Carotenoids uptake and metabolism in the retina.

January 1997

Leung Yiu Fai Ivan. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1997. / Includes bibliographical references (leaves 41-46). / Acknowledgements --- p.ii / Table of contents --- p.iii / List of tables --- p.vi / List of figures --- p.vii / List of Abbreviations --- p.xii / Abstract --- p.xiii / Chapter I. --- INTRODUCTION --- p.1 / Chapter A. --- Current knowledge on carotenoids --- p.1 / Chapter 1. --- Chemistry --- p.1 / Chapter 2. --- Occurrence --- p.3 / Chapter 3. --- Metabolism --- p.6 / Chapter 4. --- Biological function --- p.8 / Chapter B. --- Statement of the problem --- p.10 / Chapter II. --- MATERIAL AND METHODS --- p.11 / Chapter A. --- Materials --- p.11 / Chapter 1. --- Animals --- p.11 / Chapter 2. --- Human samples --- p.11 / Chapter 3. --- Chemicals --- p.12 / Chapter 4. --- HPLC Apparatus --- p.12 / Chapter B. --- Methods --- p.14 / Chapter 1. --- Animal specimens --- p.14 / Chapter (a) --- Carotenoid supplement --- p.14 / Chapter (b) --- Tissue preparation --- p.14 / Chapter 2. --- Human specimens --- p.15 / Chapter 3. --- Extraction of lipid component --- p.15 / Chapter (a) --- Retina --- p.15 / Chapter (b) --- Serum or subretinal fluid --- p.16 / Chapter (c) --- Liver --- p.16 / Chapter 4. --- Analytical methods --- p.17 / Chapter (a) --- Isocratic elution --- p.17 / Chapter (b) --- Gradient elution --- p.17 / Chapter III. --- RESULTS --- p.18 / Chapter A. --- Selection of chromatographic method for carotenoid analysis --- p.18 / Chapter 1. --- Effect of dioxane concentration on the retention time of carotenoids --- p.18 / Chapter (a) --- Gradient elution --- p.18 / Chapter (b) --- Isocratic elution --- p.18 / Chapter 2. --- Chromatograms of carotenoids and retinoids of a selected method for routine analysis --- p.19 / Chapter (a) --- Carotenoids --- p.20 / Chapter (b) --- Retinoids --- p.21 / Chapter B. --- Application of the selected method to study carotenoid in human and rats --- p.22 / Chapter 1. --- Study in human serum and subretinal fluid --- p.22 / Chapter (a) --- Serum --- p.22 / Chapter (b) --- Subretinal fluid --- p.22 / Chapter 2. --- Study in rats tissues --- p.24 / Chapter (a) --- Liver --- p.24 / Chapter (b) --- Serum --- p.26 / Chapter (c) --- Retina --- p.28 / Chapter C. --- Influence of dietary carotenoids on retinol concentration in rats --- p.31 / Chapter 1 --- Serum --- p.31 / Chapter 2 --- Retina --- p.31 / Chapter IV. --- DISCUSSION --- p.32 / Chapter A. --- Chromatographic analysis of carotenoids and retinoids --- p.32 / Chapter B. --- Carotenoid study in human and rats --- p.33 / Chapter 1. --- Carotenoids in human tissues --- p.33 / Chapter (a) --- Serum --- p.33 / Chapter (b) --- Subretinal fluid --- p.34 / Chapter 2. --- Dietary supplement of carotenoids to rats --- p.35 / Chapter (a) --- Choice of animal and types of carotenoids --- p.35 / Chapter (b) --- Carotenoids uptake into rats tissues --- p.36 / Chapter (c) --- Effect of dietary carotenoids on retinol concentration in rat tissues --- p.38 / Chapter V. --- CONCLUSION --- p.39 / Chapter VI. --- REFERENCES --- p.41 / Chapter VII. --- TABLES --- p.47 / Chapter VIII. --- FIGURES --- p.56

Retina

Carotenoids--metabolism

Kinetics of beta-carotene accumulatin and retention in exfoliated cells from supplemented individuals

Cameron, Linda Margaret

January 1987

Human cancer intervention trials have found beta-carotene to be effective in reducing the genotoxic damage to oral mucosa cells that resulted from carcinogen exposure. Design of intervention trials using beta-carotene has so far lacked an important component, knowledge of the accumulation and retention of this putative chemopreventive agent in the tissues of interest. The factors of dose, timing of administration of supplements, and the effects of confounding factors are aspects of trial design that demand an understanding of the kinetics of beta-carotene in human tissues. The oral mucosa is the only tissue so far that has been investigated for beta-carotene levels in exfoliated cells. A non-invasive technique for sample collection, suitable for sampling populations, in combination with a highly sensitive assay for beta-carotene, is appropriate for use with other epithelial sites that may be targets of intervention trials; one such site is the uro-genital tract. This thesis describes preliminary investigations towards design of an intervention trial with beta-carotene directed at cells of the uro-genital tract. Initial studies established the feasibility of measuring beta-carotene in uro-genital tract cells, and verified that the technical variation in the assays of oral mucosa cells and urogenital tract cells was less than the variation between individuals in the study population. A short-term (four-day) supplementation trial compared the effects of three doses of beta-carotene, given orally, on the beta-carotene content of exfoliated oral mucosa cells. Ingestion of 360 mg, 180 mg, and 90 mg of beta-carotene resulted in a rise in median cell beta-carotene levels from 1.8, 1.5, and 1.0 ng/10⁶ cells to 9.2, 7.7, and 3.9 ng/10⁶ cells, respectively, one week after the loading. Due to variation in response, the effects of the three doses were not significantly different from one another. The elevation in beta-carotene levels persisted for 2 weeks after the loading. The kinetic profile of the accumulation and retention of beta-carotene in uro-genital tract cells differed markedly from that of oral mucosa cells, in individuals who were supplemented for four weeks with a field trial dosage of beta-carotene. Median beta-carotene levels in uro-genital tract cells of beta-carotene-supplemented individuals increased from 0.6 ng/10⁶ cells to 2.8 ng/10⁶ cells during the loading period, a level significantly higher than that of the placebo group, but declined immediately after the end of the loading to levels that were not significantly elevated. In contrast, beta-carotene in exfoliated oral mucosa cells remained at significantly elevated levels until four weeks after the cessation of loading. Tissue-specific features of beta-carotene accumulation in response to its administration need to be taken into consideration when designing intervention strategies that use beta-carotene. / Medicine, Faculty of / Pathology and Laboratory Medicine, Department of / Graduate

Carotenes -- Metabolism

Carotenoids -- metabolism

β-Apocarotenoids: Occurrence in Cassava Biofortified with β-Carotene and Mechanisms of Uptake in Caco-2 Intestinal Cells

Durojaye, Boluwatiwi Olalekan

09 October 2015

No description available.

Nutrition

Biochemistry

Biofortification

HPLC-tandem mass spectrometry

cell uptake

carotenoids metabolism