Raman Spectroscopy Revealed Cell Passage-Dependent Distinct Biochemical Alterations in Radiation-Resistant Breast Cancer Cells.

Recapitulating radioresistant cell features in pertinent cell line models is essential for deciphering fundamental cellular mechanisms. The limited understanding of passage and cell cycle phases on radioresistant cells revived post-cryopreservation led us to investigate the effect of sub-culturing in parental and radioresistant MCF-7 cells. In this study, the radioresistant cells showed high-intensity nucleic acid and cytochrome bands, which are potentially a radiation-induced spectral marker.

Elevated HDAC activity and altered histone phospho-acetylation confer acquired radio-resistant phenotype to breast cancer cells.

Background: Poor-responsiveness of tumors to radiotherapy is a major clinical problem. Owing to the dynamic nature of the epigenome, the identification and targeting of potential epigenetic modifiers may be helpful to curb radio-resistance. This requires a detailed exploration of the epigenetic changes that occur during the acquirement of radio-resistance.

Quality assessment of cryopreserved biospecimens reveals presence of intact biomolecules.

Recapitulation of tumor features in isolated biomolecules is preeminently dependent on obtaining reliable quality biospecimen. Moreover, quality assessment of biobanked specimens at regular intervals is an essential intervention for carrying out effective translational and clinical research. In the current study, genomic DNA was extracted from 140 fresh frozen tissues of oral, breast and colorectal specimens cryopreserved over a period of 3 to 8 months (short term) and 3 to 4 years (long term).