Retinol metabolism in rats with low vitamin A status: a compartmental model

A compartmental model was developed to describe the metabolism of vitamin A in rats with low vitamin A status maintained by a low dietary intake of vitamin A (approximately 2 micrograms retinol equivalents/day). After the IV bolus injection of [3H]retinol in its physiological transport complex, trac...

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Published in	Journal of lipid research Vol. 31; no. 9; pp. 1535 - 1548
Main Authors	Lewis, K C, Green, M H, Green, J B, Zech, L A
Format	Journal Article
Language	English
Published	United States Elsevier 01.09.1990
Subjects	550501 - Metabolism- Tracer Techniques ANIMALS BASIC BIOLOGICAL SCIENCES blood plasma CARBOXYLIC ACID ESTERS carence en vitamine CHROMATOGRAPHY Chromatography, High Pressure Liquid Computer Simulation COMPUTERIZED SIMULATION deficiencia de vitaminas DIET DISTRIBUTION ESTERS faeces feces Feces - chemistry heces HYDROGEN COMPOUNDS ISOTOPE APPLICATIONS LIQUID COLUMN CHROMATOGRAPHY Male MAMMALS MATHEMATICAL MODELS METABOLISM metabolisme metabolismo METABOLITES modele modelos Models, Biological NUTRITIONAL DEFICIENCY ORGANIC COMPOUNDS orina plasma sanguin plasma sanguineo RATS Rats, Inbred Strains RETINOIC ACID retinol RODENTS SEPARATION PROCESSES SIMULATION Terminology as Topic TISSUE DISTRIBUTION TRACER TECHNIQUES Tritium TRITIUM COMPOUNDS urine VERTEBRATES VITAMIN A Vitamin A - metabolism Vitamin A - pharmacokinetics Vitamin A Deficiency - blood Vitamin A Deficiency - metabolism Vitamin A Deficiency - urine vitamin deficiencies VITAMINS
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Abstract	A compartmental model was developed to describe the metabolism of vitamin A in rats with low vitamin A status maintained by a low dietary intake of vitamin A (approximately 2 micrograms retinol equivalents/day). After the IV bolus injection of [3H]retinol in its physiological transport complex, tracer and trace data were obtained from plasma, organs (liver, kidneys, small intestine, eyes, adrenals, testes, lungs, carcass), and tracer data were obtained from urine and feces. The dietary protocol developed for this study resulted in animals having plasma vitamin A levels less than 10 micrograms retinol/dl and total liver vitamin A levels of approximately 1 microgram retinol equivalent. Four compartments were used to model the plasma: one to describe retinol, one to describe the nonphysiological portion of the dose, and two to simulate polar metabolites derived from retinol. The liver required two compartments and a delay, the carcass (small intestine, eyes, adrenals, testes, and lungs, plus remaining carcass) required three compartments, and the kidneys required two. The model predicted a vitamin A utilization rate of 1.65 micrograms retinol equivalents/day with the urine and feces accounting for most of the output. The plasma retinol turnover rate was approximately 20 micrograms retinol equivalents/day; this was 12 times greater than the utilization rate. This indicated that, of the large amount of retinol moving through the plasma each day, less than 10% of this was actually being irreversibly utilized. Similarly, as compared to the whole-body utilization rate, there was a relatively high turnover rate of retinol in the kidneys, carcass, and liver (9.0, 8.2, and 5.8 micrograms retinol equivalents/day, respectively), coupled with a high degree of recycling of vitamin A through these tissues. Of the total vitamin A that entered the liver from all sources including the diet, approximately 86% was mobilized into the plasma. Similarly, of the vitamin A that entered the carcass, approximately 76% was returned to the plasma. All of the retinol that entered the kidneys was modeled as recycling to the plasma. The present studies provide quantitative and descriptive evidence of an efficient metabolism of vitamin A from absorption through turnover and utilization in rats with very low vitamin A status. Furthermore, although their body stores of vitamin A were extremely low, these rats maintained a high level of recycling of vitamin A throughout the body.
AbstractList	A compartmental model was developed to describe the metabolism of vitamin A in rats with low vitamin A status maintained by a low dietary intake of vitamin A (approximately 2 micrograms retinol equivalents/day). After the IV bolus injection of [3H]retinol in its physiological transport complex, tracer and trace data were obtained from plasma, organs (liver, kidneys, small intestine, eyes, adrenals, testes, lungs, carcass), and tracer data were obtained from urine and feces. The dietary protocol developed for this study resulted in animals having plasma vitamin A levels less than 10 micrograms retinol/dl and total liver vitamin A levels of approximately 1 microgram retinol equivalent. Four compartments were used to model the plasma: one to describe retinol, one to describe the nonphysiological portion of the dose, and two to simulate polar metabolites derived from retinol. The liver required two compartments and a delay, the carcass (small intestine, eyes, adrenals, testes, and lungs, plus remaining carcass) required three compartments, and the kidneys required two. The model predicted a vitamin A utilization rate of 1.65 micrograms retinol equivalents/day with the urine and feces accounting for most of the output. The plasma retinol turnover rate was approximately 20 micrograms retinol equivalents/day; this was 12 times greater than the utilization rate. This indicated that, of the large amount of retinol moving through the plasma each day, less than 10% of this was actually being irreversibly utilized. Similarly, as compared to the whole-body utilization rate, there was a relatively high turnover rate of retinol in the kidneys, carcass, and liver (9.0, 8.2, and 5.8 micrograms retinol equivalents/day, respectively), coupled with a high degree of recycling of vitamin A through these tissues. Of the total vitamin A that entered the liver from all sources including the diet, approximately 86% was mobilized into the plasma. Similarly, of the vitamin A that entered the carcass, approximately 76% was returned to the plasma. All of the retinol that entered the kidneys was modeled as recycling to the plasma. The present studies provide quantitative and descriptive evidence of an efficient metabolism of vitamin A from absorption through turnover and utilization in rats with very low vitamin A status. Furthermore, although their body stores of vitamin A were extremely low, these rats maintained a high level of recycling of vitamin A throughout the body. A compartmental model was developed to describe the metabolism of vitamin A in rats with low vitamin A status maintained by a low dietary intake of vitamin A (approximately 2 micrograms retinol equivalents/day). After the IV bolus injection of (3H)retinol in its physiological transport complex, tracer and trace data were obtained from plasma, organs (liver, kidneys, small intestine, eyes, adrenals, testes, lungs, carcass), and tracer data were obtained from urine and feces. The dietary protocol developed for this study resulted in animals having plasma vitamin A levels less than 10 micrograms retinol/dl and total liver vitamin A levels of approximately 1 microgram retinol equivalent. Four compartments were used to model the plasma: one to describe retinol, one to describe the nonphysiological portion of the dose, and two to simulate polar metabolites derived from retinol. The liver required two compartments and a delay, the carcass (small intestine, eyes, adrenals, testes, and lungs, plus remaining carcass) required three compartments, and the kidneys required two. The model predicted a vitamin A utilization rate of 1.65 micrograms retinol equivalents/day with the urine and feces accounting for most of the output. The plasma retinol turnover rate was approximately 20 micrograms retinol equivalents/day; this was 12 times greater than the utilization rate. This indicated that, of the large amount of retinol moving through the plasma each day, less than 10% of this was actually being irreversibly utilized. Similarly, as compared to the whole-body utilization rate, there was a relatively high turnover rate of retinol in the kidneys, carcass, and liver, coupled with a high degree of recycling of vitamin A through these tissues. Of the total vitamin A that entered the liver from all sources including the diet, approximately 86% was mobilized into the plasma.
Author	Green J.B Lewis K.C Green M.H Zech L.A
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CorporateAuthor	Institut Agronomique et Veterinaire Hassan 2, Rabat (Morocco) National Cancer Institute, National Institutes of Health, Bethesda, MD
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Snippet	A compartmental model was developed to describe the metabolism of vitamin A in rats with low vitamin A status maintained by a low dietary intake of vitamin A...
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SubjectTerms	550501 - Metabolism- Tracer Techniques ANIMALS BASIC BIOLOGICAL SCIENCES blood plasma CARBOXYLIC ACID ESTERS carence en vitamine CHROMATOGRAPHY Chromatography, High Pressure Liquid Computer Simulation COMPUTERIZED SIMULATION deficiencia de vitaminas DIET DISTRIBUTION ESTERS faeces feces Feces - chemistry heces HYDROGEN COMPOUNDS ISOTOPE APPLICATIONS LIQUID COLUMN CHROMATOGRAPHY Male MAMMALS MATHEMATICAL MODELS METABOLISM metabolisme metabolismo METABOLITES modele modelos Models, Biological NUTRITIONAL DEFICIENCY ORGANIC COMPOUNDS orina plasma sanguin plasma sanguineo RATS Rats, Inbred Strains RETINOIC ACID retinol RODENTS SEPARATION PROCESSES SIMULATION Terminology as Topic TISSUE DISTRIBUTION TRACER TECHNIQUES Tritium TRITIUM COMPOUNDS urine VERTEBRATES VITAMIN A Vitamin A - metabolism Vitamin A - pharmacokinetics Vitamin A Deficiency - blood Vitamin A Deficiency - metabolism Vitamin A Deficiency - urine vitamin deficiencies VITAMINS
Title	Retinol metabolism in rats with low vitamin A status: a compartmental model
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