Detection of Nuclear Blebbing and DNA Leakage in Mammalian Cells by Immunofluorescence.

The nuclear lamina is a network of filaments underlying the nuclear membrane, composed of lamins and lamin-associated proteins. It plays critical roles in nuclear architecture, nuclear pore positioning, gene expression regulation, chromatin organization, DNA replication, and DNA repair. Mutations in genes involved in the expression or post-translational processing of lamin proteins result in genetic disorders known as laminopathies. Specifically, mutations in the LMNA or ZMPSTE24 genes can lead to the accumulation of incompletely processed forms of lamin A that retain farnesyl and methyl groups, which are absent in fully processed lamin A. These incompletely processed lamin A proteins localize to the inner nuclear membrane instead of the nuclear lamina, where mature lamin A resides. Mislocalized lamin proteins profoundly disrupt nuclear function and structure, often resulting in nuclear blebbing. In severe cases, nuclear rupture can occur, causing a loss of compartmentalization and leakage of genomic DNA into the cytosol. Abnormal nuclear structure and compartmentalization loss can be identified through indirect immunofluorescence (IF) on fixed cells. This study outlines such a method, employing specific antibodies against a lamin protein and double-stranded DNA (dsDNA) to simultaneously visualize the nuclear envelope and DNA. This approach enables a rapid assessment of nuclear structural integrity and the potential leakage of nuclear DNA into the cytosol.