Sphingolipid metabolism is implicated to play an important role in apoptosis. Here we show that dihydrosphingosine (DHS) and phytosphingosine (PHS), two major sphingoid bases of fungi, have potent fungicidal activity with remarkably high structural and stereochemical specificity against Aspergillus nidulans. In fact, only naturally occurring DHS and PHS are active. Further analysis revealed that DHS and PHS induce rapid DNA condensation independent of mitosis, large-scale DNA fragmentation, and exposure of phosphatidylserine, all common morphological features characteristic of apoptosis, suggesting that DHS and PHS induce apoptosis in A. nidulans. The finding that DNA fragmentation requires protein synthesis, which implies that an active process is involved, further supports this proposition. The induction of apoptosis by DHS and PHS is associated with the rapid accumulation of reactive oxygen species (ROS). However, ROS are not required for apoptosis induced by DHS and PHS, as scavenging of ROS by a free radical spin trap has no effect. We further demonstrate that apoptosis induced by DHS and PHS is independent of metacaspase function but requires mitochondrial function. Together, the results suggest that DHS and PHS induce a type of apoptosis in A. nidulans most similar to the caspase-independent apoptosis observed in mammalian systems. As A. nidulans is genetically tractable, this organism should be an ideal model system for dissecting sphingolipid signaling in apoptosis and, importantly, for further elucidating the molecular basis of caspase-independent apoptosis.In recent years, mounting evidence has indicated that sphingolipid metabolism is an important cell signaling system. Rapid and transient changes in sphingolipid metabolism are closely associated with a wide range of cellular activities, including the stress response, apoptosis, inflammation, cell cycle regulation, and cancer development (19,20,33). For instance, stress signals rapidly and transiently elevate the level of cellular ceramide; conversely, growth factors stimulate the rapid, transient generation of sphingosine-1-phosphate (S-1-P). Importantly, the treatment of cells with short-chain ceramide analogs or the expression of sphingomyelinases reproduces most of the effects of endogenous ceramide, particularly in the stress response and apoptosis (19,20,33). Furthermore, S-1-P, as a highaffinity ligand of the edg family of G-protein-coupled receptors, promotes cell survival and proliferation by antagonizing ceramide-mediated apoptosis (52, 61). Thus, ceramide, as an important regulatory component in the stress response and apoptosis, and S-1-P, involved in cell survival and proliferation, have attracted enormous scientific interest in recent years. In particular, a large body of evidence has now accumulated to implicate an important role of ceramide in the stress response and apoptosis. It is proposed that the relative levels of cellular ceramide and S-1-P determine whether cells undergo apoptosis or continue to proliferate (61).The sphingoid ...
