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A mathematical model of tryptophan metabolism via the kynurenine pathway provides insights into the effects of vitamin B-6 deficiency, tryptophan loading, and induction of tryptophan 2,3-dioxygenase on tryptophan metabolites.

Publication ,  Journal Article
Rios-Avila, L; Nijhout, HF; Reed, MC; Sitren, HS; Gregory, JF
Published in: The Journal of nutrition
September 2013

Vitamin B-6 deficiency is associated with impaired tryptophan metabolism because of the coenzyme role of pyridoxal 5'-phosphate (PLP) for kynureninase and kynurenine aminotransferase. To investigate the underlying mechanism, we developed a mathematical model of tryptophan metabolism via the kynurenine pathway. The model includes mammalian data on enzyme kinetics and tryptophan transport from the intestinal lumen to liver, muscle, and brain. Regulatory mechanisms and inhibition of relevant enzymes were included. We simulated the effects of graded reduction in cellular PLP concentration, tryptophan loads and induction of tryptophan 2,3-dioxygenase (TDO) on metabolite profiles and urinary excretion. The model predictions matched experimental data and provided clarification of the response of metabolites in various extents of vitamin B-6 deficiency. We found that moderate deficiency yielded increased 3-hydroxykynurenine and a decrease in kynurenic acid and anthranilic acid. More severe deficiency also yielded an increase in kynurenine and xanthurenic acid and more pronounced effects on the other metabolites. Tryptophan load simulations with and without vitamin B-6 deficiency showed altered metabolite concentrations consistent with published data. Induction of TDO caused an increase in all metabolites, and TDO induction together with a simulated vitamin B-6 deficiency, as has been reported in oral contraceptive users, yielded increases in kynurenine, 3-hydroxykynurenine, and xanthurenic acid and decreases in kynurenic acid and anthranilic acid. These results show that the model successfully simulated tryptophan metabolism via the kynurenine pathway and can be used to complement experimental investigations.

Duke Scholars

Published In

The Journal of nutrition

DOI

EISSN

1541-6100

ISSN

0022-3166

Publication Date

September 2013

Volume

143

Issue

9

Start / End Page

1509 / 1519

Related Subject Headings

  • ortho-Aminobenzoates
  • Vitamin B 6 Deficiency
  • Tryptophan Oxygenase
  • Tryptophan
  • Transaminases
  • Rats
  • Nutrition & Dietetics
  • Muscles
  • Models, Theoretical
  • Mice
 

Citation

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Rios-Avila, L., Nijhout, H. F., Reed, M. C., Sitren, H. S., & Gregory, J. F. (2013). A mathematical model of tryptophan metabolism via the kynurenine pathway provides insights into the effects of vitamin B-6 deficiency, tryptophan loading, and induction of tryptophan 2,3-dioxygenase on tryptophan metabolites. The Journal of Nutrition, 143(9), 1509–1519. https://doi.org/10.3945/jn.113.174599
Rios-Avila, Luisa, H Frederik Nijhout, Michael C. Reed, Harry S. Sitren, and Jesse F. Gregory. “A mathematical model of tryptophan metabolism via the kynurenine pathway provides insights into the effects of vitamin B-6 deficiency, tryptophan loading, and induction of tryptophan 2,3-dioxygenase on tryptophan metabolites.The Journal of Nutrition 143, no. 9 (September 2013): 1509–19. https://doi.org/10.3945/jn.113.174599.
Journal cover image

Published In

The Journal of nutrition

DOI

EISSN

1541-6100

ISSN

0022-3166

Publication Date

September 2013

Volume

143

Issue

9

Start / End Page

1509 / 1519

Related Subject Headings

  • ortho-Aminobenzoates
  • Vitamin B 6 Deficiency
  • Tryptophan Oxygenase
  • Tryptophan
  • Transaminases
  • Rats
  • Nutrition & Dietetics
  • Muscles
  • Models, Theoretical
  • Mice