OBJECTIVE: Ceramide, an intermediate of apoptosis induction in response to chemotherapy, can be detoxified by glycosylation at the cytoplasmic surface of the Golgi membrane. P-glycoprotein (p-gp) might augment ceramide glycosylation by translocating glucosylceramide (GC) across the Golgi membrane. We aimed to show that glucosylceramide synthase (GCS) activity is linked to p-gp expression and resistance to ceramide-induced apoptosis in acute myeloid leukemia (AML). METHODS: Apoptosis and cell-cycle analysis were measured using propidium iodide staining and flow cytometry. Fluorescent microscopy assessed p-gp expression in, and rhodamine 123 uptake by, the Golgi. P-gp interaction with GC was assessed by modulation of rhodamine accumulation. The GCS activity assay was based upon the transfer of UDP-(3)H-glucose to C8-ceramide to form radiolabeled GC, by rate-limiting cell-derived GCS. TLC and fluorimetry were used to measure the metabolites of fluorescent ceramide. Cell viability was measured using 7-amino-actinomycin D staining and flow cytometry with an internal standard for cell enumeration. RESULTS: P-gp(+) cell lines (KG1a, TF-1) were resistant to C8-ceramide-induced apoptosis compared to p-gp(-) cell lines (HL-60, U937). P-gp inhibitors GF120918 and cyclosporin A enhanced ceramide-induced apoptosis in the p-gp expressing cells. P-gp expression was identified in the Golgi of these cells. Pgp's efflux function in TF-1 but not KG1a cells was inhibited by glucosylceramide. In the presence of p-gp inhibitors, R123 accumulation in the Golgi of TF-1 cells was lost, and GCS activity and lactosylceramide formation were downregulated. Intact cells were necessary for the involvement of p-gp in the regulation of GCS activity. CONCLUSION: Our data suggests that ceramide induces apoptosis in AML cells and that p-gp confers resistance to ceramide-induced apoptosis, with modulation of the ceramide-glucosylceramide pathway making a marked contribution to this resistance in TF-1 cells.
OBJECTIVE:Ceramide, an intermediate of apoptosis induction in response to chemotherapy, can be detoxified by glycosylation at the cytoplasmic surface of the Golgi membrane. P-glycoprotein (p-gp) might augment ceramide glycosylation by translocating glucosylceramide (GC) across the Golgi membrane. We aimed to show that glucosylceramide synthase (GCS) activity is linked to p-gp expression and resistance to ceramide-induced apoptosis in acute myeloid leukemia (AML). METHODS: Apoptosis and cell-cycle analysis were measured using propidium iodide staining and flow cytometry. Fluorescent microscopy assessed p-gp expression in, and rhodamine 123 uptake by, the Golgi. P-gp interaction with GC was assessed by modulation of rhodamine accumulation. The GCS activity assay was based upon the transfer of UDP-(3)H-glucose to C8-ceramide to form radiolabeled GC, by rate-limiting cell-derived GCS. TLC and fluorimetry were used to measure the metabolites of fluorescent ceramide. Cell viability was measured using 7-amino-actinomycin D staining and flow cytometry with an internal standard for cell enumeration. RESULTS:P-gp(+) cell lines (KG1a, TF-1) were resistant to C8-ceramide-induced apoptosis compared to p-gp(-) cell lines (HL-60, U937). P-gp inhibitors GF120918 and cyclosporin A enhanced ceramide-induced apoptosis in the p-gp expressing cells. P-gp expression was identified in the Golgi of these cells. Pgp's efflux function in TF-1 but not KG1a cells was inhibited by glucosylceramide. In the presence of p-gp inhibitors, R123 accumulation in the Golgi of TF-1 cells was lost, and GCS activity and lactosylceramide formation were downregulated. Intact cells were necessary for the involvement of p-gp in the regulation of GCS activity. CONCLUSION: Our data suggests that ceramide induces apoptosis in AML cells and that p-gp confers resistance to ceramide-induced apoptosis, with modulation of the ceramide-glucosylceramide pathway making a marked contribution to this resistance in TF-1 cells.
Authors: Johnson Ung; Su-Fern Tan; Todd E Fox; Jeremy J P Shaw; Luke R Vass; Pedro Costa-Pinheiro; Francine E Garrett-Bakelman; Michael K Keng; Arati Sharma; David F Claxton; Ross L Levine; Martin S Tallman; Myles C Cabot; Mark Kester; David J Feith; Thomas P Loughran Journal: Blood Rev Date: 2022-04-09 Impact factor: 10.626
Authors: Amir Abdollahi; Christian Schwager; Jörg Kleeff; Irene Esposito; Sophie Domhan; Peter Peschke; Kai Hauser; Philip Hahnfeldt; Lynn Hlatky; Jürgen Debus; Jeffrey M Peters; Helmut Friess; Judah Folkman; Peter E Huber Journal: Proc Natl Acad Sci U S A Date: 2007-07-24 Impact factor: 11.205
Authors: Gergely Szakács; Matthew D Hall; Michael M Gottesman; Ahcène Boumendjel; Remy Kachadourian; Brian J Day; Hélène Baubichon-Cortay; Attilio Di Pietro Journal: Chem Rev Date: 2014-04-23 Impact factor: 60.622