Pyridoxine, synthesis

These conditions of pH and N source were very specific, since the new conditions only permitted pyridoxin synthesis. The mutants requiring thiamin and p-aminobenzoic acid were not able to synthesize these compounds... 

In the following decades, chemists tried to utilize more and more the knowledge on reactions which had already been gained. A number of landmark syntheses represent the change to modern chemistry, such as the synthesis of the estrogenic steroid equilenin (W. Bachmann, 1939), of pyridoxine (K. Folkers, 1939), and of quinine (R.B. Woodward, W. von E. Doering, 1944) [23]. 

The current paradigm for B syntheses came from the first report in 1957 of a synthesis of pyridines by cycloaddition reactions of oxazoles (36) (Fig. 5). This was adapted for production of pyridoxine shordy thereafter. Intensive research by Ajinomoto, BASF, Daiichi, Merck, Roche, Takeda, and other companies has resulted in numerous pubHcations and patents describing variations. These routes are convergent, shorter, and of reasonably high throughput. 

An example of this methodology was its use in the synthesis of vitamin Be, pyridoxine 12. Cycloaddition of oxazole 9, prepared from ethyl A-acetylalanate and P2O5, with maleic anhydride initially gave 10. Upon exposure to acidic ethanol, the oxabicyclooctane system fragments to afford pyridine 11. Reduction of the ester substituents with LiAlIU generated the desired product 12. 

Inter- and intramolecular amine coupling was prevented by the use of hydrogen chloride in a synthesis of pyridoxine 33)... 

Rice bran is the richest natural source of B-complex vitamins. Considerable amounts of thiamin (Bl), riboflavin (B2), niacin (B3), pantothenic acid (B5) and pyridoxin (B6) are available in rice bran (Table 17.1). Thiamin (Bl) is central to carbohydrate metabolism and kreb s cycle function. Niacin (B3) also plays a key role in carbohydrate metabolism for the synthesis of GTF (Glucose Tolerance Factor). As a pre-cursor to NAD (nicotinamide adenine dinucleotide-oxidized form), it is an important metabolite concerned with intracellular energy production. It prevents the depletion of NAD in the pancreatic beta cells. It also promotes healthy cholesterol levels not only by decreasing LDL-C but also by improving HDL-C. It is the safest nutritional approach to normalizing cholesterol levels. Pyridoxine (B6) helps to regulate blood glucose levels, prevents peripheral neuropathy in diabetics and improves the immune function. 

The other enzyme involved in the synthesis of 5-HT, aromatic L-amino acid decarboxylase (AADC) (EC 4.1.1.28), is a soluble pyridoxal-5 -phosphate-dependent enzyme, which converts 5-HTP to 5-HT (Fig. 13-5). It has been demonstrated that administration of pyridoxine increases the rate of synthesis of 5-HT in monkey brain, as revealed using position emission tomography (this technique is discussed in Ch. 58). This presumably reflects a regulatory effect of pyridoxine on AADC activity and raises the interesting issue of the use of pyridoxine supplementation in situations associated with 5-HT deficiency. 

Group-transfer reactions often involve vitamins3, which humans need to have in then-diet, since we are incapable of realizing their synthesis. These include nicotinamide (derived from the vitamin nicotinic acid) and riboflavin (vitamin B2) derivatives, required for electron transfer reactions, biotin for the transfer of C02, pantothenate for acyl group transfer, thiamine (vitamin as thiamine pyrophosphate) for transfer of aldehyde groups and folic acid (as tetrahydrofolate) for exchange of one-carbon fragments. Lipoic acid (not a vitamin) is both an acyl and an electron carrier. In addition, vitamins such as pyridoxine (vitamin B6, as pyridoxal phosphate), vitamin B12 and vitamin C (ascorbic acid) participate as cofactors in an important number of metabolic reactions. 

Pyridoxine (B ) Pyridoxal-P (PLP) Aminotransferases (transaminase) AST (GOT), ALT (GPT) 8-Aminolevulinate synthase Protein catabolism Heme synthesis MCC isoniazid therapy Sideroblastic anemia Cheilosis or stomatitis (cracking or scaling of lip borders and corners of the mouth) Convulsions... 

Substrate and energy source for synthesis of 6-aminolevulinate in the heme pathway. Converted to glutamate in a reaction requiring the coenzyme form of pyridoxine (Bg)... 

Answer D. Sideroblastic anemia in a person being treated for tuberculosis (with isoni-azid) is most likely due to vitamin deficiency. 6-Aminolevulinate synthase, the first enzyme in heme synthesis requires vitamin Bj (pyridoxine). 

Oxidation of N-acyl-2-aminoinethylflirans leads to an intermediate that can be converted by treatment with acid to a 3-hydroxypyridine [180, 181]. Such a transformation is used as one stage in a synthesis of pyridoxine [181,182]. 

Sideroblastic anemia is characterized by excessive iron in the cells that cannot be incorporated into porphyrin to form heme. Although it is rare, the most common cause of sideroblastic anemia is alcoholism and pyridoxine deficiency. Pyridoxine is required for the formation of pyri-doxal phosphate, a coenzyme in porphyrin synthesis. 

Mechanism of Action Acts as a coenzyme for various metabolic functions, including metabolism of proteins, carbohydrates, and fats. Aids in the breakdown of glycogen and in the synthesis of gamma-aminobutyric acid in the CNS. Therapeutic Effect Prevents pyridoxine deficiency. Increases the excretion of certain drugs, such as iso-niazid, that are pyridoxine antagonists. 

Isoniazid Inhibits synthesis of mycolic acids, an essential component of mycobacterial cell walls Bactericidal activity against susceptible strains of M tuberculosis First-line agent for tuberculosis treatment of latent infection less active against other mycobacteria Oral, IV hepatic clearance (half-life 1 h) reduces levels of phenytoin Toxicity Flepatotoxic, peripheral neuropathy (give pyridoxine to prevent)... 

Vitamin B6 occurs naturally in three related forms pyridoxine (6.26 the alcohol form), pyridoxal (6.27 aldehyde) and pyridoxamine (6.28 amine). All are structurally related to pyridine. The active co-enzyme form of this vitamin is pyridoxal phosphate (PLP 6.29), which is a co-factor for transaminases which catalyse the transfer of amino groups (6.29). PLP is also important for amino acid decarboxylases and functions in the metabolism of glycogen and the synthesis of sphingolipids in the nervous system. In addition, PLP is involved in the formation of niacin from tryptophan (section 6.3.3) and in the initial synthesis of haem. 

Diels-Alder reactions.2 This vinyl sulfone has been used as an acetylene equivalent in a new synthesis of vitamin Be. Thus 1 undergoes a Diels-Alder reaction with 4-methyloxazole (2) to give a pyridoxine derivative (3) with elimination of mcthanesulfinic acid. The product is converted into the vitamin (4) in three simple steps. 

The most important derivatives of 2,5-dihydrofuran are the 2,5-dialkoxy and 2,5-diacetoxy compounds which are easily prepared from furans (Section 3.11.2.3). Their vast utility is as synthetic equivalents of malealdehyde and its derivatives (60MI31100). Suitable intermediates for Robinson-Schopf synthesis have been obtained in this way. Pyridazines are readily obtained (Scheme 121), and 3-pyridinols are available from 2-furylmethanamines (Scheme 122). This approach has been used in a synthesis of pyridoxine. The 2,5-diacetoxy... 

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