This study reports on the increased induction of autophagy upon N starvation in a double Δipt1Δskn1 deletion mutant of yeast as compared with the single deletion mutants or WT. Apoptotic features were slightly increased in the single and double Δipt1Δskn1 deletion mutants as compared with WT upon N starvation, but there was no significant difference between single and double deletion mutants in this regard, pointing to increased autophagy
in the double Δipt1Δskn1 deletion mutant independent of apoptosis. The double Δipt1Δskn1 deletion mutant was further characterized by increased DNA fragmentation upon N starvation as compared with the single deletion mutants or WT. This surplus DNA fragmentation seems to Obeticholic Acid mw be of nonapoptotic origin because apoptotic features of the double Δipt1Δskn1 deletion mutant were not significantly different from those of single mutants upon N starvation. Hence, these data point to a link between autophagy and
Ipilimumab supplier increased DNA fragmentation, as demonstrated previously in Drosophila upon overexpression of Atg1 (Scott et al., 2007). To gain more mechanistic insight into the increased autophagy and DNA fragmentation in the double Δipt1Δskn1 deletion mutant as compared with the single deletion mutants and WT, we focused on putative differences in complex sphingolipids and sphingolipid metabolites in the different yeast strains upon N starvation. In contrast to previous observations for nutrient starvation in half-strength PDB media, which induced the presence of M(IP)2C in Δipt1 and Δskn1 single deletion mutants (Im et al., 2003; Thevissen et al., 2005), N starvation did not lead to detectable differences in the levels of complex sphingolipids or sphingolipid metabolites in the double Δipt1Δskn1 deletion mutant as compared with the single deletion mutants or WT. Interestingly, higher basal levels of the sphingoid base phytosphingosine were observed in the double Δipt1Δskn1 mutant as compared with the single deletion mutants or WT. Treatment of Pho8 Δ60 yeast cells with the ceramide synthase inhibitor fumonisin B1, resulting in the accumulation of sphingoid bases, resulted in a slight, but reproducible
increase in alkaline phosphatase activity under starvation conditions (data not shown). All these data point to a putative role for sphingoid bases in the induction of autophagy Carbohydrate and/or DNA fragmentation in yeast. Up till now, there are no reports on a link between sphingolipids or sphingolipid metabolism and autophagy or DNA fragmentation in yeast. In mammals, however, few reports highlight the link between the sphingolipid rheostat and autophagy (Lavieu et al., 2007, 2008). The sphingolipid rheostat in mammals is composed of the relative levels of sphingolipids and their metabolites, namely ceramide (Cer), sphingosine (Sph) and sphingosine-1-phosphate (S1P). In mammalian cells, both ceramide and S1P stimulate autophagy (Lavieu et al.