The sphingolipid pathway regulates Pkc1 through the formation of diacylglycerol in Cryptococcus neoformans

The sphingolipid biosynthetic pathway generates bioactive molecules crucial to the regulation of mammalian and fungal physiological and pathobiological processes. In previous studies (Luberto, C., Toffaletti, D. L., Wills, E. A., Tucker, S. C., Casadevall, A., Perfect, J. R., Hannun, Y. A., and Del Poeta, M. (2001) Genes Dev. 15, 201-212), we demonstrated that an enzyme of the fungal sphingolipid pathway, Ipc1 (inositol-phosphorylceramide synthase-1), regulates melanin, a pigment required for the pathogenic fungus Cryptococcus neoformans to cause disease. In this study, we investigated the mechanism by which Ipc1 regulates melanin production. Because Ipc1 also catalyzes the production of diacylglycerol (DAG), a physiological activator of the classical and novel isoforms of mammalian protein kinase C (PKC), and because it has been suggested that PKC is required for melanogenesis in mammalian cells, we investigated whether Ipc1 regulates melanin in C. neoformans through the production of DAG and the subsequent activation of Pkc1, the fungal homolog of mammalian PKC. The results show that modulation of Ipc1 regulates the levels of DAG in C. neoformans cells. Next, we demonstrated that C. neoformans Pkc1 is a DAG-activated serine/threonine kinase and that the C1 domain of Pkc1 is necessary for this activation. Finally, through both pharmacological and genetic approaches, we found that inhibition of Pkc1 abolishes melanin formation in C. neoformans. This study identifies a novel signaling pathway in which C. neoformans Ipc1 plays a key role in the activation of Pkc1 through the formation of DAG. Importantly, this pathway is essential for melanin production with implications for the pathogenicity of C. neoformans.     

The role and mechanism of diacylglycerol-protein kinase C1 signaling in melanogenesis by Cryptococcus neoformans

The fungus Cryptococcus neoformans is an opportunistic human pathogen that causes a life-threatening meningoencephalitis by expression of virulence factors such as melanin, a black pigment produced by the cell wall-associated enzyme laccase. In previous studies (Heung, L. J., Luberto, C., Plowden, A., Hannun, Y. A., and Del Poeta, M. (2004) J. Biol. Chem. 279, 21144-21153) we proposed that the sphingolipid enzyme inositol-phosphoryl ceramide synthase 1 (Ipc1) regulates melanin production through the generation of diacylglycerol (DAG), which was found to activate in vitro protein kinase C1 (Pkc1). Here, we investigated the molecular mechanisms by which DAG regulates Pkc1 in vivo and the effect of this regulation on laccase activity and melanin synthesis. To this end we deleted the putative DAG binding C1 domain of C. neoformans Pkc1 and found that the C1 deletion abolished the activation of Pkc1 by DAG. Deletion of the C1 domain repressed laccase activity and, consequently, melanin production. Finally, we show that these biological effects observed in the C1 deletion mutant are mediated by alteration of cell wall integrity and displacement of laccase from the cell wall. These studies define novel molecular mechanisms addressing Pkc1-laccase regulation by the sphingolipid pathway of C. neoformans, with important implications for understanding and targeting the Ipc1-Pkc1-laccase cascade as a regulator of virulence of this important human pathogen.