Acylation of naturally occurring and synthetic 1-deoxysphinganines by ceramide synthase. Formation of N-palmitoyl-aminopentol produces a toxic metabolite of hydrolyzed fumonisin, AP1, and a new category of ceramide synthase inhibitor.

Fumonisin B1 (FB1) is the predominant member of a family of mycotoxins produced by Fusarium moniliforme (Sheldon) and related fungi. Certain foods also contain the aminopentol backbone (AP1) that is formed upon base hydrolysis of the ester-linked tricarballylic acids of FB1. Both FB1 and, to a lesser extent, AP1 inhibit ceramide synthase due to structural similarities between fumonisins (as 1-deoxy-analogs of sphinganine) and sphingoid bases. To explore these structure-function relationships further, erythro- and threo-2-amino, 3-hydroxy- (and 3, 5-dihydroxy-) octadecanes were prepared by highly stereoselective syntheses. All of these analogs inhibit the acylation of sphingoid bases by ceramide synthase, and are themselves acylated with Vmax/Km of 40-125 for the erythro-isomers (compared with approximately 250 for D-erythro-sphinganine) and 4-6 for the threo-isomers. Ceramide synthase also acylates AP1 (but not FB1, under the conditions tested) to N-palmitoyl-AP1 (PAP1) with a Vmax/Km of approximately 1. The toxicity of PAP1 was evaluated using HT29 cells, a human colonic cell line. PAP1 was at least 10 times more toxic than FB1 or AP1 and caused sphinganine accumulation as an inhibitor of ceramide synthase. These studies demonstrate that: the 1-hydroxyl group is not required for sphingoid bases to be acylated; both erythro- and threo-isomers are acylated with the highest apparent Vmax/Km for the erythro-analogs; and AP1 is acylated to PAP1, a new category of ceramide synthase inhibitor as well as a toxic metabolite that may play a role in the diseases caused by fumonisins.

Fumonisin toxicity and sphingolipid biosynthesis.

Fumonisins are inhibitors of sphinganine (sphingosine) N-acyltransferase (ceramide synthase) in vitro, and exhibit competitive-type inhibition with respect to both substrates of this enzyme (sphinganine and fatty acyl-CoA). Removal of the tricarballylic acids from fumonisin B1 reduces the potency by at least 10 fold; and fumonisin A1 (which is acetylated on the amino group) is essentially inactive. Studies with diverse types of cells (hepatocytes, neurons, kidney cells, fibroblasts, macrophages, and plant cells) have established that fumonisin B1 not only blocks the biosynthesis of complex sphingolipids; but also, causes sphinganine to accumulate. Some of the sphinganine is metabolized to the 1-phosphate and degraded to hexadecanal and ethanolamine phosphate, which is incorporated into phosphatidylethanolamine. Sphinganine is also released from cells and, because it appears in blood and urine, can be used as a biomarker for exposure. The accumulation of these bioactive compounds, as well as the depletion of complex sphingolipids, may account for the toxicity, and perhaps the carcinogenicity, of fumonisins.

Regulation of lipid biosynthesis in Saccharomyces cerevisiae by fumonisin B1.

The regulation of lipid biosynthesis in the yeast Saccharomyces cerevisiae by fumonisin B1 was examined. Fumonisin B1 inhibited the growth of yeast cells. Cells supplemented with fumonisin B1 accumulated free sphinganine and phytosphingosine in a dose-dependent manner. The cellular concentration of ceramide was reduced in fumonisin B1-supplemented cells. Ceramide synthase activity was found in yeast cell membranes and was inhibited by fumonisin B1. Fumonisin B1 inhibited the synthesis of the inositol-containing sphingolipids inositol phosphorylceramide, mannosylinositol phosphorylceramide, and mannosyldiinositol phosphorylceramide. Fumonisin B1 also caused a decrease in the synthesis of the major phospholipids synthesized via the CDP-diacylglycerol-dependent pathway and the synthesis of neutral lipids. The effects of fumonisin B1 and sphingoid bases on the activities of enzymes in the pathways leading to the synthesis of sphingolipids, phospholipids, and neutral lipids were also examined. Other than ceramide synthase, fumonisin B1 did not affect the activities of any of the enzymes examined. However, sphinganine and phytosphingosine inhibited the activities of inositol phosphorylceramide synthase, phosphatidylserine synthase, and phosphatidate phosphatase. These are key enzymes responsible for the synthesis of lipids in yeast. The data reported here indicated that the biosynthesis of sphingolipids, phospholipids and neutral lipids was coordinately regulated by fumonisin B1 through the regulation of lipid biosynthetic enzymes by sphingoid bases.

Sphingolipid biosynthesis de novo by rat hepatocytes in culture. Ceramide and sphingomyelin are associated with, but not required for, very low density lipoprotein secretion.

Sphingolipids are constituents of liver and lipoproteins, but relatively little is known about their synthesis and secretion. Incubation of rat hepatocytes with [14C]- or [3H]serine labeled the long-chain base backbones of mainly ceramide and sphingomyelin. Most of the labeled sphingolipids were associated with the cells; however, 1-5% (the majority of which was ceramide) was released into the medium as part of very low density lipoproteins (VLDL). Since this is the first report that lipoproteins contain ceramide, lipoproteins were isolated from rat plasma, and the ceramide contents were (per mg of protein): 6.5 nmol for VLDL (d < 1.018), 0.6 nmol for low density lipoproteins (1.018 < d < 1.063), 0.2 nmol for high density lipoproteins (1.063 < d < 1.18), and 0.1 nmol for the albumin fraction; the lipoproteins also contained 0.1-0.4 nmol of free sphingosine/mg of protein. A number of factors affected the secretion of radiolabeled sphingolipids: 1) addition of palmitic acid, but not stearic or oleic acid, enhanced secretion due to an increase in long-chain base synthesis de novo. 2) Choline deficiency caused a 42% reduction in the secretion of radiolabeled sphingomyelin, but this was due to an effect on VLDL secretion rather than a decrease in sphingolipid synthesis. Removal of choline was examined because previous studies (Yao, Z. M., and Vance, D. E. (1988) J. Biol. Chem. 263, 2998-3004) have shown that choline deficiencies depress phosphatidylcholine synthesis and lipoprotein secretion. 3) Incubation of the cells with fumonisin B1, a mycotoxin inhibitor of sphinganine (sphingosine) N-acyltransferase, reduced overall sphingolipid synthesis and secretion by 90%, but had no effect on the secretion of apoB, phosphatidylcholine, or cholesterol. All together, these findings demonstrate that rat hepatocytes synthesize ceramide and sphingomyelin de novo and incorporate them into both cellular membranes and secreted VLDL, but normal sphingolipid synthesis is not required for lipoprotein secretion.