Augspurger, K. R.; Martin, E. A.; Maynard, J.; Welle, K.; Ghaemmaghami, S.; Burlingame, A.; Panning, B.; Buchwalter, A.

Lamin A processing is highly regulated, and necessary for proper assembly of the nuclear lamina facilitating its role in nuclear structure and chromatin organization. Pre-lamin A is first farnesylated, and then a short C-terminal peptide is cleaved to produce mature lamin A. O-GlcNAc Transferase (OGT), a glucose sensitive post-translational modification enzyme, is a potential regulator for lamin A processing. To explore the role of OGT in lamin A biogenesis, we examined the effects of OGT levels and OGT inhibition. Variation in OGT dose or inhibition of its activity did not alter endogenous lamin A abundance or distribution. To more directly test the regulatory effects of O-GlcNAcylation on lamin A, we adapted a tail cleavage assay. Mutation of an OGT binding motif and O-GlcNAc modification sites reduced tail cleavage efficiency, suggesting that O-GlcNAcylation promotes lamin A processing. Our findings add to the understanding of the regulation of lamin A cleavage and identify a potential link between glucose metabolism and lamina biogenesis.