanged. Immunohistochemical analysis of ROBO1/DUTT1 and ROBO2 showed concordance with their mRNA expression and molecular alterations. Poor patients’ outcome was predicted in the cases with alteration of ROBO1/DUTT1 along with tobacco addiction and nodal involvement. Our data suggests (a) ROBO1/DUTT1 and the ncRNAs are transcribed from different promoters, and (b) inactivation of ROBO1/DUTT1 could be used as molecular signature for early detection and prognosis of the head and neck cancer.

A highly selective and biocompatible chemosensor for sensitive detection of zinc(II)

2-Formyl-4-methyl-6-(2-benzoimidazolyliminomethyl)phenol (HL1) has been synthesized via Schiff-base condensation between 4-methyl-2,6-diformylphenol and 2-aminobenzimidazole in a 1:1 ratio in acetonitrile and characterized using elemental analysis and different spectroscopic methods. HL1 has been found to be a selective fluorescence sensor for Zn2+ ions. The emission intensity of HL1 at 528 nm in 10 mM HEPES buffer in water:methanol (1:9, v/v) (pH = 7.2) increases in the presence of Zn2+ when it is excited at 445 nm. Other metal ions can induce a slight increment or lowering of emission intensity. The spectral properties of HL1 and 2-formyl-4-methyl-6-(2-benzoimidazolylmethyliminomethyl)phenol (HL2) have been compared. It has been found that the presence of the methylene group in HL2 can have a significant effect on the absorption and fluorescence peak positions of the Schiff-base molecule and its zinc complex. Some theoretical calculations have been done to get a better view into the different spectral transitions. HL1 and HL2 have been found to be highly sensitive towards the detection of Zn2+ ions with very low LOD values. Excitation in the visible region and the effect of pH on the emission intensity of HL1 encourage us to carry out biological studies. HL1 has been used for human lung cancer cell (A549) imaging without cytotoxicity.

Comprehensive SNP Scan of DNA Repair and DNA Damage Response Genes Reveal Multiple Susceptibility Loci Conferring Risk to Tobacco Associated Leukoplakia and Oral Cancer

Polymorphic variants of DNA repair and damage response genes play major role in carcinogenesis. These variants are suspected as predisposition factors to Oral Squamous Cell Carcinoma (OSCC). For identification of susceptible variants affecting OSCC development in Indian population, the “maximally informative” method of SNP selection from HapMap data to non-HapMap populations was applied. Three hundred twenty-five SNPs from 11 key genes involved in double strand break repair, mismatch repair and DNA damage response pathways were genotyped on a total of 373 OSCC, 253 leukoplakia and 535 unrelated control individuals. The significantly associated SNPs were validated in an additional cohort of 144 OSCC patients and 160 controls. The rs12515548 of MSH3 showed significant association with OSCC both in the discovery and validation phases (discovery P-value: 1.43E-05, replication P-value: 4.84E-03). Two SNPs (rs12360870 of MRE11A, P-value: 2.37E-07 and rs7003908 of PRKDC, P-value: 7.99E-05) were found to be significantly associated only with leukoplakia. Stratification of subjects based on amount of tobacco consumption identified SNPs that were associated with either high or low tobacco exposed group. The study reveals a synergism between associated SNPs and lifestyle factors in predisposition to OSCC and leukoplakia.

A new pyridoxal based fluorescence chemo-sensor for detection of Zn(II) and its application in bio imaging

This paper describes the activity of a Schiff base ligand, derived from pyridoxal, as a promising fluorescence probe for biologically important Zn(II) ion sensing. A physiologically compatible pyridoxal based chemosensor PydDmen was synthesized and evaluated for its fluorescent response towards metal ions. Chemosensor PydDmen exhibits a selective turn-on type response in the presence of Zn2+ in ethanol–water mixture. The addition of EDTA quenches the fluorescence of receptor PydDmen-Zn2+, making the chemosensor PydDmen reversible. The response is specific for Zn(II) ions, and remains almost unaffected by the presence of alkali and alkaline earth metals but is suppressed to varying degrees by transition metal ions. The selectivity mechanism of PydDmen for Zn2+ is the combined effects of proton transfer between the prevailing tautomeric forms, CN isomerization and CHEF. The DFT optimized structure of the complex is compatible with elemental analysis, mass spectrometry, FT-IR, electronic and NMR spectra. The experimental and theoretical support in terms of NMR spectroscopy and DFT are provided to establish the existence of Zn2+ induced transformation of PydDmen to a 3-pyridone tautomeric form.

miR-125b promotes cell death by targeting spindle assembly checkpoint gene MAD1 and modulating mitotic progression

The spindle assembly checkpoint (SAC) is a ‘wait-anaphase’ mechanism that has evolved in eukaryotic cells in response to the stochastic nature of chromosome–spindle attachments. In the recent past, different aspects of the SAC regulation have been described. However, the role of microRNAs in the SAC is vaguely understood. We report here that Mad1, a core SAC protein, is repressed by human miR-125b. Mad1 serves as an adaptor protein for Mad2 – which functions to inhibit anaphase entry till the chromosomal defects in metaphase are corrected. We show that exogenous expression of miR-125b, through downregulation of Mad1, delays cells at metaphase. As a result of this delay, cells proceed towards apoptotic death, which follows from elevated chromosomal abnormalities upon ectopic expression of miR-125b. Moreover, expressions of Mad1 and miR-125b are inversely correlated in a variety of cancer cell lines, as well as in primary head and neck tumour tissues. We conclude that increased expression of miR-125b inhibits cell proliferation by suppressing Mad1 and activating the SAC transiently. We hypothesize an optimum Mad1 level and thus, a properly scheduled SAC is maintained partly by miR-125b.