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Differential expression of Mad2 gene in human oesophageal cancer

13 Feb 2024
Differential expression of Mad2 gene in human oesophageal cancer

A new research paper was published in Oncotarget's Volume 15 on February 5, 2024, entitled, “Differential expression of Mad2 gene is consequential to the patterns of histone H3 post-translational modifications in its promoter region in human oesophagal cancer samples.”

Raw areca nut (AN) consumption increases oesophagal squamous cell carcinoma (ESCC) due to overexpression of securin (pituitary tumour transforming gene1), causing chromosomal instability. Mitotic arrest deficient protein 2 (Mad2), a crucial spindle assembly checkpoint protein, is at risk of aneuploidy and tumour development when overexpressed or underexpressed.

In this new study, researchers Chongtham Sovachandra Singh, Nabamita Boruah, Atanu Banerjee, Sillarine Kurkalang, Pooja Swargiary, Hughbert Dakhar, and Anupam Chatterjee from The Assam Royal Global University, University of Pennsylvania, LN Mithila University, University of Chicago Medicine, Nazareth Hospital, Laitumkhrah, and North-Eastern Hill University evaluated Mad2 status in human ESCC with AN consumption habits, revealing unclear molecular mechanisms. 

Human ESCC samples (n = 99) were used for loss of heterozygosity analysis at 4q25-28, while 32 samples were used for expression analysis of Mad2, E2F1 genes, and Rb-phosphorylation.

Blood samples were used for metaphase preparation. The Mad2 deregulation was assessed using chromatin immunoprecipitation-qPCR assay in the core promoter region, establishing its association with the pRb-E2F1 circuit for the first time. 

“The study revealed overexpression and underexpression of Mad2, premature anaphase, and chromosome missegregation in all the samples.” 

LOH pattern identified a deletion in D4S2975 in 40% of ESCC samples. The study reveals the deregulation of pRb-E2F1 circuit in all samples. 4q27 disruption could be a factor for Mad2 underexpression in AN-induced oesophagal carcinogenesis, while overexpression may be due to the deregulation of the Rb-E2F1 circuit and consequently elevation of H3K4me3 and H3K9ac. 

“Mad2 expression levels with chromosomal abnormalities can be a clinical biomarker, but further research is needed to understand pRb’s role in Mad2 down-regulation.”

Source: Impact Journals LLC