Ewa Zurawska scite author profile

In rabbits, dopamine levels in the retina, but not in the caudate nucleus, showed clear diurnal rhythm, with high values seen in the light phase. Thirty min exposition of dark-adapted rabbits to day-light produced no changes in dopamine levels in the retina. In rabbits treated with alpha-methyl-p-tyrosine, the same light exposition decreased the retinal amine level by 18%, while stimulation with intensive, flickering light significantly decreased the retinal dopamine content by 36%. Experiments performed at noon and midnight, under light or dark conditions, showed the retinal dopamine levels to be very similar in groups kept either at light or dark, irrespective of the time of the day, although in animals deprived of light the amine levels were clearly lower than in those exposed to light, both at noon and midnight. Under all experimental conditions there were no significant changes in dopamine level and utilization in the caudate nucleus. The isolated and superfused retina (preloaded with [3H]-dopamine), when stimulated with flashes of white light (2 Hz, 10 min), released [3H]-radioactivity in a Ca2+-dependent manner. It is concluded that in rabbits, light enhances dopamine levels and utilization selectively in the retina, and the observed diurnal changes in the amine metabolism are dependent on the presence or absence of light, and not on the time of the day. The proposed physiological role(s) of the retinal dopaminergic mechanisms is discussed.

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Activation of D2 dopamine receptors in hen retina decreases forskolin-stimulated cyclic AMP accumulation and serotonin N-acetyltransferase (NAT) activity

Nowak

Sek

Zurawska

1990

Neurochemistry International

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Calcium channel blockers in vivo inhibit serotonin N‐acetyltransferase (NAT) activity in chicken retina stimulated by darkness and not by agents elevating intracellular cyclic AMP level

Zawilska¹,

Wawrocka

Zurawska

et al. 1992

Journal of Pineal Research

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The molecular mechanism underlying the role of calcium influx in the regulation of retinal serotonin N-acetyltransferase (NAT) activity was studied in vivo in chickens. Systemic administration of organic antagonists of voltage-sensitive calcium channels (VSCC), i.e., nimodipine and nifedipine, resulted in a marked suppression of the nocturnal increase of NAT activity in chicken retina. In contrast, NAT activity stimulated by nonhydrolysable analogs of cyclic AMP (dibutyryl-cyclic AMP and 8-bromo-cyclic AMP), forskolin, a direct activator of adenylate cyclase, and by phosphodiesterase inhibitors (aminophylline and 3-isobutyl-1-methylxanthine), was not significantly affected by various tested VSCC antagonists. The inhibitory effect of nimodipine on the dark-dependent increase in NAT activity of chicken retina was abolished by Bay K 8644, a selective VSCC agonist. The results presented in this paper indicate an important role of calcium influx through L-type of VSCC in the induction of NAT activity in chicken retina, and suggest that a requirement of calcium ions in the process of NAT induction in the retina may be primarily at the level of cyclic AMP production.

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Serotonin N‐acetyltransferase activity in chicken retina: In vivo effects of phosphodiesterase inhibitors, forskolin, and drugs affecting dopamine receptors

Zawilska

Kazula

Zurawska

et al. 1991

Journal of Pineal Research

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A role of D2-dopaminergic neurotransmission in the regulation of melatonin biosynthesis in retina was studied in vivo in chickens. The nighttime rise in serotonin N-acetyltransferase (NAT)--the penultimate and key regulatory melatonin-synthesizing enzyme--was potently inhibited by both acute light exposure and agonists of dopamine D2-receptor (quinpirole, bromocriptine, and apomorphine). Spiroperidol, a selective dopamine D2-receptor blocker, increased the enzyme activity in light-exposed chickens, but had no effect in animals kept in darkness. Inhibitors of cyclic nucleotide phosphodiesterase, aminophylline, and 3-isobutyl-1-methylxanthine given peripherally, along with a direct adenylate cyclase activator forskolin injected directly into the eye, mimicked the action of darkness, and markedly enhanced the retinal NAT activity when administered to animals maintained in an illuminated environment. Dopamine D2-receptor agonists had no effect on aminophylline-stimulated enzyme activity, whereas spiroperidol enhanced it. Forskolin-driven NAT activity was suppressed by quinpirole. Spiroperidol and aminophylline given alone at different times of day under light conditions stimulated NAT activity, and their effects were mainly additive when given in combination. SCH 23390, a selective D1-dopamine receptor antagonist, did not affect the rise in NAT activity of chicken retina produced by either darkness or by aminophylline. The results provide further evidence that dopamine, acting via D2-receptors, mediates the inhibitory effects of light on the cyclic AMP-dependent dark-evoked induction of NAT activity in chicken retina.

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Ewa Zurawska

Melatonin and its generating system in vertebrate retina: circadian rhythm, effect of environmental lighting and interaction with dopamine

Dopamine in the rabbit retina and striatum: Diurnal rhythm and effect of light stimulation

Activation of D2 dopamine receptors in hen retina decreases forskolin-stimulated cyclic AMP accumulation and serotonin N-acetyltransferase (NAT) activity

Calcium channel blockers in vivo inhibit serotonin N‐acetyltransferase (NAT) activity in chicken retina stimulated by darkness and not by agents elevating intracellular cyclic AMP level

Serotonin N‐acetyltransferase activity in chicken retina: In vivo effects of phosphodiesterase inhibitors, forskolin, and drugs affecting dopamine receptors

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