Your search keyword '"William Kothalawala"' showing total 3 results

1. Folic Acid Treatment Directly Influences the Genetic and Epigenetic Regulation along with the Associated Cellular Maintenance Processes of HT-29 and SW480 Colorectal Cancer Cell Lines

Author

Sára Zsigrai, Alexandra Kalmár, Barbara K. Barták, Zsófia B. Nagy, Krisztina A. Szigeti, Gábor Valcz, William Kothalawala, Titanilla Dankó, Anna Sebestyén, Gábor Barna, Orsolya Pipek, István Csabai, Zsolt Tulassay, Péter Igaz, István Takács, and Béla Molnár

Subjects

Cancer Research, Oncology, colorectal cancer, folic acid, genomic stability, DNA methylation, gene expression

Abstract

Folic acid (FA) is a synthetic form of vitamin B9, generally used as a nutritional supplement and an adjunctive medication in cancer therapy. FA is involved in genetic and epigenetic regulation; therefore, it has a dual modulatory role in established neoplasms. We aimed to investigate the effect of short-term (72 h) FA supplementation on colorectal cancer; hence, HT-29 and SW480 cells were exposed to different FA concentrations (0, 100, 10,000 ng/mL). HT-29 cell proliferation and viability levels elevated after 100 ng/mL but decreased for 10,000 ng/mL FA. Additionally, a significant (p ≤ 0.05) improvement of genomic stability was detected in HT-29 cells with micronucleus scoring and comet assay. Conversely, the FA treatment did not alter these parameters in SW480 samples. RRBS results highlighted that DNA methylation changes were bidirectional in both cells, mainly affecting carcinogenesis-related pathways. Based on the microarray analysis, promoter methylation status was in accordance with FA-induced expression alterations of 27 genes. Our study demonstrates that the FA effect was highly dependent on the cell type, which can be attributed to the distinct molecular background and the different expression of proliferation- and DNA-repair-associated genes (YWHAZ, HES1, STAT3, CCL2). Moreover, new aspects of FA-regulated DNA methylation and consecutive gene expression were revealed.

Published

2022

2. Abstract 2945: Comprehensive analysis of tissue and plasma-related genetic alterations in Hungarian colorectal cancer patients

Author

Alexandra Kalmar, Gitta Szabo, Orsolya Galamb, Barbara Kinga Bartak, Zsofia Brigitta Nagy, Sara Zsigrai, Krisztina Andrea Szigeti, William Kothalawala, Peter Igaz, Istvan Takacs, and Bela Molnar

Subjects

Cancer Research, Oncology

Abstract

Background: Analysis of circulating cell-free DNA (cfDNA) of colorectal cancer (CRC) patients provides an ideal approach to explore genetic alterations in a minimally invasive way. Aims: We aimed to perform a comprehensive analysis of tissue-originated genomic DNA and plasma-derived cfDNA from CRC patients by whole-exome and targeted panel sequencing. Materials & methods: DNA was isolated from tissue and plasma samples of 55 [7 healthy (N), 16 adenomas (AD), and 32 CRC] patients using the High Pure PCR Template Kit (Roche) and the Quick cfDNA Serum & Plasma Kit (Zymo). cfDNA quality was assessed with the High Sensitivity DNA kit on BioAnalyzer 2100 and quantified by the Qubit dsDNA HS assay. Exome libraries from tissue samples were constructed by the Nextera DNA Exome Kit (Illumina). For the cfDNA samples, we used the QIAseq cfDNA All-in-One kit combined with the QIASeq Human Exome Kit, and in the case of 12 patients, CRC-specific oncogenes were further analyzed with a solution developed by QIAGEN for reliable calling of low frequency variants in cfDNA samples. Exome libraries were quantified with the KAPA Library Quantification Kit and the QIAseq™ Library Quant Assay Kit (Qiagen) and were sequenced using the NextSeq 500/550 High Output v2 kit on a NextSeq 500 Instrument (Illumina). Raw data analysis and demultiplexing were completed on the BaseSpace Sequence Hub. Variants of the tissue and cfDNA samples were determined by the Mutect2 and Haplotype caller algorithms of GATK 4.1.4.1, respectively. Clinical significance was evaluated according to the OncoKB database. Results: The most frequently mutated genes were APC, KRAS, DYNC1H1, KCNO5, and MARCH6 in the colorectal adenoma tissue samples, while those in CRC samples were APC, TP53, TTN, KRAS, and DYNCC2H1. CfDNA quantity was significantly higher in the CRC group compared to the AD (p Conclusion: We have performed a comprehensive genetic analysis on CRC tissue and cfDNA samples in the Hungarian population. Exome sequencing offers a broad overview of the coding regions, however, targeted panel sequencing with a higher coverage depth can detect tumor somatic variants more reliably in cfDNA, therefore, it can hold a relevant clinical potential. Citation Format: Alexandra Kalmar, Gitta Szabo, Orsolya Galamb, Barbara Kinga Bartak, Zsofia Brigitta Nagy, Sara Zsigrai, Krisztina Andrea Szigeti, William Kothalawala, Peter Igaz, Istvan Takacs, Bela Molnar. Comprehensive analysis of tissue and plasma-related genetic alterations in Hungarian colorectal cancer patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2945.

Published

2022

3. Abstract 3738: Monitoring chemotherapy response status of colorectal cancer patients using liquid biopsy samples

Author

Barbara Kinga Bartak, Tamás Fodor, Alexandra Kalmár, Zsófia Brigitta Nagy, Sára Zsigrai, Krisztina Andrea Szigeti, William Kothalawala, Gábor Valcz, Péter Igaz, István Takács, Magdolna Dank, and Béla Molnár

Subjects

Cancer Research, Oncology

Abstract

Background and aims: The early detection of colorectal cancer (CRC) recurrence and the monitoring of therapeutic response are crucial steps in the determination and modification of treatment strategies. The currently used gold standard tumor markers such as CEA and CA 19-9 and the different imaging techniques have several limitations in many cases. Therefore, we aimed to establish a liquid biopsy-based approach for tracking tumor dynamics in post-operative non-metastatic (n=32) and metastatic (n=23) CRC patients. Methods: Blood samples were collected from each patient before and during chemotherapy, and finally, patients were classified according to disease outcome. Longitudinal investigations of the total amount, global and local (SFRP2 and SDC2 genes) DNA methylation pattern of cell-free DNA (cfDNA) fraction were performed. The plasma concentration of homocysteine was also determined, as it is one of the main components of the DNA methylation process, and its level defines the methylation potential. We examined how the parameters mentioned above were affected depending on the different therapy responses. Results: The average cfDNA amount was significantly higher (p Conclusion: Our study offers the possibility to monitor the therapeutic response during chemotherapy with a minimally-invasive blood-based method that combines the analysis of cfDNA, its global and local DNA methylation pattern, and homocysteine level. Citation Format: Barbara Kinga Bartak, Tamás Fodor, Alexandra Kalmár, Zsófia Brigitta Nagy, Sára Zsigrai, Krisztina Andrea Szigeti, William Kothalawala, Gábor Valcz, Péter Igaz, István Takács, Magdolna Dank, Béla Molnár. Monitoring chemotherapy response status of colorectal cancer patients using liquid biopsy samples [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3738.

Published

2022