Modification of sphingoglycolipids and sulfolipids in kidney cell lines under heat stress: Activation of monohexosylceramide synthesis as a ceramide scavenger

Heat stress on Madin-Darby canine kidney cells increased ceramide content to 187% at 40°C for 24 h, and the de novo synthesis from serine increased to 146%. Glucosylceramide (GlcCer) and galactosylceramide (GalCer) synthesis from ceramide, the first glycosylation step of sphingolipid metabolism in kidney cells, increased to 290% (GalCer) and 143% (GlcCer) after metabolic labeling with ¹⁴C-glucose at 42°C for 20 h. The more complex glycolipid lactosylceramide also increased to 151%, whereas sulfatide and ganglioside GM3 decreased to 21% and 43%, respectively. Sulfatide (SM4s) showed optimal sulfation at 37°C, whereas cholesterol sulfate was optimally sulfated at 40°C. The gene expression of ceramide glucosyltransferase (GluT), ceramide galactosyltransferase, and GalCer sulfotransferase (GST) after 24 h culture at 42°C significantly increased to 714%, 221%, and 174%, respectively. Another kidney cell line, COS7, showed less activation of these transferases by heat stress. Although GST gene expression was higher under heat stress, SM4s synthesis decreased, which may have been due to increased GST sensitivity to a temperature higher than 37°C. When we introduced the HSP70 gene into the expression vector and transfected the plasmid (pCDM-dHSP70) into kidney cells, GlcCer synthesis increased significantly. From these results, we speculated that HSP70 may play a role in GluT gene expression to increase GlcCer and decrease intracellular ceramide level.