Expression levels and dimer abundance of lamin A/C direct nuclear shape integrity in malignant cancer cells

Abnormalities in nuclear morphology are an important diagnostic tool to determine malignancy in cancer cells and are characterised by nuclear blebbing and deformations. Nuclear shape is mostly maintained by a dense protein meshwork of lamins, consisting of 4 lamin subtypes, of which the individual contribution to nuclear shape maintenance remains elusive. In this study, we decouple the roles of lamin A, C, and B1 across cancer cell lines with varying malignant potential (HeLa, HT1080, and MDA-MB-231). Using single-cell correlation analysis, we directly link reduced lamin A/C, and not lamin B1, expression levels to nuclear deformability. We found that the nuclear shape of the more malignant M