Lamin A/C controls nuclear matrin-3 levels and localization, but not alternative splicing of cassette exons

Disruptions in connections between the nuclear lamina and nuclear matrix occur in myopathic disorders. However, the biological significance of nuclear lamina - nuclear matrix coupling still remains largely undetermined. Previously it has been demonstrated that the nuclear matrix protein, matrin-3, binds to lamin A/C and this interaction is disrupted in laminopathies resulting in enhanced separation between the lamina and matrix. Matrin-3 has recently been identified as a core regulator of alternative splicing, whereas the involvement of lamin A/C in splicing still remains controversial. In this study, we demonstrate that lamin A/C is not only required for maintaining the nuclear organization of matrin-3, but also of other splicing activators and small nuclear ribonucleoproteins (snRNP) components. Interestingly, mis-localization of these splicing components did not appear to significantly disrupt alternative splicing events of cassette exons regulated by matrin-3. Thus, the lamin A/C-matrin3 interaction is unlikely to be involved in controlling alternative splicing but could be important in coordinating other nuclear activities. Interestingly, matrin-3 knock-down results in misshapen nuclei suggesting its interaction with lamin A/C maybe important in maintaining nuclear structural integrity.