AI Article Synopsis
- Oxidative stress is linked to the development of nasopharyngeal carcinoma (NPC) and can lead to apoptosis, which is associated with chromosome breakages.
- A specific enzyme, caspase-activated DNase (CAD), appears to play a key role in causing these breakages during oxidative stress-induced apoptosis, particularly in regions called MAR/SAR.
- In experiments, hydrogen peroxide increased gene cleavages in the AF9 gene within the SAR region of nasopharyngeal cells, indicating that oxidative stress tends to target specific chromosomal areas associated with deletions found in NPC.
Article Abstract
Background: Oxidative stress is known to be involved in most of the aetiological factors of nasopharyngeal carcinoma (NPC). Cells that are under oxidative stress may undergo apoptosis. We have previously demonstrated that oxidative stress-induced apoptosis could be a potential mechanism mediating chromosome breakages in nasopharyngeal epithelial cells. Additionally, caspase-activated DNase (CAD) may be the vital player in mediating the chromosomal breakages during oxidative stress-induced apoptosis. Chromosomal breakage occurs during apoptosis and chromosome rearrangement. Chromosomal breakages tend to cluster in certain regions, such as matrix association region/scaffold attachment region (MAR/SAR). We hypothesised that oxidative stress-induced apoptosis may result in chromosome breaks preferentially at the MAR/SAR sites. The AF9 gene at 9p22 was targeted in this study because 9p22 is a deletion site commonly found in NPC.
Results: By using MAR/SAR recognition signature (MRS), potential MAR/SAR sites were predicted in the AF9 gene. The predicted MAR/SAR sites precisely match to the experimentally determined MAR/SARs. Hydrogen peroxide (HO) was used to induce apoptosis in normal nasopharyngeal epithelial cells (NP69) and NPC cells (HK1). Nested inverse polymerase chain reaction was employed to identify the AF9 gene cleavages. In the SAR region, the gene cleavage frequency of HO-treated cells was significantly higher than that of the non-treated cells. A few chromosomal breakages were detected within the AF9 region which was previously found to be involved in the mixed lineage leukaemia (MLL)-AF9 translocation in an acute lymphoblastic leukaemia patient. As for the non-SAR region, no significant difference in the gene cleavage frequency was found between the untreated control and HO-treated cells. Furthermore, HO-induced cleavages within the SAR region were reduced by caspase-3 inhibitor, which indirectly inhibits CAD.
Conclusions: These results reaffirm our previous findings that oxidative stress-induced apoptosis could be one of the potential mechanisms underlying chromosome breakages in nasopharyngeal epithelial cells. MAR/SAR may play a vital role in defining the location of chromosomal breakages mediated by oxidative stress-induced apoptosis, where CAD is the major nuclease.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6278157 | PMC |
| http://dx.doi.org/10.1186/s12867-018-0116-5 | DOI Listing |
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