Glycogen metabolism pyridoxal phosphate

Pyridoxal phosphate is a coenzyme for many enzymes involved in amino acid metabolism, especially in transamination and decarboxylation. It is also the cofactor of glycogen phosphorylase, where the phosphate group is catalytically important. In addition, vitamin Bg is important in steroid hormone action where it removes the hormone-receptor complex from DNA binding, terminating the action of the hormones. In vitamin Bg deficiency, this results in increased sensitivity to the actions of low concentrations of estrogens, androgens, cortisol, and vitamin D. 

Pantothenic acid is present in coenzyme A and acyl carrier protein, which act as carriers for acyl groups in metabolic reactions. Pyridoxine, as pyridoxal phosphate, is the coenzyme for several enzymes of amino acid metabolism, including the aminotransferases, and of glycogen phosphorylase. Biotin is the coenzyme for several carboxylase enzymes. 

The active form of vitamin Be, pyridoxai phosphate, is the most important coenzyme in the amino acid metabolism (see p. 106). Almost all conversion reactions involving amino acids require pyridoxal phosphate, including transaminations, decarboxylations, dehydrogenations, etc. Glycogen phosphory-lase, the enzyme for glycogen degradation, also contains pyridoxal phosphate as a cofactor. Vitamin Be deficiency is rare. 

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. 

Pyridoxal phosphate is an essential cofactor in the glycogen phosphorylase reaction its phosphate group acts as a general acid catalyst, promoting attack by Pj on the glycosidic bond. (This is an unusual role for this cofactor its more typical role is as a cofactor in amino acid metabolism see Fig. 18-6.)... 

All aminotransferases have the same prosthetic group and the same reaction mechanism. The prosthetic group is pyridoxal phosphate (PLP), the coenzyme form of pyridoxine, or vitamin B6. We encountered pyridoxal phosphate in Chapter 15, as a coenzyme in the glycogen phosphorylase reaction, but its role in that reaction is not representative of its usual coenzyme function. Its primary role in cells is in the metabolism of molecules with amino groups. 

Vitamin Be has a central role in the metabolism of amino acids in transaminase reactions (and hence the interconversion and catabolism of amino acids and the synthesis of nonessential amino acids), in decarboxylation to yield biologically active amines, and in a variety of elimination and replacement reactions. It is also the cofactor for glycogen phosphorylase and a variety of other enzymes. In addition, pyridoxal phosphate, the metabolically active vitamer, has a role in the modulation of steroid hormone action and the regulation of gene expression. 

Unlike other pyridoxal phosphate-dependent enzymes, in which it is the carbonyl group that is essential for catalysis, the internal Schiff base between pyridoxal phosphate and lysine in glycogen phosphorylase can be reduced with sodium borohydride without affecting catalytic activity. Thus, while pyridoxal phosphate is essential for phosphorylase activity, it does not act by the same kind of mechanism as in amino acid metabolism. 

INTERRELATIONSHIPS BETWEEN METABOLISM OF GLYCOGEN PHOSPHORYLASE AND PYRIDOXAL PHOSPHATE—IMPLICATIONS IN MCARDLE S DISEASE... 

Biochemical functions pyridoxal phosphate is essential for aminotransferase (transamination) reactions in amino aoid metabolism and so is needed both for biosynthesis of the non-essential amino acids and also for amino acid oxidation for energy metabolism. Also an Important component of glycogen phosphorylase... 

Vitamin Bg occurs in the three forms shown below. In the form of pyridoxal phosphate the vitamin acts as a coenzyme for more than sixty enzymes concerned with amino acid metabolism, e.g. aminotransferases, decarboxylases, deaminases and desulphurases. It also plays a role in the absorption of amino acids and is a constituent of glycogen phosphorylase. 

The metabolically active vitamer is pyridoxal phosphate, which is involved in many reactions of amino acid metabolism, where the carbonyl group is the reactive moiety, in glycogen phosphorylase, where it is the phosphate group that is important in catalysis, and in the release of hormone receptors from tight nuclear binding, where again it is the carbonyl group that is important. 

Vitamin Bg consists of pyridoxine (PN) and five related compounds, namely pyridoxal (PL), pyridoxamine (PM) and their respective 5 -phosphates (PEP, PNP and PMP). PLP is the major form in the human body (Figure 42.1). Vitamin Bg functions as a coenzyme in more than 100 enzymatic reactions involved in the metabolism of amino acids, glycogen and sphingoid bases. 

---