Vitamin retinoic acid

Table 16. Retinoic Acids, Vitamin D, and Type II Receptor Agonists and Antagonists...

The stmcture of vitamin A [11103-57-4] and some of the important derivatives are shown in Figure 1. The parent stmcture is aH-Zra/ j -retinol [68-26-8] and its lUPAC name is (all-E)-3,7-dimethyl-9-(2,6,6-trimethyl-l-cyclohexen-l-yl)-2,4,6,8-nonatetraen-l-ol (1). The numbering system for vitamin A derivatives parallels the system used for the carotenoids. In older Hterature, vitamin A compounds are named as derivatives of trimethyl cyclohexene and the side chain is named as a substituent. For retinoic acid derivatives, the carboxyl group is denoted as C-1 and the trimethyl cyclohexane ring as a substituent on C-9. The stmctures of vitamin A and -carotene were elucidated by Karrer in 1930 and several derivatives of the vitamin were prepared by this group (5,6). In 1935, Wald isolated a substance found in the visual pigments of the eye and was able to show that this material was identical with Karrer s retinaldehyde [116-31-4] (5) (7). 

Because of the presence of an extended polyene chain, the chemical and physical properties of the retinoids and carotenoids are dominated by this feature. Vitamin A and related substances are yellow compounds which are unstable in the presence of oxygen and light. This decay can be accelerated by heat and trace metals. Retinol is stable to base but is subject to acid-cataly2ed dehydration in the presence of dilute acids to yield anhydrovitamin A [1224-18-8] (16). Retro-vitamin A [16729-22-9] (17) is obtained by treatment of retinol in the presence of concentrated hydrobromic acid. In the case of retinoic acid and retinal, reisomerization is possible after conversion to appropriate derivatives such as the acid chloride or the hydroquinone adduct. Table 1 Hsts the physical properties of -carotene [7235-40-7] and vitamin A. 

The specific role of vitamin A in tissue differentiation has been an active area of research. The current thinking, developed in 1979, involves initial dehvery of retinol by holo-B >V (retinol-binding protein) to the cell cytosol (66). Retinol is then ultimately oxidized to retinoic acid and binds to a specific cellular retinoid-binding protein and is transported to the nucleus. Retinoic acid is then transferred to a nuclear retinoic acid receptor (RAR), which enhances the expression of a specific region of the genome. Transcription occurs and new proteins appear during the retinoic acid-induced differentiation of cells (56). 

Retinoic acid (vitamin A acid). Retinol (vitamin A... 

Retinal (Vitamin A aldehyde). Retinoic acid (Vitamin A acid), Retinyl acetate, Retinyl palmitate see entries in Chapter 4. 

Figure 10.12 Response elements for heterodimers of the nuclear receptor for ds-retinoic acid (RXR) with the receptors for vitamin D (VDR), thyroid hormone (TR) and trans-retinoic acid (RAR). The half-sites of these response elements have identical nucleotide sequences and are organized as direct repeats. They differ in the number of base pairs in the spacer region between the half-sites. This difference forms the basis for the ability of the heterodimers to discriminate between the different response elements.

Retinoids are needed for cellular differentiation and skin growth. Some retinoids even exert a prophylactic effect on preneoplastic and malignant skin lesions. Fenretlnide (54) is somewhat more selective and less toxic than retinyl acetate (vitamin A acetate) for this purpose. It is synthesized by reaction of all trans-retinoic acid (53), via its acid chloride, with g-aminophe-nol to give ester 54 (13). 

Common Name Vitamin A acid retinoic acid Structural Formula ... 

Retinoic acid (RA) describes a group of vitamin A acid (synonym Vitamin A1 acid) derivatives such as all-irans-retinoic acid (tretinoin), 9-cis-retinoic acid and 13-cis retinoic acid (isotretinoin). Retinoic acids act through binding to retinoic acid and retinoid X response elements. 

The retinoid X receptor (RXR) is a nuclear receptor that binds and is activated by certain endogenous retinoids, such as 9-cis-retinoic acid. RXR is the obligatory heterodimerization partner for a large number of nonclassic steroid nuclear receptors, such as thyroid hoimone receptor, vitamin D3 receptor, peroxisome proliferator-activated receptor and pregnane X receptor. 

Retinoids Vitamin A Carotinoids Retinylesters Retinol Retinal Retinoic acid Vitamin A acid... 

Currently, 13-cis-retinoic acid is the most studied chemopreventive agent that decreases the incidence of second primary tumors in patients with head-and-neck cancer, reverses premalignant lesions, and reduces appearance of nonmelanoma skin cancer in patients with xeroderma pigmentosum. Unfortunately, this vitamin A derivative has a significant clinical toxicity, which limits its utility in a practice setting. 

There have been many reports on the use of this method for the syntheses of vitamin A, methyl retinoic acid methyl ester, related derivatives, and polyenes300-310. 

A most important function of vitamin A is in the control of cell differentiation and mrnover. PsA-trans-retinoic acid and 9-cw-retinoic acid (Figure 45-1) regulate growth, development, and tissue differentiation they have different actions in different tissues. Like the steroid hormones and vitamin D, retinoic acid binds to nuclear receptors that bind to response elements of DNA and regulate the transcription of specific genes. There are two families of nuclear retinoid receptors the retinoic acid receptors (RARs) bind all-rrijw-retinoic acid or 9-c -retinoic acid, and the retinoid X receptors (RXRs) bind 9-cw-retinoic acid. 

Vitamin A (retinol), present in carnivorous diets, and the provitamin (P-carotene), found in plants, form retinaldehyde, utilized in vision, and retinoic acid, which acts in the control of gene expression. Vitamin D is a steroid prohormone yielding the active hormone derivative calcitriol, which regulates calcium and phosphate metaboUsm. Vitamin D deficiency leads to rickets and osteomalacia. 

Vitamin A is essential throughout life, including foetal development, but perhaps its most well researched role is that in vision where 11 -cis retinaldehyde is the initial part of the photoreceptor complex in rods and cones. Retinoic acid induces differentiation in epithelial cells and deficiency leads to... 

Arnhold, T, Ehnazar, M.M.A., and Nau, H., Prevention of vitamin A teratogenesis by phytol or phytanic acid results from reduced metabolism of retinol to the teratogenic metabolite, all frara-retinoic acid, Toxicol. Sci., 66, 274, 2002. 

In intestinal cells, carotenoids can be incorporated into CMs as intact molecules or metabolized into mainly retinol (or vitamin A), but also in retinoic acid and apoc-arotenals (see below for carotenoid cleavage reactions). These polar metabolites are directly secreted into the blood stream via the portal vein (Figure 3.2.2). Within intestinal cells, retinol can be also esterified into retinyl esters. 

Vitamin A (retinol) and retinoic acid are carotenoid oxidation compounds that are very important for human health. The main functions of retinoids relate to vision and cellular differentiation. With the exception of retinoids, it was only about 10 years ago that other carotenoid oxidation products were first thought to possibly exert biological effects in humans and were implicated in the prevention - or promotion of degenerative diseases. A review on this subject was recently published. ... 

Retinoic acid Retinol (vitamin A) oxidation Zn finger ( ) ... 

The signal crosses the membrane and activates gene transcription. Signals for soluble receptors include steroid hormones, retinoic acid, thyroid hormone, and vitamin D. 

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