Identification of novel splice variants of the human catalytic subunit Cbeta of cAMP-dependent protein kinase.

Four different isoforms of the catalytic subunit of cAMP-dependent protein kinase, termed Calpha, Cbeta, Cgamma and PrKX have been identified. Here we demonstrate that the human Cbeta gene encodes six splice variants, designated Cbeta1, Cbeta2, Cbeta3, Cbeta4, Cbeta4ab and Cbeta4abc. The Cbeta splice variants differ in their N-terminal ends due to differential splicing of four different forms of exon 1 designated exon 1-1, 1-2, 1-3, 1-4 and three exons designated a, b and c. All these exons are located upstream of exon 2 in the Cbeta gene. The previously identified human Cbeta variant has been termed Cbeta1, and is similar to the Cbeta isoform identified in the mouse, ox, pig and several other mammals. Human Cbeta2, which is the homologue of bovine Cbeta2, has no homologue in the mouse. Human Cbeta3 and Cbeta4 are homologous to the murine Cbeta3 and Cbeta2 splice variants, whereas human Cbeta4ab and Cbeta4abc represent novel isofoms previously not identified in any other species. At the mRNA level, the Cbeta splice variants reveal tissue specific expression. Cbeta1 was most abundantly expressed in the brain, with low-level expression in several other tissues. The Cbeta3 and Cbeta4 splice variants were uniquely expressed in human brain in contrast to Cbeta2, which was most abundantly expressed in tissues of the immune system, with no detectable expression in brain. We suggest that the various Cbeta splice variants when complexed with regulatory subunits may give rise to novel holoenzymes of protein kinase A that may be important for mediating specific effects of cAMP.