CAMSAP3 depletion induces lung cancer cell senescence-associated phenotypes through extracellular signal-regulated kinase inactivation

Background Cellular senescence is an aging-related process found in cancer cells that contributes to irreversible growth arrest and tumor aggressiveness. Recently, calmodulin-regulated spectrin-associated protein 3 (CAMSAP3), a minus-end microtubule-stabilizing protein, has received increasing attention in cancer cell biology. However, the biological role of CAMSAP3 on senescence in human lung cancer remains incompletely understood. Methods The function of CAMSAP3 on the regulation of cellular senescence-associated phenotypes in human non-small cell lung cancer H460 cells were determined in CAMSAP3 deletion (H460/C3ko) cells. The effects of CAMSAP3 on cell proliferation were investigated using MTT and colony formation assays. The cell cycle activity was evaluated by flow cytometry and the senescence-associated phenotypes were observed by SA-beta-Gal staining. Quantitative RT-PCR and westen blot were used to evaluate the expression of cell cycle and senescence markers. Moreover, the interaction of CAMSAP3-ERK1/2 and possible partner protein was quantified using immunoprecipitation/mass spectrometry and immunofluorescence. Lastly, an xenograft model were performed. Results CAMSAP3 knockout promotes lung cancer cell senescence-associated phenotypes and induces G1 cell cycle arrest. Mechanistic investigation revealed that phosphorylated ERK (p-ERK) was markedly downregulated in CAMSAP3-deleted cells, suppressing cyclin D1 expression levels, and full-length CAMSAP3 abrogated these phenotypes. Proteomic analysis demonstrated that vimentin, an intermediate filament protein, is required as a scaffold for CAMSAP3-modulating ERK signaling. Furthermore, an in vivo tumor xenograft experiment showed that tumor initiation is potentially delayed in CAMSAP3 knockout tumors with the downregulation of p-ERK and cyclin D1, resulting in a senescence-like phenotype. Conclusion This study is the first to report an intriguing role of CAMSAP3 in lung carcinoma cell senescence-associated phenotypes via the modulation of p-ERK/cyclin D1 signaling.

Automated summary

This study demonstrates that CAMSAP3 plays an intriguing role in lung carcinoma cell senescence-associated phenotypes through modulating p-ERK/cyclin D1 signaling pathway. CAMSAP3 knockout promotes senescence and G1 cell cycle arrest in lung cancer cells by downregulating p-ERK and cyclin D1 levels. Vimentin appears to be required as a scaffold for CAMSAP3-modulating ERK signaling in lung cancer cells.