BACKGROUND: We developed and validated a real-time reverse transcription (RT)-PCR for the quantification of 4 individual human telomerase reverse transcriptase (TERT) splice variants (alpha+beta+, alpha-beta+, alpha+beta-, alpha-beta-) in tumor cell lines and non-small cell lung cancer (NSCLC). METHODS: We used in silico designed primers and a common TaqMan probe for highly specific amplification of each TERT splice variant, PCR transcript-specific DNA external standards as calibrators, and the MCF-7 cell line for the development and validation of the method. We then quantified TERT splice variants in 6 tumor cell lines and telomerase activity and TERT splice variant expression in cancerous and paired noncancerous tissue samples from 28 NSCLC patients. RESULTS: In most tumor cell lines, we observed little variation in the proportion of TERT splice variants. The alpha+beta- splice variant showed the highest expression and alpha-beta+ and alpha-beta- the lowest. Quantification of the 4 TERT splice variants in NSCLC and surrounding nonneoplastic tissues showed the highest expression percentage for the alpha+beta- variant in both NSCLC and adjacent nonneoplastic tissue samples, followed by alpha+beta+, with the alpha-beta+ and alpha-beta- splice variants having the lowest expression. In the NSCLC tumors, the alpha+beta+ variant had higher expression than other splice variants, and its expression correlated with telomerase activity, overall survival, and disease-free survival. CONCLUSIONS: Real-time RT-PCR quantification is a specific, sensitive, and rapid method that can elucidate the biological role of TERT splice variants in tumor development and progression. Our results suggest that the expression of the TERT alpha+beta+ splice variant may be an independent negative prognostic factor for NSCLC patients.
BACKGROUND: We developed and validated a real-time reverse transcription (RT)-PCR for the quantification of 4 individual humantelomerase reverse transcriptase (TERT) splice variants (alpha+beta+, alpha-beta+, alpha+beta-, alpha-beta-) in tumor cell lines and non-small cell lung cancer (NSCLC). METHODS: We used in silico designed primers and a common TaqMan probe for highly specific amplification of each TERT splice variant, PCR transcript-specific DNA external standards as calibrators, and the MCF-7 cell line for the development and validation of the method. We then quantified TERT splice variants in 6 tumor cell lines and telomerase activity and TERT splice variant expression in cancerous and paired noncancerous tissue samples from 28 NSCLCpatients. RESULTS: In most tumor cell lines, we observed little variation in the proportion of TERT splice variants. The alpha+beta- splice variant showed the highest expression and alpha-beta+ and alpha-beta- the lowest. Quantification of the 4 TERT splice variants in NSCLC and surrounding nonneoplastic tissues showed the highest expression percentage for the alpha+beta- variant in both NSCLC and adjacent nonneoplastic tissue samples, followed by alpha+beta+, with the alpha-beta+ and alpha-beta- splice variants having the lowest expression. In the NSCLC tumors, the alpha+beta+ variant had higher expression than other splice variants, and its expression correlated with telomerase activity, overall survival, and disease-free survival. CONCLUSIONS: Real-time RT-PCR quantification is a specific, sensitive, and rapid method that can elucidate the biological role of TERT splice variants in tumor development and progression. Our results suggest that the expression of the TERT alpha+beta+ splice variant may be an independent negative prognostic factor for NSCLCpatients.
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