Michael J. Carrington scite author profile

Michael J. Carrington

5Publications

24Citation Statements Received

39Citation Statements Given

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Affiliations

University of Cambridge, University of Reading

Publications

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The inhibition of protein-lysine 6-oxidase by various lathyrogens. Evidence for two different mechanisms

Levene¹,

Carrington²

1985

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Lathyrogens decrease collagen and elastin cross-linking by inhibiting lysine oxidase. The lathyrogens isoniazid and semicarbazide decrease liver pyridoxal phosphate and are teratogenic; all their effects are reversed by pyridoxal. beta-Aminopropionitrile, another lathyrogen, does not affect liver pyridoxal phosphate, and its lathyrogenic and teratogenic effects are not reversed by pyridoxal. Time courses of these effects differ greatly, suggesting enzyme inhibition by different mechanisms.

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The inhibition of lysyl oxidase in vivo by isoniazid and its reversal by pyridoxal. Effect on collagen cross-linking in the chick embryo

Carrington¹,

Bird²,

Levene³

1984

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Isonicotinic acid hydrazide (isoniazid) causes a large increase in the salt-solubility of collagen when injected into chick embryos; this change is accompanied by the inactivation of lysyl oxidase (EC 1.4.3.13), the enzyme responsible for initiating cross-link formation in collagen and elastin. In addition, isoniazid markedly decreases the liver content of pyridoxal phosphate. The depletion of pyridoxal phosphate takes approx. 6 h, whereas the inhibition of lysyl oxidase and the increase in collagen solubility occur more slowly. A reversal of these effects of isoniazid can be produced by the subsequent injection of a stoichiometric amount of pyridoxal, supporting the role of pyridoxal as a cofactor for lysyl oxidase. Treatment of chick embryos with beta-aminopropionitrile, an irreversible inhibitor of lysyl oxidase, causes an inhibition of the enzyme, which begins to recover within 24 h but which is not affected by the administration of pyridoxal; with isoniazid inhibition, however, lysyl oxidase activity does not show any sign of recovery by 48 h. It is proposed that isoniazid may cause the inhibition of lysyl oxidase by competing for its obligatory cofactor, pyridoxal phosphate. The potential clinical implications in the therapeutic control of fibrosis are briefly discussed.

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Protein lysine 6-oxidase (lysyl oxidase) cofactor: Methoxatin (PQQ) or pyridoxal?

Levene

O'Shea

Carrington

1988

International Journal of Biochemistry

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Octanoate and palmitate as substrates for ketogenesis by hepatocytes isolated from suckling rabbits

Carrington

Shepherd

Dils

1981

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Lysyl oxidase (Protein lysine 6-oxidase) cofactor: Methoxatin (PQQ) or pyridoxal7

Levene

Carrington

1988

Pharmacological Research Communications

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