PD-L1 gene expression in Japanese lung cancer patients.

An imbalance in immune regulation affects tumor-specific T-cell immunity in the cancer microenvironment and reshapes tumor progression and metastasis. Blockade of interactions of immune function mediates anti-tumor activity in preclinical models. In the present study, we investigated programmed cell death 1 ligand 1 (PD-L1) mRNA expression by real-time polymerase chain reaction (RT-PCR) using a LightCycler in surgically treated non-small cell lung cancer (NSCLC) cases. This study included 123 surgically removed NSCLC cases for mRNA level analyses. The PD-L1/β-actin mRNA levels showed no marked difference in lung cancer (131.398±421.596) and adjacent normal lung tissues (78.182±254092, P=0.1482). The tumor/normal (T/N) ratio of PD-L1/β-actin mRNA levels was more than 2 in 49 cases and more than 1 in 63 cases. No difference was found in the T/N ratio of PD-L1/β actin mRNA levels among factors inlcuding gender, age, smoking status and pathological subtypes. The T/N ratio of PD-L1/β actin mRNA levels was markedly higher in pathological T4 cases (15.811±36.883) compared to T1 cases (3.492±8.494, P=0.0235). However, the PD-L1 mRNA status did not correlate with lymph node metastasis status. Thus, PD-L1 may drive tumor invasion, while providing a candidate for blockade of its function as a strategy to antagonize the progression process in NSCLC.