Mogens Bugge scite author profile

Regional and whole-brain tryptophan-hydroxylating activity and serotonin turnover were investigated in portacaval shunted (PCS) rats using an in vivo decarboxylase inhibition assay. To saturate tryptophan hydroxylation with amino acid substrate, rats were administered a high dose of tryptophan 1 h prior to analysis of brain tryptophan, 5-hydroxytryptophan, serotonin, and 5-hydroxyindoleacetic acid. The analysis revealed, as expected, higher brain concentrations of tryptophan and 5-hydroxyindoles and increased serotonin synthesis rate in PCS rats as compared with shamoperated controls. Saturating levels of brain tryptophan were achieved in both PCS and sham animals after exogenous tryptophan administration. The tryptophan load resulted in increased brain serotonin turnover in all regions and in whole brain compared with rats that did not receive a tryptophan load. Tryptophan-loaded PCS rats showed increased brain serotonin turnover compared with tryptophan-loaded sham rats. Regionally, this supranormal tryptophan-hydroxylating activity was most pronounced in the mesencephalon-pons followed by the cortex. It is concluded that, at least in the PCS rat, brain tryptophan hydroxylation is an inducible process. Since it is known that brain tissue from PCS rats undergoes a redox shift toward a reduced state and that the essential cofactor tetrahydrobiopterin is active in tryptophan hydroxylation only when present in its reduced form, it is hypothesized that this is the reason for the supranormal tryptophan-hydroxylating activity displayed by the PCS rats. The hypothesis further suggests that alterations in tetrahydrobiopterin availability may serve as a mechanism by which brain tryptophan hydroxylation, and therefore serotonin turnover, can be regulated with high sensitivity in vivo.

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Angiographic results after the use of a sutureless aortic connector for proximal vein graft anastomoses

Wiklund

Bugge

Berglin

2002

The Annals of Thoracic Surgery

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Metabolism of monoamines in the brain after total hepatectomy in the rat

Bugge

Bengtsson

Nobin

et al. 1986

Experimental Neurology

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Mogens Bugge

The impact of time after portacaval shunt in the rat on behavior, brain serotonin, and brain and muscle histology

Endograft Therapy for Diseases of the Descending Thoracic Aorta: Results in 43 High-Risk Patients

Brain Tryptophan Hydroxylation in the Portacaval Shunted Rat: A Hypothesis for the Regulation of Serotonin Turnover In Vivo

Angiographic results after the use of a sutureless aortic connector for proximal vein graft anastomoses

Metabolism of monoamines in the brain after total hepatectomy in the rat

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