Ceramide starves cells to death by downregulating nutrient transporter proteins

Ceramide starves cells to death by downregulating nutrient transporter proteins

Ceramide induces cell death in response to many stimuli. Its mechanism of action, however, is not completely understood. Ceramide induces autophagy in mammalian cells maintained in rich media and nutrient permease downregulation in yeast. These observations suggested to us that ceramide might kill m...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 105; no. 45; pp. 17402 - 17407
Main Authors: Guenther, Garret G, Peralta, Eigen R, Rosales, Kimberly Romero, Wong, Susan Y, Siskind, Leah J, Edinger, Aimee L
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 11-11-2008
National Acad Sciences
Subjects:
Amino Acids - metabolism
Animals
Apoptosis
Autophagy - drug effects
B lymphocytes
Biological Sciences
Cell death
Cell growth
Cell Line
Cells
Cellular metabolism
Ceramides
Ceramides - metabolism
Ceramides - toxicity
Daunorubicin
Delta cells
Down regulation
Flow Cytometry
Gene Expression Regulation - drug effects
Kinetics
Mass Spectrometry
Membrane Transport Proteins - metabolism
Mice
Microscopy, Fluorescence
Models, Biological
Nutrient transport
Nutrients
Proteins
Pyruvates - pharmacology
Toxicity
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Summary:Ceramide induces cell death in response to many stimuli. Its mechanism of action, however, is not completely understood. Ceramide induces autophagy in mammalian cells maintained in rich media and nutrient permease downregulation in yeast. These observations suggested to us that ceramide might kill mammalian cells by limiting cellular access to extracellular nutrients. Consistent with this proposal, physiologically relevant concentrations of ceramide produced a profound and specific downregulation of nutrient transporter proteins in mammalian cells. Blocking ceramide-induced nutrient transporter loss or supplementation with the cell-permeable nutrient, methyl pyruvate, reversed ceramide-dependent toxicity. Conversely, cells became more sensitive to ceramide when nutrient stress was increased by acutely limiting extracellular nutrients, inhibiting autophagy, or deleting AMP-activated protein kinase (AMPK). Observations that ceramide can trigger either apoptosis or caspase-independent cell death may be explained by this model. We found that methyl pyruvate (MP) also protected cells from ceramide-induced, nonapoptotic death consistent with the idea that severe bioenergetic stress was responsible. Taken together, these studies suggest that the cellular metabolic state is an important arbiter of the cellular response to ceramide. In fact, increasing nutrient demand by incubating cells in high levels of growth factor sensitized cells to ceramide. On the other hand, gradually adapting cells to tolerate low levels of extracellular nutrients completely blocked ceramide-induced death. In sum, these results support a model where ceramide kills cells by inducing intracellular nutrient limitation subsequent to nutrient transporter downregulation.
Bibliography:1G.G.G., E.R.P., and K.R.R. contributed equally to this work.
Edited by Doug R. Green, St. Jude Hospital, Memphis, TN, and accepted by the Editorial Board September 26, 2008
Author contributions: G.G.G., E.R.P., K.R.R., S.Y.W., L.J.S., and A.L.E. designed research; G.G.G., E.R.P., K.R.R., S.Y.W., L.J.S., and A.L.E. performed research; L.J.S. contributed new reagents/analytic tools; G.G.G., E.R.P., K.R.R., S.Y.W., L.J.S., and A.L.E. analyzed data; and A.L.E. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0802781105