[Metabolites of the propionate pathway as regulators of fatty and dicarboxylic acid oxidation in liver mitochondria] | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

4923716

Reference Type

Journal Article

Title

[Metabolites of the propionate pathway as regulators of fatty and dicarboxylic acid oxidation in liver mitochondria]

Author(s)

Fedotcheva, NI; Gessler, NN; Anikeeva, SP; Ignat'ev, DA; Bykhovskiĭ, VIa; Kondrashova, MN

Year

1993

Is Peer Reviewed?

Journal

Biokhimiya
ISSN: 0320-9725

Volume

Issue

Page Numbers

599-605

Language

English

PMID

8507736

Relationship(s)

has translation 4935815 Propionate pathway metabolites as regulators of fatty and dicarboxylic acid oxidation in liver mitochondria

Abstract

The functioning of the propionate pathway of oxidation substrate metabolism in the norm and under vitamin B12 deficiency has been studied. This pathway has been shown to play an important role in oxidative processes occurring in normal organisms, for its inhibition in B12-deficient animals is associated with a reduction of respiration as well as with noticeable decreases in palmitoylcarnitine and succinate oxidation rates and oxidation phosphorylation coupling. Succinate, the end product of the propionate pathway, normalizes the respiration and restores the rate of palmitoylcarnitine oxidation in B12-deficient animals, which is suggestive of its crucial role in the propionate pathway. In vivo propionate inhibits, whereas methyl malonate stimulates palmitoylcarnitine respiration, however only in intact animals. In B12-deficient animals the sensitivity to these metabolites is decreased.