KEAP1 promotes anti-tumor immunity by inhibiting PD-L1 expression in NSCLC.

Immunotherapy has become a prominent first-line cancer treatment strategy. In non-small cell lung cancer (NSCLC), the expression of PD-L1 induces an immuno-suppressive effect to protect cancer cells from immune elimination, which designates PD-L1 as an important target for immunotherapy. However, little is known about the regulation mechanism and the function of PD-L1 in lung cancer. In this study, we have discovered that KEAP1 serves as an E3 ligase to promote PD-L1 ubiquitination and degradation. We found that overexpression of KEAP1 suppressed tumor growth and promoted cytotoxic T-cell activation in vivo. These results indicate the important role of KEAP1 in anti-cancer immunity. Moreover, the combination of elevated KEAP1 expression with anti-PD-L1 immunotherapy resulted in a synergistic effect on both tumor growth and cytotoxic T-cell activation. Additionally, we found that the expressions of KEAP1 and PD-L1 were associated with NSCLC prognosis. In summary, our findings shed light on the mechanism of PD-L1 degradation and how NSCLC immune escape through KEAP1-PD-L1 signaling. Our results also suggest that KEAP1 agonist might be a potential clinical drug to boost anti-tumor immunity and improve immunotherapies in NSCLC.

Multidirectional characterization of cellular composition and spatial architecture in human multiple primary lung cancers.

Multiple primary lung cancers (MPLCs) pose diagnostic and therapeutic challenges in clinic. Here, we orchestrated the cellular and spatial architecture of MPLCs by combining single-cell RNA-sequencing and spatial transcriptomics. Notably, we identified a previously undescribed sub-population of epithelial cells termed as CLDN2+ alveolar type II (AT2) which was specifically enriched in MPLCs. This subtype was observed to possess a relatively stationary state, play a critical role in cellular communication, aggregate spatially in tumor tissues, and dominate the malignant histopathological patterns. The CLDN2 protein expression can help distinguish MPLCs from intrapulmonary metastasis and solitary lung cancer. Moreover, a cell surface receptor-TNFRSF18/GITR was highly expressed in T cells of MPLCs, suggesting TNFRSF18 as one potential immunotherapeutic target in MPLCs. Meanwhile, high inter-lesion heterogeneity was observed in MPLCs. These findings will provide insights into diagnostic biomarkers and therapeutic targets and advance our understanding of the cellular and spatial architecture of MPLCs.

Lentivirus-mediated silencing of SCIN inhibits proliferation of human lung carcinoma cells.

SCIN (scinderin) is a calcium-dependent actin severing and capping protein. Homologue in zebrafish has been found to be related with cell death. In the present study, we found that SCIN is highly expressed in human lung cancer specimens. However, the role of SCIN in lung cancer has not yet been determined. To investigate the function of SCIN in lung carcinoma cells, we took advantage of lentivirus-mediated RNA interference (RNAi) to knockdown SCIN expression in two lung carcinoma cell lines A549 and H1299. Silencing of SCIN significantly inhibited the proliferation and colony formation ability of both cell lines in vitro. Moreover, flow cytometry analysis showed that knockdown of SCIN led to G0/G1 phase cell cycle arrest as well as an excess accumulation of cells in the sub-G1 phase. Furthermore, depletion of SCIN resulted in a significant increase in Cyclin B1, p21 and PARP expression, and a little decrease in Cyclin D1 expression. These results suggest that SCIN plays an important role in lung carcinoma cell proliferation, and lentivirus-mediated silencing of SCIN might be a potential therapeutic approach for the treatment of lung cancer.