Meena Somanchi scite author profile

Dietary beta-carotene has been shown to have cancer chemopreventive action on the basis of epidemiologic evidence and studies in animals. Because the anticarcinogenic property of beta-carotene may be exerted per se, it is desirable to achieve the maximum absorption and accumulation of intact beta-carotene in various parts of the body. Therefore the effects of dietary taurocholate, fat, protein, and carbohydrate on the absorption, accumulation, and fate of dietary beta-carotene (3.730 nmol/g diet) in selected tissues of ferrets were explored. Taurocholate (0.2-1.0% wt/wt) and fat (6-23% wt/wt) caused two- to threefold (p < 0.05) increases in the absorption and accumulation of beta-carotene in the liver, lungs, and adipose tissue in a dose-dependent manner. In contrast, neither dietary protein (10-40% wt/wt) nor carbohydrate (25-55% wt/wt) affected the absorption and accumulation of beta-carotene in various tissues. Significantly, taurocholate, 23% fat, or 40% protein also markedly increased the amounts of hepatic retinol and retinyl esters derived from dietary beta-carotene. These results indicate that dietary taurocholate, fat, and high protein have a marked influence on the exposure of beta-carotene to intestinal carotene cleavage enzyme or its activity. Thus an ideal combination of dietary components (wt/wt) in ferrets for the maximal absorption and accumulation of beta-carotene in different tissues is 0.5% taurocholate and 13.4% fat, whereas 1% taurocholate, 23% fat, or 40% protein stimulates its conversion to vitamin A.

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Regulatory enzymes of lipid metabolism in LA/N-cp rats

Ghosh

Somanchi

Lakshman

1995

The Journal of Nutritional Biochemistry

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Cholesterogenesis, lipogenesis, cholesterol degradation to bile acids, and histopathology of the liver in LA/N-cp obese rats

Somanchi

Ghosh

Redman

et al. 1997

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in the obese strain. 6 Our ongoing studies 7 clearly showed that Various lipid parameters were determined in lean conthe activities of key regulatory enzymes involved in fatty trol and LA/NIH-corpulent (LA/N-cp) rats, a normotenacid and cholesterol synthesis, namely, acetyl coenzyme A sive strain showing metabolic characteristics associated carboxylase, fatty acid synthetase and 3-hydroxy-3-methylwith human Type IV hyperlipidemia. Hepatic and glutaryl coenzyme A reductase were markedly increased, plasma total cholesterol, high density lipoproteins whereas the activity of cholesterol 7a-hydroxylase, the rate (HDL) cholesterol and triglycerides were significantly limiting enzyme in the degradation of cholesterol to bile higher in the obese group than in the control group.acids, was decreased in the corpulent obese strain of rat as Depending upon whether the data were expressed as compared with its lean counterpart. per gram tissue or per organ, the rates of de novo fattyIn an attempt to see whether these findings with the lipoacid synthesis in the liver and adipose tissue were genic and cholesterol degradative enzymes are supported by higher by 61% to 127% (P õ .05) and 79% to 355% (P õ in vivo data, the present study was undertaken to determine .05), respectively, in the obese group compared with the the following parameters in the obese and lean LA/N-cp rat: lean control group. Similarly, hepatic rate of cholesterol 1) the liver and plasma cholesterol and triglycerides, includsynthesis was higher by 46% to 107% (P õ .05) in the ing plasma high density lipoprotein (HDL) cholesterol, 2) abobese animals compared with the lean ones. In vivo hesolute rates of hepatic fatty acid in the liver and adipose patic rate of HDL 2 cholesterol degradation to bile acids tissue and hepatic cholesterol synthesis using tritiated water, was lower in the obese group by 48% to 63% (P õ .05).3) in vivo hepatic rate of HDL 2 cholesterol degradation to bile This was confirmed in the perfused liver in spite of the acids, 4) in vitro hepatic uptake of cholesterol from HDL 2 and fact that cholesterol uptake from HDL 2 was 3-to 4-fold its degradation to bile acids, and 5) correlation of these rehigher in the obese group. These changes in lipid paramsults with histopathological changes in the liver. A previous eters of the obese animals were neither caused by hyperstudy 8 showed the existence of sexual dimorphism in LA/N phagia because they were pair-fed with the control corpulent strain, with the female showing much higher very group nor caused by increased rate of food consumption low density lipoprotein and hyperlipidemia than the males. because they were meal-fed. At the same time, all these Therefore, we chose LA/N females for this study. lipid parameters were 17% to 20% higher in ad libitumfed obese than in pair-fed obese group. Histopathologi- MATERIALS AND METHODScal evaluation of the livers in the obese and control groups also showed prominent lipid droplets in the cyto- in obese LA/cp rats have been reported. 5 The increased levels...

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Meena Somanchi

The Facilitated Early Enteral and Dietary Management Effectiveness Trial in Hospitalized Patients With Malnutrition

The effects of dietary taurocholate, fat, protein, and carbohydrate on the distribution and fate of dietary β‐carotene in ferrets

Regulatory enzymes of lipid metabolism in LA/N-cp rats

Cholesterogenesis, lipogenesis, cholesterol degradation to bile acids, and histopathology of the liver in LA/N-cp obese rats

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