To identify a cisplatin resistance predictor to reduce or prevent unnecessary side effects, we firstly established four cisplatin-resistant sub-lines and compared their protein profiles with cisplatin-sensitive parent lung cancer cell lines using two-dimensional gel electrophoresis. Between the cisplatin-resistant and -sensitive cells, a total of 359 protein spots were differently expressed (>1.5 fold), and 217 proteins (83.0%) were identified. We focused on a mitochondrial protein, hydroxyl-coenzyme A dehydrogenase/3-ketoacyl-coenzyme A thiolase/enoyl-coenzyme A hydratase alpha subunit (HADHA), which was increased in all cisplatin-resistant cells. Furthermore, pre-treated biopsy specimens taken from patients who showed resistance to platinum-based treatment showed a significantly higher positive rate for HADHA in all cases (p=0.00367), including non-small cell lung carcinomas (p=0.002), small-cell lung carcinomas (p=0.038), and adenocarcinomas (p=0.008). These results suggest that the expression of HADHA may be a useful marker to predict resistance to platinum-based chemotherapy in patients with lung cancer.
(2011). HADHA is a Potential Predictor of Response to Platinum-based Chemotherapy for Lung Cancer. Asian Pacific Journal of Cancer Prevention, 12(12), 3457-3463.
MLA
. "HADHA is a Potential Predictor of Response to Platinum-based Chemotherapy for Lung Cancer". Asian Pacific Journal of Cancer Prevention, 12, 12, 2011, 3457-3463.
HARVARD
(2011). 'HADHA is a Potential Predictor of Response to Platinum-based Chemotherapy for Lung Cancer', Asian Pacific Journal of Cancer Prevention, 12(12), pp. 3457-3463.
VANCOUVER
HADHA is a Potential Predictor of Response to Platinum-based Chemotherapy for Lung Cancer. Asian Pacific Journal of Cancer Prevention, 2011; 12(12): 3457-3463.