Volume 6, Issue 4 (Suppl)

Clin Pharmacol Biopharm, an open access journal

ISSN: 2167-065X

Euro Biopharma & Ethnopharmacology 2017

November 09-11, 2017

Page 36

&

6

th

International Conference and Exhibition on

November 09-11, 2017 Vienna, Austria

4

th

EUROPEAN BIOPHARMA CONGRESS

PHARMACOLOGY AND ETHNOPHARMACOLOGY

Joint Event

Lowering of kynurenic acid formation – anti-dementia drugs

K

ynurenic acid (KYNA) is an endogenous metabolite of the kynurenine pathway of tryptophan degradation and is an

antagonist of the glutamate ionotropic excitatory amino acid and of the nicotine cholinergic receptors and its involvement

in memory impairment has been suggested. The therapeutic effect of Cerebrolysin treatment of dementia and of brain injury

has been proposed because of neurotrophic properties of this compound. Since an increased kynurenine metabolism has

been shown in several brain pathologies including dementia we investigated the biochemical properties of Cerebrolysin with

respect to KYNA formation in an

in vitro

study. The activities of the KYNA synthesising enzymes kynurenine aminotransferase

I, II and III (KAT I, KAT II, KAT III) in rat liver, and rat and human brain homogenates were analysed in the presence of

Cerebrolysin. Data revealed demonstrate the ability of Cerebrolysin to lower KYNA formation in homogenates. We suggest

that the anti-dementia effect of Cerebrolysin observed in Alzheimer patients could be due to Cerebrolysin induced reduction

of KYNA levels, thus enhancing the cholinergic and glutamatergic neurotransmissions. D-Cycloserine, anti- mycobacterial

drug, known as a partial agonist at the glycine modulatory site of the glutamatergic NMDA receptor, exerts anticonvulsive

activities and improves cognitive function. We evaluated the action of D-cycloserine with respect to the biosynthetic machinery

of KYNA synthesis. Interestingly, we found that D-cycloserine blockes significantly KATs activities in rat liver and brain

homogenates and in the frontal cortex homogenate of human post mortem tissue, as well. These results allowed us to propose

that lowering of KYNA content likely due to D- cycloserine inhibition of KATs activities might be involved in the postulated

mechanism for D- cycloserine to act as a partial agonist at the glycine site of the NMDA receptor. It is reasonable to believe

that this mechanism(s) is in part responsible for the improvement of symptoms like dementia, cognition and/or delusion

in schizophrenia patients, Alzheimer’s, HIV-1 infected patients or Parkinson’s patients. Finally we evaluated the action of

Jerusalem balsam with respect to the biosynthetic machinery of KYNA synthesis. Jerusalem balsam is widely used because of

good reputation as a natural remedy. It is a mixture of certain plants, which supposes to have antibacterial and anti-oxidative

properties. Jerusalem balsam is used to improve liver and lung diseases, as for example bronchopneumonia. Interestingly,

we found that Jerusalem balsam blocks significantly KATs activities, too. Lowering of KYNA synthesis by Jerusalem balsam

represents notable biochemical effect since it might influence KYNA levels. Therefore increased KYNA levels observed in

stroke patient, in patient with respiration and cardiovascular problem, in neuropsychiatric disorders, in patient infected with

HIV-1 and patients with bronchopneumonia could be treating by Jerusalem balsam. We speculate the possible therapeutic

application and advantage of the remedy Jerusalem balsam, i.e. mixture of plants and discuss comparing to effect of anti-

dementia drugs D-cycloserine and Cerebrolysine.

halina.baran@neuro-lab.eu

Halina Baran

Karl Landsteiner Research Institute for Neurochemistry and Neuropharmacology, Austria

Halina Baran, Clin Pharmacol Biopharm 2017, 6:4(Suppl)

DOI: 10.4172/2167-065X-C1-024