Lunasin-induced behavioural effects in mice: Focus on the dopaminergic system
Author
Dzirkale, Zane
Rumaks, Juris
Svirskis, Simons
Mazina, Olga
Allikalt, Anni
Rinken, Ago
Jekabsons, Kaspars
Muceniece, Ruta
Klusa, Vija
Date
2013Metadata
Show full item recordAbstract
The present study for the first time is devoted to identify central effects of synthetic lunasin, a
43 amino acid peptide. A markedly expressed neuroleptic/cataleptic effect was observed at low
(0.1–10 nmol/mouse) centrally administered doses in male C57Bl/6 mice. Lunasin considerably reduced
the amphetamine hyperlocomotion but weakly apomorphine climbing behaviour. No influence on
ketamine and bicuculline effects was observed. Binding assay studies demonstrated modest affinity of
lunasin for the dopamine D1 receptor (Ki = 60±15 M). In a functional assay of cAMP accumulation on
live cells lunasin antagonised apomorphine effect on D1 receptor activation (pEC50 = 6.1±0.3), but had
no effect in cells expressing D2 receptors. The obtained data suggest that lunasin’s action at least in part
is provided via dopaminergic D1 receptor pathways. However, other non-identified mechanisms (probably
intracellular) may play an important role in lunasin’s central action. Nevertheless further studies of
lunasin are promising, particularly taking into account a necessity for novel type of antipsychotic drugs