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Vitamin A
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Retinoids Precursors of vitamin A Retin o l 1- Retin o l found in animal tissues It is found in animal tissues as a retinyl ester with long-chain fatty acids. Retin a l 2- Retin a l The aldhyde derived from the oxidation of retinol. Retinol and retinal can be interconverted Retinol and retinal can be interconverted. Retin oic acid 3- Retin oic acid derived from retinal The acid derived from retinal. It can not be reduced in the body, and therefore, can not give rise to either retinal or retinol -carotene 4- -carotene Plant Plant foods contain -carotene, which can be cleaved in the intestine to two molecules of retinal two molecules of retinal In humans, the conversion is insufficient, and vitamin A activity of -carotene is only about one sixth(1/6) of that of retinol
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Retinol Retinol (Animal Source) (Animal Source) Retinal -carotene (Plant Source) (Plant Source) Retinoic Acid Retinoic Acid RETINOIDSPRECURSOROF VITAMIN A
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Absorption & Transport of vitamin A Transport to the Liver I- Retinol is derived from (DIET SOURCES) DIET Retinyl esters (animal source) 1- DIET Retinyl esters (animal source) which are hydrolyzed in the intestinal mucosa, retinol releasing retinol and free fatty acids DIET -carotenes (plant source) 2- DIET -carotenes (plant source) retinalretinol which is cleaved 2 retinal retinol retinyl esters II- Retinol is esterified with fatty acids to give retinyl esters chylomicrons III- Retinyl esters are collected by the chylomicrons into the lymphatic system. liver IV- Retinyl esters contained in the chylomicrons are taken up and stored by the liver
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Release from the Liver plasma retinol binding protein (RBP) When needed, retinol is released from the liver and transported to extra hepatic tissue by plasma retinol binding protein (RBP) The retinol - RBP complex attaches to specific receptors on the surface of the cells of peripheral tissues permitting retinol to enter
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Mechanism of Action of vitamin A Retin o l is oxidized to retin oic acid inside cells. Retin oic acid binds with high-affinity to specific receptor proteins present in the nucleus of target tissue, such as epithelial cell. The activated retinoic acid - receptor complex interacts with nuclear chromatin (genes) to stimulate retinoid-specific mRNA synthesis, resulting in the production of specific proteins that mediate several physiological functions. e.g. retinoids control the expression of keratin gene in most epithelial tissues.
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Physiological Functions of Vitamin A Vision Vision Growth Growth Reproduction Reproduction Epithelial cell maintenance Epithelial cell maintenance
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Functions of Vitamin A Vision 1- Vision Vitamin A is a component of the visual pigments of rod and cone cells. Rhodopsin, the visual pigment of the rod cells in the retina, (for vision in dim light) consists of 11-cis retinal specially bound to the protein opsin. When rhodopsin is exposed to light, a series of photochemical isomerization occurs, which results in release of all trans retinal and opsin (with bleaching of the visual pigment). This process triggers a nerve impulse that is transmitted by the optic nerve to the brain. Regeneration of rhodopsin requires isomerization of all trans retinal back to 11-cis retinal, which spontaneously combines with opsin to form rhodopsin.
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Growth 2- Growth Vitamin A is essential for normal growth of cells (by synthesis of important proteins) bone growth is slow in vitamin A deficiency. Animals deprived of vitamin A suffers keratinzation of taste buds leading to losing of their appetites.
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Reproduction 3- Reproduction are essential for normal reproduction Retinol & retinal are essential for normal reproduction 1 - supporting spermatogenesis in males 2- preventing fetal resorption in females 2- preventing fetal resorption in females Retinoic acid is inactive in maintaining reproduction & the visual cycle, BUT promotes growth. Thus, retinoic acids given only since birth to animals, leads to blindness & sterility. Epithelial cells maintenance 4- Epithelial cells maintenance Vitamin A is essential for normal differentiation of epithelial tissues and mucus secretion. Vitamin A is essential for normal differentiation of epithelial tissues and mucus secretion.
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Diet Sources of Vitamin A retinol animal source Sources of retinol (retinyl esters) : animal source Liver, kidney, cream, butter & egg yolk carotenes plant source Sources of carotenes (precursors of vitamin A) : plant source Yellow & dark green vegetables & fruits Requirement for Vitamin A One RE (retinol equivalents) = 1 g of retinol 12 g of -carotene 24 g of other carotenoids RDA for adults RDA for adults 900 RE for males 700 RE for females
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Clinical indications of vitamin A Dietary deficiency 1- Dietary deficiency Vitamin A, administered as retinol or retinyl esters, is used to treat patients deficient in the vitamin ( not retinoic acid) Night blindness One of the earliest signs of vitamin A deficiency Difficulty in seeing in dim light. Prolonged deficiency leads to irreversible loss of visual cell. (affection of rods of retina)Xerophthalmia Severe deficiency of vitamin A Pathological dryness of the epithelium conjunctiva & cornea. It may end in corneal ulcerations and blindness.
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Acne & Psoriasis 2- Acne & Psoriasis Dermatologic problems of acne and psoriasis are effectively treated with retinoic acid or its derivatives. Mild cases of acne Mild cases of acne is treated by topical application of tretinoin (All- trans retinoic acid) which is too toxic for systemic administration. Severe recalcitrant cystic acne Severe recalcitrant cystic acne unresponsive to conventional therapies, isotretinoin (13-cis retinoic acid) is administered orally
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Prevention of chronic diseases 3- Prevention of chronic diseases Populations consuming diets high in -carotene show decreased incidence of heart diseases & lung & skin cancer Consumption of foods rich in -carotene is associated with reduced risk of cataracts and macular degeneration
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Toxicity of Retinoids Vitamin A excess (hypervitaminosis A syndrome) I. Vitamin A excess (hypervitaminosis A syndrome) Amounts exceeding 7.5 mg/day of retinol Excessive intake of vitamin A may cause the followings: 1- Excessive intake of vitamin A may cause the followings: dry skin & pruiritis are early signs liver enlarged, cirrhotic increased intracranial pressure (mimic symptoms of brain tumours e.g. headache etc…) Pregnant females 2- Pregnant females should not ingest excessive amounts of vitamin A because of its potential for causing congenital malformations in developing fetus.
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Isotretinoin drug ( 13-cis retinoic acid ) II. Isotretinoin drug ( 13-cis retinoic acid ) 1- Teratogenic So, absolutely contraindicated in women with childbearing potential. Pregnancy should be excluded before initiation of treatment & adequate contraceptive (birth control) must be used 2- Risk of coronary heart diseases Prolonged treatment with 13-cis retinoic acid leads to hyperlipidemia & increase in LDL/HDL ratio with increased risk of coronary heart diseases.
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