Some Effects of Steroid Hormones and Kynurenine on Tryptophan and its Conversion to 5-Hydroxytryptamine

  • Susan E. Gould

Student thesis: Doctoral ThesisDoctor of Philosophy

Abstract

The relationship of certain steroid hormones to mood state in humans
and to biochemical parameters related to 5-hydroxytryptamine function in the brains of mice have been studied.

Cortisol and "free" tryptophan showed significant relations with
mood in puerperal women.

Cortisol, oestradiol and mestranol failed to affect the binding of
tryptophan to albumin in vitro whereas a very high concentration of norethisterone increased "free" tryptophan.

Brain 5-HT turnover was measured in the mouse after cortisol, a
combination of norethisterone and oestradiol, and in different stages
of the oestrus cycle. A high dose of cortisol reduced turnover, after
24 hr. pretreatment whereas a lower dose, or repeated dosing with a low
dose had no erfect. A low-dose combination of norethisterone and
oestradiol had no effect on turnover, after 14 day pretreatment. A
slight reduction in brain 5-HT levels and an increase in turnover were
found in oestrus, compared with dicestrus animals.

The effects of these hormones on plasma and brain levels of the
tryptophan metabolite, kynurenine, were studied. A low-dose combination increased plasma kynurenine without affecting brain kynurenine. Cortisol was found to decrease plasma kynurenine levels after 24 hr. pretreatment,
but had no effect on brain levels.

The mechanism of uptake of kynurenine into brain was investigated. | There appear to be two mechanisms of uptake, one of which is active.

Kynurenine failed to affect the in vitro uptake of 5-hydroxytryptamine.
Di.-kynurenine was found to reduce plasma tryptophan after i2 hr. pretreatment, but increased brain tryptophan after 30 min. A biphasic effect of DL-kynurenine was found on brain 5-hydroxytryptamine turnover, a low dose reduced turnover, whereas higher doses had no effect on turnover.
Date of AwardJun 1979
Original languageEnglish
Awarding Institution
  • Aston University

Keywords

  • steroid hormones
  • kynurenine
  • tryptophan
  • conversion
  • 5-hydroxytryptamine

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