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12 results on '"Dirck A"'

1. Dietary soy sphingolipids suppress tumorigenesis and gene expression in 1,2-dimethylhydrazine-treated CF1 mice and [Apc.sup.Min/+] mice

Author

Symolon, Holly, Schmelz, Eva M., Dillehay, Dirck L., and Merrill, Alfred H., Jr.

Subjects
Colon cancer -- Prevention, Sphingolipids -- Health aspects, Sphingolipids -- Research, Oncology, Experimental, Food/cooking/nutrition
Abstract

Dietary supplementation with milk sphingolipids inhibits colon tumorigenesis in CF1 mice treated with a colon carcinogen [1,2-dimethylhydrazine (DMH)] and in multiple intestinal neoplasia (Min) mice, which develop intestinal tumors spontaneously. Plant sphingolipids differ structurally from those of mammals [soy glucosylceramide (GlcCer) consists predominantly of a 4,8-sphingadiene backbone and [alpha]-hydroxy-palmitic acid], which might affect their bioactivity. Soy GlcCer was added to the AIN-76A diet (which contains KEY WORDS: * sphingolipids * soy * gene expression * colon cancer * mouse models

Published
2004

2. Importance of sphingolipids and inhibitors of sphingolipid metabolism as components of animal diets

Author

Merrill, Alfred H., Jr., Schmelz, Eva-Maria, Wang, Elaine, Dillehay, Dirck L., Rice, Larry G., Meredith, Filmore, and Riley, Ronald L.

Subjects
Sphingolipids -- Research, Animal nutrition -- Genetic aspects, Food/cooking/nutrition
Abstract

Sphingolipids are highly bioactive compounds that participate in the regulation of cell growth, differentiation, diverse cell functions, and apoptosis. They are present in both plant and animal foods in appreciable amounts, but little is known about their nutritional significance. Recent studies have shown that feeding sphingomyelin to female CF1 mice treated with a colon carcinogen (1,2-dimethylhydrazine) reduced the number of aberrant colonic crypt foci; longer-term feeding also affected the appearance of colonic adenocarcinomas. Therefore, dietary sphingolipids should be considered in studies of the relationships between diet and cancer. Sphingolipids have also surfaced as important factors in understanding the mechanism of action of a recently discovered family of mycotoxins, termed fumonisins. Fumonisins are produced by fungi commonly found on maize and a few related foods, and their consumption can result in equine leukoencephalomalacia, porcine pulmonary edema and a number of other diseases of veterinary animals and, perhaps, humans. A cellular target of fumonisins is the enzyme ceramide synthase, and disruption of sphingolipid metabolism by fumonisins has been established by studies with both cells in culture and animals that have consumed these toxic mycotoxins. These findings underscore the ways in which sphingolipids and agents that affect sphingolipid utilization should be given consideration in selecting animal diets for nutritional and toxicological studies. KEY WORDS: sphingolipids ceramide mycotoxins cancer

Published
1997

3. Role of dietary sphingolipids and inhibitors of sphingolipid metabolism in cancer and other diseases

Author

Merrill, Alfred H., Jr., Schmelz, Eva-Maria, Wang, Elaine, Schroeder, Joseph J., Dillehay, Dirck L., and Riley, Ronald T.

Subjects
Sphingolipids -- Physiological aspects, Lipid metabolism -- Research, Mycotoxins -- Research, Food/cooking/nutrition
Abstract

Sphingolipids are found in all eukaryotic and some prokaryotic organisms and participate in the regulation of cell growth, differentiation, and diverse cell functions including cell-cell communication, cell-substratum interactions and intracellular signal transduction. Nonetheless, the field of nutrition has given scant attention to these compounds so that little is known about the following fundamental questions: What is the fate of sphingolipids that are consumed in food? Does consumption of dietary sphingolipids affect the behavior of cells in the gastrointestinal tract or other organs? How do other factors in the diet affect sphingolipid metabolism? Several recent findings underscore the importance of these questions, for examples: 1) Sphingolipids are digested throughout the GI tract to ceramide and sphingosine, which are highly bioactive compounds that affect cellular regulatory pathways; 2) addition of sphingomyelin to a standard AIN diet (which is essentially devoid of sphingolipids) reduces the appearance of aberrant colonic crypts, and perhaps the number of tumors, in mice treated with a colon carcinogen; and 3) an enzyme of sphingolipid metabolism has been discovered to be the target of a class of toxic and carcinogenic mycotoxins called fumonisins. Given these recent findings, it is possible that some of the confusion that has arisen regarding the relationships between dietary fat and disease might be due to the lack of consideration of the sphingolipids that are also present. INDEXING KEY WORDS: sphingolipids; ceramide; mycotoxins; cancer

Published
1995

4. Uptake and metabolism of sphingolipids in isolated intestinal loops of mice

Author

Schmelz, Eva-Maria, Crall, Kara J., Larocque, Regina, Dillehay, Dirck L., and Merrill, Alfred H., Jr.

Subjects
Sphingolipids -- Physiological aspects, Intestinal absorption -- Research, Mice -- Physiological aspects, Food/cooking/nutrition
Abstract

Sphingolipids are found in all eukaryotic organisms. However, little is known about the digestion, uptake and subsequent metabolism of these constituents of food. In this study, radiolabeled sphingolipids were placed in isolated intestinal segments of female CF1 mice, and the metabolism and distribution of the radiolabel were followed. Most of the sphingomyelin was degraded to ceramide and other products in all regions of the intestine, and increasing amounts of several (3H)-labeled sphingolipids appeared in the tissues. Small amounts of the radiolabel disappeared from the intestinal loops and appeared in liver within the first 30 to 60 min implying that neither intact sphingomyelin nor its metabolites are transported very efficiently from the intestine to other organs. There were different degrees of uptake and metabolism of sphingomyelin, (4,5-3H-sphinganyl)ceramide, and (3H)sphingosine. The (3H)sphingomyelin was also administered by gavage and the appearance along the intestine measured. After 90 min, 12% was found in the cecum and colon. These results establish that some of the sphingomyelin that enters the gastrointestinal tract is hydrolyzed and taken up by the intestine, with the lipid backbone being degraded or reutilized for complex sphingolipid synthesis; however, at least a portion passes into the large intestine. The appearance of bioactive compounds throughout the gastrointestinal tract may alter the behavior of intestinal cells.

Published
1994

5. Dietary sphingomyelin inhibits 1,2-dimethylhydrazine-induced colon cancer in CF1 mice

Author

Dillehay, Dirck L., Webb, Sonji K., Schmelz, Eva-Maria, and Merrill, Alfred H., Jr.

Subjects
Dietary fat -- Physiological aspects, Colorectal cancer -- Research, Mice -- Physiological aspects, Food/cooking/nutrition
Abstract

Sphingolipids are in all eukaryotic cells and modulate cell growth, differentiation, and transformation; however, little is known about the physiological effects of their consumption. Mice were fed diets supplemented with milk sphingomyelin to determine effects on colon carcinogenesis. Cancer was initiated in CF1 mice by 1,2-dimethylhydrazine. Mice were then fed AIN76A diets supplemented with 0.025 to 0.1 g sphingomyelin/100 g for 28 wk until the supply of sphingomyelin was depleted and then fed unsupplemented diet for 24 wk. Sphingomyelin did not affect weight gain. Mice fed sphingomyelin had a 20% incidence of colon tumors compared with 47% in controls (P = 0.08 for all sphingomyelin-fed mice vs. controls). Tumors were adenomas or adenocarcinomas and located in the distal third of the colon. In shorter-term studies, colonic epithelial cell proliferation was significantly greater than controls in mice fed 0.025 g sphingomyelin/100 g diet, but not in those fed higher amounts of sphingomyelin. The number of aberrant crypts was significantly lower in 1,2-dimethylhydrazine-treated mice fed 0.05 g sphingomyelin/100 g diet than in controls. These results demonstrate that consumption of sphingomyelin affects the behavior of colonic cells. Because sphingolipids are present in food, the reduction in 1,2-dimethylhydrazine-induced premalignant lesions and the incidence of colon tumors in CF1 mice implies that these compounds may be another important class of nutritional modulators of carcinogenesis.

Published
1994

8. Dietary Soy Sphingolipids Suppress Tumorigenesis and Gene Expression in 1,2-Dimethylhydrazine-Treated CF1 Mice and Apc/+ Mice

Author

Eva M. Schmelz, Alfred H. Merrill, Dirck L. Dillehay, and Holly Symolon

Subjects
Adenoma, medicine.medical_specialty, Colon, Ratón, Gene Expression, Medicine (miscellaneous), Mice, Inbred Strains, Biology, Weight Gain, medicine.disease_cause, Mice, chemistry.chemical_compound, Internal medicine, Gene expression, medicine, Animals, RNA, Messenger, Transcription factor, Carcinogen, Sphingolipids, Nutrition and Dietetics, TCF4, Sphingolipid, 1,2-Dimethylhydrazine, Diet, Endocrinology, chemistry, Colonic Neoplasms, Carcinogens, Cancer research, Female, Soybeans, Carcinogenesis, Cell Division
Abstract

Dietary supplementation with milk sphingolipids inhibits colon tumorigenesis in CF1 mice treated with a colon carcinogen [1,2-dimethylhydrazine (DMH)] and in multiple intestinal neoplasia (Min) mice, which develop intestinal tumors spontaneously. Plant sphingolipids differ structurally from those of mammals [soy glucosylceramide (GlcCer) consists predominantly of a 4,8-sphingadiene backbone and alpha-hydroxy-palmitic acid], which might affect their bioactivity. Soy GlcCer was added to the AIN-76A diet (which contains0.005% sphingolipid) to investigate whether it would also suppress tumorigenesis in these mouse models. Soy GlcCer reduced colonic cell proliferation in the upper half of the crypts in mice treated with DMH by 50 and 56% (P0.05) at 0.025 and 0.1% of the diet (wt/wt), respectively, and reduced the number of aberrant colonic crypt foci (an early marker of colon carcinogenesis) by 38 and 52% (P0.05). Min mice fed diets containing 0.025 and 0.1% (wt/wt) soy GlcCer developed 22 and 37% fewer adenomas (P0.05), respectively. The effects of dietary sphingolipids on gene expression in the intestinal mucosal cells of Min mice were analyzed using Affymetrix GeneChip microarrays. Soy GlcCer affected the expression of 96 genes byor = 2-fold in a dose-dependent manner, increasing 32 and decreasing 64. Decreases in the mRNA expression of two transcription factors associated with cancer, hypoxia-induced factor 1 alpha (HIF1 alpha) and transcription factor 4 (TCF4), were confirmed by quantitative RT-PCR. In conclusion, soy GlcCer suppressed colon tumorigenesis in two mouse models; hence, plant sphingolipids warrant further investigation as inhibitors of colon cancer. Because soy contains relatively high amounts of GlcCer, sphingolipids may partially account for the anticancer benefits attributed to soy-based foods.

Published
2004

9. Importance of Sphingolipids and Inhibitors of Sphingolipid Metabolism as Components of Animal Diets

Author

Alfred H. Merrill, Elaine Wang, Larry G. Rice, Dirck L. Dillehay, Filmore I. Meredith, Eva-Maria Schmelz, and Ronald T. Riley

Subjects
Sphingolipids, Nutrition and Dietetics, Cell growth, food and beverages, Medicine (miscellaneous), Metabolism, Mycotoxins, Biology, Animal Feed, Sphingolipid, Diet, chemistry.chemical_compound, Diet and cancer, Biochemistry, chemistry, Colonic Neoplasms, Animals, Sphingomyelin, Mycotoxin, Ceramide synthase, Carcinogen
Abstract

Sphingolipids are highly bioactive compounds that participate in the regulation of cell growth, differentiation, diverse cell functions, and apoptosis. They are present in both plant and animal foods in appreciable amounts, but little is known about their nutritional significance. Recent studies have shown that feeding sphingomyelin to female CF1 mice treated with a colon carcinogen (1,2-dimethylhydrazine) reduced the number of aberrant colonic crypt foci; longer-term feeding also affected the appearance of colonic adenocarcinomas. Therefore, dietary sphingolipids should be considered in studies of the relationships between diet and cancer. Sphingolipids have also surfaced as important factors in understanding the mechanism of action of a recently discovered family of mycotoxins, termed fumonisins. Fumonisins are produced by fungi commonly found on maize and a few related foods, and their consumption can result in equine leukoencephalomalacia, porcine pulmonary edema and a number of other diseases of veterinary animals and, perhaps, humans. A cellular target of fumonisins is the enzyme ceramide synthase, and disruption of sphingolipid metabolism by fumonisins has been established by studies with both cells in culture and animals that have consumed these toxic mycotoxins. These findings underscore the ways in which sphingolipids and agents that affect sphingolipid utilization should be given consideration in selecting animal diets for nutritional and toxicological studies.

Published
1997

10. Colonic cell proliferation and aberrant crypt foci formation are inhibited by dairy glycosphingolipids in 1, 2-dimethylhydrazine-treated CF1 mice

Author

M. C. Sullards, Eva M. Schmelz, Alfred H. Merrill, and Dirck L. Dillehay

Subjects
Adenoma, Ceramide, Medicine (miscellaneous), Apoptosis, Biology, Adenocarcinoma, Glycosphingolipids, chemistry.chemical_compound, Lactosylceramide, Mice, Animals, music, Anticarcinogen, Nutrition and Dietetics, music.instrument, Ganglioside, Fatty Acids, Sphingolipid, Molecular biology, digestive system diseases, 1,2-Dimethylhydrazine, Diet, Milk, chemistry, Biochemistry, Colonic Neoplasms, Carcinogens, Linear Models, lipids (amino acids, peptides, and proteins), Female, Sphingomyelin, Aberrant crypt foci
Abstract

Dietary sphingomyelin (SM) inhibits early stages of colon cancer (appearance of aberrant crypt foci, ACF) and decreases the proportion of adenocarcinomas vs. adenomas in 1,2-dimethylhydrazine (DMH)-treated CF1 mice. To elucidate the structural specificity of this inhibition, the effects of the other major sphingolipids in milk (glycosphingolipids) were determined. Glucosylceramide (GluCer), lactosylceramide (LacCer) and ganglioside G(D3) were fed individually to DMH-treated (six doses of 30 mg/kg body weight) female CF1 mice at 0.025 or 0.1 g/100 g of the diet for 4 wk. All reduced the number of ACF by40% (P0.001), which is comparable to the reduction by SM in earlier studies. Immunohistochemical analysis of the colons revealed that sphingolipid feeding also reduced proliferation, with the most profound effect (up to 80%; P0.001) in the upper half of the crypts. Since the bioactive backbones of the glycosphingolipids (i.e., ceramide and other metabolites) are the likely mediators of these effects, the susceptibility of these complex sphingolipids to digestion in the colon was examined by incubating 500 microgram of each sphingolipid with colonic segments from mice and analysis of substrate disappearance and product formation by tandem mass spectrometry. All of the sphingolipids (including SM) disappeared over time with a substantial portion appearing as ceramide. Partially hydrolyzed intermediates (such as GluCer from LacCer or G(D3)) were not detected, which suggests that the cleavage involves colonic (or microflora) endoglycosidases. In summary, consumption of dairy SM and glycosphingolipids suppresses colonic cell proliferation and ACF formation in DMH-treated mice; hence, many categories of sphingolipids affect these key events in colon carcinogenesis.

Published
2000

11. Sphingolipids in food and the emerging importance of sphingolipids to nutrition

Author

Mariana Nikolova-Karakashian, Dirck L. Dillehay, Daniel V. Lynch, Alfred H. Merrill, Hubert W. Vesper, and Eva-Maria Schmelz

Subjects
Sphingolipids, Nutrition and Dietetics, Sphingosine, Cholesterol, Metabolite, food and beverages, Medicine (miscellaneous), Metabolism, Biology, Sphingolipid, Yeast, Diet, chemistry.chemical_compound, chemistry, Biochemistry, Colonic Neoplasms, Humans, lipids (amino acids, peptides, and proteins), Digestion, Nutritional Physiological Phenomena, Sphingomyelin, Cell Division, Food Analysis
Abstract

Eukaryotic organisms as well as some prokaryotes and viruses contain sphingolipids, which are defined by a common structural feature, i.e. , a "sphingoid base" backbone such as D-erythro-1,3-dihydroxy, 2-aminooctadec-4-ene (sphingosine). The sphingolipids of mammalian tissues, lipoproteins, and milk include ceramides, sphingomyelins, cerebrosides, gangliosides and sulfatides; plants, fungi and yeast have mainly cerebrosides and phosphoinositides. The total amounts of sphingolipids in food vary considerably, from a few micromoles per kilogram (fruits) to several millimoles per kilogram in rich sources such as dairy products, eggs and soybeans. With the use of the limited data available, per capita sphingolipid consumption in the United States can be estimated to be on the order of 150-180 mmol (approximately 115-140 g) per year, or 0.3-0.4 g/d. There is no known nutritional requirement for sphingolipids; nonetheless, they are hydrolyzed throughout the gastrointestinal tract to the same categories of metabolites (ceramides and sphingoid bases) that are used by cells to regulate growth, differentiation, apoptosis and other cellular functions. Studies with experimental animals have shown that feeding sphingolipids inhibits colon carcinogenesis, reduces serum LDL cholesterol and elevates HDL, suggesting that sphingolipids represent a "functional" constituent of food. Sphingolipid metabolism can also be modified by constituents of the diet, such as cholesterol, fatty acids and mycotoxins (fumonisins), with consequences for cell regulation and disease. Additional associations among diet, sphingolipids and health are certain to emerge as more is learned about these compounds.

Published
1999

12. Uptake and metabolism of sphingolipids in isolated intestinal loops of mice

Author

Regina C. LaRocque, Kara J. Crall, Alfred H. Merrill, Eva-Maria Schmelz, and Dirck L. Dillehay

Subjects
Ceramide, Colon, Medicine (miscellaneous), Administration, Oral, Ceramides, Tritium, Intestinal absorption, chemistry.chemical_compound, Cecum, Mice, Sphingosine, medicine, Animals, Large intestine, Tissue Distribution, Carbon Radioisotopes, Intestinal Mucosa, Gastrointestinal tract, Sphingolipids, Nutrition and Dietetics, Sphingolipid, medicine.anatomical_structure, chemistry, Biochemistry, Intestinal Absorption, Gastric Mucosa, lipids (amino acids, peptides, and proteins), Digestion, Female, Sphingomyelin
Abstract

Sphingolipids are found in all eukaryotic organisms. However, little is known about the digestion, uptake and subsequent metabolism of these constituents of food. In this study, radiolabeled sphingolipids were placed in isolated intestinal segments of female CF1 mice, and the metabolism and distribution of the radiolabel were followed. Most of the sphingomyelin was degraded to ceramide and other products in all regions of the intestine, and increasing amounts of several [3H]-labeled sphingolipids appeared in the tissues. Small amounts of the radiolabel disappeared from the intestinal loops and appeared in liver within the first 30 to 60 min implying that neither intact sphingomyelin nor its metabolites are transported very efficiently from the intestine to other organs. There were different degrees of uptake and metabolism of sphingomyelin, [4,5-3H-sphinganyl]ceramide, and [3H]sphingosine. The [3H]sphingomyelin was also administered by gavage and the appearance along the intestine measured. After 90 min, 12% was found in the cecum and colon. These results establish that some of the sphingomyelin that enters the gastrointestinal tract is hydrolyzed and taken up by the intestine, with the lipid backbone being degraded or reutilized for complex sphingolipid synthesis; however, at least a portion passes into the large intestine. The appearance of bioactive compounds throughout the gastrointestinal tract may alter the behavior of intestinal cells.

Published
1994

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