The distribution of histaminergic fibers in the zebrafish brain was recentl
y shown to resemble that in mammals. Expression of L-histidine decarboxylas
e (HDC) mRNA was shown only in the area corresponding to that expressing HD
C in mammals. This indicates that the zebrafish could be a useful model for
studies on the function of the brain histaminergic system. in this study a
n H-3-like receptor is identified in zebrafish brain. With binding studies
using N-alpha-[H-3]methylhistamine on zebrafish brain sections, signals wer
e observed in several regions. Highest densities were detected in optic tec
tum and hypothalamus. The autoradiographic signal was abolished completely
by the H-3-specific antagonist clobenpropit and significantly reduced by an
other H-3 antagonist, thioperamide. Histamine and immepip induced an increa
se of guanosine 5'-(gamma-[S-35]thio)triphosphate binding in several areas
of the zebrafish brain. The activation was blocked with clobenpropit but no
t with cimetidine or mepyramine. These results indicate that the zebrafish
has a histamine H-3-like receptor that functionally interacts with the inhi
bitory, G(i)/G(o), class of G proteins. No previous evidence for a histamin
e receptor in zebrafish exists. The receptor described here is apparently s
imilar to the mammalian H-3 receptor, making this the first description of
a histamine H-3-like receptor in a lower vertebrate.