Litcius/Paper detail

Lamin A and Prelamin A Counteract Migration of Osteosarcoma Cells

Camilla Evangelisti, Francesca Paganelli, Gaia Giuntini, Elisabetta Mattioli, Alessandra Cappellini, Giulia Ramazzotti, Irene Faenza, Maria Cristina Maltarello, Alberto M. Martelli, Katia Scotlandi, Francesca Chiarini, Giovanna Lattanzi

2020Cells26 citationsDOIOpen Access PDF

Abstract

A type lamins are fundamental components of the nuclear lamina. Changes in lamin A expression correlate with malignant transformation in several cancers. However, the role of lamin A has not been explored in osteosarcoma (OS). Here, we wanted to investigate the role of lamin A in normal osteoblasts (OBs) and OS cells. Thus, we studied the expression of lamin A/C in OS cells compared to OBs and evaluated the effects of lamin A overexpression in OS cell lines. We show that, while lamin A expression increases during osteoblast differentiation, all examined OS cell lines express lower lamin A levels relative to differentiated OBs. The condition of low LMNA expression confers to OS cells a significant increase in migration potential, while overexpression of lamin A reduces migration ability of OS cells. Moreover, overexpression of unprocessable prelamin A also reduces cell migration. In agreement with the latter finding, OS cells which accumulate the highest prelamin A levels upon inhibition of lamin A maturation by statins, had significantly reduced migration ability. Importantly, OS cells subjected to statin treatment underwent apoptotic cell death in a RAS-independent, lamin A-dependent manner. Our results show that pro-apoptotic effects of statins and statin inhibitory effect on OS cell migration are comparable to those obtained by prelamin A accumulation and further suggest that modulation of lamin A expression and post-translational processing can be a tool to decrease migration potential in OS cells.

Topics & Concepts

LaminNuclear laminaLMNACell biologyCancer researchApoptosisCellCell migrationChemistryOsteosarcomaCell cultureBiologyNuclear proteinNucleusGeneticsTranscription factorGeneNuclear Structure and FunctionCellular Mechanics and InteractionsGenomics and Chromatin Dynamics