Guanylate cyclase activity in retina optic nerve and optic chiasm of rats under different illumination conditions.

In the present work we have measured the guanylate cyclase activity in soluble fractions from several tissues relevant to the visual response under different illumination conditions. Guanylate cyclase was sensitive to changes of light/dark periods in incubated extract obtained from soluble fractions of retina, optic nerve and optic chiasm. The changes in soluble guanylate cyclase activity found, about 100 fold between dark and light periods in those tissues, indicate a key role for this enzyme. The results showed that light inhibit strongly the soluble retinal guanylate cyclase activity; while it increases the activity of this enzyme in the optic nerve. A generalized photoinhibited response of soluble guanylate cyclase was observed in all studied tissues in prolonged dark adapted animals. The effect of Na+ 1 and 10 mM, and free Ca++ 28 eta M and 2.8 microM on the guanylate cyclase activity was performed in the studied tissues. The enzymatic activity appeared to be inversely related in the retina and optic nerve with regard to the ion exposure, which may involve different ionic control mechanisms. All indicate an active role for the soluble guanylate cyclase in the phototransduction process not only in retina, also in other tissues relevant in the visual response.

Effect of ovarian steroids on hypothalamic norepinephrine-induced adenylate cyclase activity.

The adenylate cyclase activity induced by norepinephrine (10(-8)-10(-9) M) was studied in hypothalamic particulate fractions from female rats. The effect of estradiol on this activity was studied in rats that were ovariectomized in diestrus 1, injected with estradiol benzoate (50 micrograms/kg body weight), and killed 48 h later. The effect of progesterone was studied in fractions from female cycling rats injected in the morning of diestrus 2 with progesterone (2 mg/rat); these animals were killed 30 or 48 h after the steroid injection. The blockade of norepinephrine-induced adenylate cyclase activity by alpha- and beta-blocking agents (10(-8)-10(-9) M) was also evaluated. The enzymatic activity was determined by monitoring the capacity to produce cAMP from ATP at saturated levels; cAMP was assayed by radioimmunoassay. At 48 h after administration, estradiol benzoate increased the norepinephrine-induced adenylate cyclase activity in the hypothalamus. This effect was not changed by the presence of phenoxybenzamine, an alpha-adrenoceptor blocker, but was greatly reduced by propranolol, the beta-adrenoreceptor blocker. In contrast, the progesterone, at 30 and 48 h after injection, decreased the hypothalamic adenylate cyclase activity, and this effect was preferentially antagonized in the presence of phenoxybenzamine rather than propranolol. These results suggest that estrogen and progesterone act selectively on one or another type of adrenergic receptor at the hypothalamic level.

Preparation, production and functional characterization of anti cAMP and cGMP antibodies.

The present work was intended to evaluate the preparation of antigens, as well as the production and characterization of anti cAMP and cGMP antibodies. Such antibodies were obtained from rabbits, and we used 2'O-succinyl cyclic nucleotide derivate, conjugated with human serum albumin, as antigen. The characterization of the antibodies was monitored by their immunoreactivity with the labelled antigen [125I]-cyclic nucleotide. This assay consists in a competition between a labelled and an unlabelled antigen for a fixed number of binding sites present in the specific antibody. The antibodies were specific for the inducing antigens. Cross-reactivity tests showed low degree competition between the immunogen and other antigens. The very high affinity, high quality and specificity of the generated antibodies indicate that they may be used not only in radioimmunoassay and immunocytochemistry methodologies, but also as bioblockers of physiological pathways.

Sexual differences in hypothalamic adenosine 3',5'-cyclic monophosphate content.

Hypothalamic adenosine 3',5'-cyclic monophosphate (cAMP) concentration was measured in the morning (10:00) and afternoon (16:00) in castrated and intact rats of both sexes to evaluate a possible sexual difference. Castration produced different effects on the hypothalamic cAMP concentration. In females, ovariectomy significantly reduced total hypothalamic cAMP concentration, whereas in males, orchidectomy elevated hypothalamic cAMP content. This observation was independent of the time of day at which the animals were killed. On the other hand, administration of the alpha-adrenoreceptor blocking agent phenoxybenzamine or the beta-adrenoreceptor blocker propranolol lowered the concentration of cAMP in the hypothalamus. However, this effect was selective and related to the time of day when the animals were killed. Phenoxybenzamine reduced the hypothalamic cAMP content in males killed in the afternoon, whereas the effect of propranolol was significant in males killed in the morning. These results indicate a response of hypothalamic cAMP to adrenoreceptor blockers in male rats opposite to that reported previously from our laboratory in female rats, suggesting that the functional behavior of the hypothalamic adrenergic response is strongly sex related.

Norepinephrine--stimulated activity of hypothalamic adenylate cyclase varies throughout the estrous cycle of the female rat.

The activity of hypothalamic adenylate cyclase was studied throughout the estrous cycle of the female rat. The activity of the enzyme was determined in particulate fractions obtained from hypothalami of rats killed at 10.00 h and 16.00 h of the 4-day estrous cycle. The activity was assayed in the presence of norepinephrine (10(-8) to 10(-3) M) by the capacity to produce adenosine 3',5' cyclic monophosphate. The basal activity of adenylate cyclase was higher in the morning of estrus than at any other time during the cycle. Norepinephrine-stimulated adenylate cyclase activity, as assessed by the apparent affinity (Kd) and apparent maximum effect, varied during the cycle, showing highest affinity, lowest Kd, in the afternoon of proestrus. The highest level of apparent maximum effect was also found in the afternoon of proestrus declining on diestrous day 2, diestrous day 1 and estrus. The norepinephrine stimulated activity was significantly inhibited by phenoxybenzamine, an alpha-blocker, in the morning of diestrus day 1, whereas on the day of diestrus day 2 and proestrus it was inhibited by the beta-adrenoblocker, propranolol. A similar degree of inhibition by alpha- and beta-blockers was observed in the morning of estrus. These results indicate that the hypothalamic adenylate cyclase coupled to adrenergic receptors shows dynamic changes throughout the estrous cycle.

Norepinephrine: stimulated activity of hypothalamic adenylate cyclase varies throughout the estrous cycle of the female rat

The activity of hypothalamic adenylate cyclase was studied throughout the estrous cycle of the female rat. The activity of the enzyme was determined in particulate fractions obtained from hypothalami of rats killed at 10.00 h and 16.00 h of the 4-day estrous cycle. The activity was assayed in the presence of norepinephrine (10(-8) to 10(-3) M) by the capacity to produce adenosine 3',5' cyclic monophosphate. The basal activity of adenylate cyclase was higher in the morning of estrus than at any other time during the cycle. Norepinephrine-stimulated adenylate cyclase activity, as assessed by the apparent affinity (Kd) and apparent maximum effect, varied during the cycle, showing highest affinity, lowest Kd, in the afternoon of proestrus. The highest level of apparent maximum effect was also found in the afternoon of proestrus declining on diestrous day 2, diestrous day 1 and estrus. The norepinephrine stimulated activity was significantly inhibited by phenoxybenzamine, an alpha-blocker, in the morning of diestrus day 1, whereas on the day of diestrus day 2 and proestrus it was inhibited by the beta-adrenoblocker, propranolol. A similar degree of inhibition by alpha- and beta-blockers was observed in the morning of estrus. These results indicate that the hypothalamic adenylate cyclase coupled to adrenergic receptors shows dynamic changes throughout the estrous cycle

Norepinephrine--stimulated activity of hypothalamic adenylate cyclase varies throughout the estrous cycle of the female rat.

The activity of hypothalamic adenylate cyclase was studied throughout the estrous cycle of the female rat. The activity of the enzyme was determined in particulate fractions obtained from hypothalami of rats killed at 10.00 h and 16.00 h of the 4-day estrous cycle. The activity was assayed in the presence of norepinephrine (10(-8) to 10(-3) M) by the capacity to produce adenosine 3,5 cyclic monophosphate. The basal activity of adenylate cyclase was higher in the morning of estrus than at any other time during the cycle. Norepinephrine-stimulated adenylate cyclase activity, as assessed by the apparent affinity (Kd) and apparent maximum effect, varied during the cycle, showing highest affinity, lowest Kd, in the afternoon of proestrus. The highest level of apparent maximum effect was also found in the afternoon of proestrus declining on diestrous day 2, diestrous day 1 and estrus. The norepinephrine stimulated activity was significantly inhibited by phenoxybenzamine, an alpha-blocker, in the morning of diestrus day 1, whereas on the day of diestrus day 2 and proestrus it was inhibited by the beta-adrenoblocker, propranolol. A similar degree of inhibition by alpha- and beta-blockers was observed in the morning of estrus. These results indicate that the hypothalamic adenylate cyclase coupled to adrenergic receptors shows dynamic changes throughout the estrous cycle.

Norepinephrine--stimulated activity of hypothalamic adenylate cyclase varies throughout the estrous cycle of the female rat.

The activity of hypothalamic adenylate cyclase was studied throughout the estrous cycle of the female rat. The activity of the enzyme was determined in particulate fractions obtained from hypothalami of rats killed at 10.00 h and 16.00 h of the 4-day estrous cycle. The activity was assayed in the presence of norepinephrine (10(-8) to 10(-3) M) by the capacity to produce adenosine 3,5 cyclic monophosphate. The basal activity of adenylate cyclase was higher in the morning of estrus than at any other time during the cycle. Norepinephrine-stimulated adenylate cyclase activity, as assessed by the apparent affinity (Kd) and apparent maximum effect, varied during the cycle, showing highest affinity, lowest Kd, in the afternoon of proestrus. The highest level of apparent maximum effect was also found in the afternoon of proestrus declining on diestrous day 2, diestrous day 1 and estrus. The norepinephrine stimulated activity was significantly inhibited by phenoxybenzamine, an alpha-blocker, in the morning of diestrus day 1, whereas on the day of diestrus day 2 and proestrus it was inhibited by the beta-adrenoblocker, propranolol. A similar degree of inhibition by alpha- and beta-blockers was observed in the morning of estrus. These results indicate that the hypothalamic adenylate cyclase coupled to adrenergic receptors shows dynamic changes throughout the estrous cycle.

Norepinephrine: stimulated activity of hypothalamic adenylate cyclase varies throughout the estrous cycle of the female rat

The activity of hypothalamic adenylate cyclase was studied throughout the estrous cycle of the female rat. The activity of the enzyme was determined in particulate fractions obtained from hypothalami of rats killed at 10.00 h and 16.00 h of the 4-day estrous cycle. The activity was assayed in the presence of norepinephrine (10(-8) to 10(-3) M) by the capacity to produce adenosine 3,5 cyclic monophosphate. The basal activity of adenylate cyclase was higher in the morning of estrus than at any other time during the cycle. Norepinephrine-stimulated adenylate cyclase activity, as assessed by the apparent affinity (Kd) and apparent maximum effect, varied during the cycle, showing highest affinity, lowest Kd, in the afternoon of proestrus. The highest level of apparent maximum effect was also found in the afternoon of proestrus declining on diestrous day 2, diestrous day 1 and estrus. The norepinephrine stimulated activity was significantly inhibited by phenoxybenzamine, an alpha-blocker, in the morning of diestrus day 1, whereas on the day of diestrus day 2 and proestrus it was inhibited by the beta-adrenoblocker, propranolol. A similar degree of inhibition by alpha- and beta-blockers was observed in the morning of estrus. These results indicate that the hypothalamic adenylate cyclase coupled to adrenergic receptors shows dynamic changes throughout the estrous cycle (Au)