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United States Department of Agriculture

Agricultural Research Service

Title: Fumonisin Inhibition of Ceramide Synthase: a Possible Risk Factor for Human Neural Tube Defects

Authors
item Riley, Ronald
item Voss, Kenneth
item Speer, Marcy - GEN/MED.,DUKE U.,DURHAM
item Stevens, Victoria - AMER CANCER SOC.,ATLANTA
item Gelineau-Van Waes, Janee - MED.CEN./U.NEBRASKA,OMAHA

Submitted to: Book Chapter
Publication Type: Book / Chapter
Publication Acceptance Date: February 1, 2006
Publication Date: July 1, 2006
Citation: Riley, R.T., Voss, K.A., Speer, M., Stevens, V.L., Gelineau-Van Waes, J. 2006. Fumonisin inhibition of ceramide synthase: a possible risk factor for human neural tube defects. In: Hirabayashi, U., Igarashi, I., Merrill, Jr., A.H., editors. Sphingolipid Biology. Heidelberg, Germany: Springer. p.345-361.

Interpretive Summary: No summary required - book chapter.

Technical Abstract: Fumonisins are carcinogenic mycotoxins that cause farm animal diseases. They commonly contaminate maize and are suspected, but not proven, to cause human disease. Their mode of action involves inhibition of the enzyme (ceramide synthase) that controls the formation of sphingolipids; important regulators of pathways involved in cell death and survival. Sphingolipids are needed for the proper function of receptors associated with lipid rafts; for example, the high affinity folate-binding protein. Fumonisin disruption of folate transport interferes with neural tube closure in animal models in vitro and this effect is reduced by folate supplementation. In vivo studies in the LMBc mouse strain have shown that maternal fumonisin administration during pregnancy causes a dose-related increase in the frequency of neural tube defects (NTDs) in the embryos. Co-exposing the dams to folate or ganglioside GM1 is protective, suggesting that fumonisin altered sphingolipid-dependent lipid raft function. In addition, altered expression of cytokines, inducible nitric oxide synthase, elevated levels of sphinganine and sphinganine 1-phosphate and several genes involved in redox homeostasis are observed in affected embryos. NTDs are the second most common birth defect in humans. The etiology of human NTDs is complex. Increased risk has been associated with genetic predisposition, dietary exposure to environmental contaminants, and reduced intake of folate and other vitamins/nutrients. Human clinical and epidemiological studies show folate supplementation reduces the risk for NTDs. While there is no direct evidence for fumonisin as a cause of NTD in humans, the incidence of NTD is higher where maize consumption is high and both fumonisin exposure and folate deficient diets are likely. Thus, it has been hypothesized that fumonisin inhibition of ceramide synthase is a risk factor for NTDs in humans with folate deficient diets and consuming large quantities of low quality maize.

Last Modified: 10/23/2014
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