PROLONGED EXPOSURE OF CHICKS TO LIGHT OR DARKNESS DIFFERENTIALLY AFFECTS THE QUINPIROLE-EVOKED SUPPRESSION OF SEROTONIN N-ACETYLTRANSFERASEACTIVITY IN CHICK RETINA - AN IMPACT ON DOPAMINE D-4-LIKE RECEPTOR
Jb. Zawilska et al., PROLONGED EXPOSURE OF CHICKS TO LIGHT OR DARKNESS DIFFERENTIALLY AFFECTS THE QUINPIROLE-EVOKED SUPPRESSION OF SEROTONIN N-ACETYLTRANSFERASEACTIVITY IN CHICK RETINA - AN IMPACT ON DOPAMINE D-4-LIKE RECEPTOR, Journal of pineal research, 22(2), 1997, pp. 59-64
Dopamine plays an important role in regulation of melatonin biosynthes
is in retinas of several vertebrate species. In the avian retina, the
dopamine receptor that controls melatonin production represents a D-4-
like subtype, Stimulation of this receptor by quinpirole (QNP) results
in a dose-dependent decline of the nighttime activity of serotonin N-
acetyltransferase (NAT, a key regulatory enzyme in melatonin biosynthe
sis) and melatonin level of the retina. The present study was undertak
en to determine whether the ability of QNP to suppress nocturnal NAT a
ctivity of chick retina was affected by prolonged adaptation of animal
s to light and darkness, In the retina of chicks kept under a light:da
rk (LD) illumination cycle, dopamine and 3,4-dihydroxyphenylacetic aci
d (DOPAC) levels measured at the end of the light phase were significa
ntly higher than those found in the middle of the dark phase, In anima
ls maintained under continuous light (LL) or darkness (DD) dopamine an
d DOPAC contents of the retina measured at these two time points were
similar and resembled levels found during, respectively, the light and
dark phase in the retina of chicks kept under LD illumination cycle.
Adaptation of chicks to LL and DD resulted in an attenuated and enhanc
ed, respectively, response of the retinal NAT activity to the suppress
ive action of QNP. When compared to the LD group, a parallel shift to
the right (LL group) or left (DD group) of the dose-response curve for
QNP was observed, and the ED50 values for this dopamine receptor agon
ist were 3.4-times higher (LL) or 2.8-lower (DD) than those calculated
for the control LD animals. It is suggested that prolonged exposure t
o light or darkness, by altering the level of the retinal dopaminergic
neurotransmission, may modify the reactivity of the D-4-like dopamine
receptors regulating NAT activity of the chick retina.