Pineal nitric oxide synthase, but not heme oxygenase, mRNA is suppressed by continuous exposure to light.

We have previously shown that exposure of rats to constant light (LL) induced a decrease in NO synthase (NOS) activity in the pineal gland. We report here that the use of the sensitive technique of RT-PCR has demonstrated that mRNA for neuronal NOS is present in the pineal, and that it is photoneurally regulated. There was a marked decrease in pineal neuronal NOS mRNA levels in continuous light conditions, similar to the changes seen in NOS enzyme activity. Inducible NOS was not present in the pineal, and there was evidence that the photoregulatable form was not endothelial NOS. The mRNA for two isoforms of heme oxygenase, the enzyme responsible for the generation of the putative neuromodulator carbon monoxide, was also present in the pineal, but neither isoform was photoregulated. Using immunodetection, it was not possible to identify the presence of NOS protein, other than to a minimal extent, even though NOS activity was clearly present. NADPH-diaphorase staining and in situ hybridization were carried out in an attempt to identify the precise location of neuronal NOS message. A strong NADPH-diaphorase reaction was present in sympathetic nerve fibers of the pineal, but pinealocytes showed no or only very weak labelling. In situ hybridization was also unable to identify neuronal NOS message in pinealocytes. These data thus also suggest the possible presence of a pineal-specific NOS isoenzyme.

The nitric oxide synthase/nitric oxide and heme oxygenase/carbon monoxide pathways in the human ureter.

OBJECTIVE: To investigate the nitric oxide synthase (NOS)/nitric oxide (NO) and heme oxygenase (HO)/carbon monoxide (CO) pathways in the human isolated ureter. METHODS: Immunohistochemical studies were performed. NOS activity was measured by monitoring the conversion of [3H]-arginine to [3H]-citrulline. Functional inhibitory effects mediated by NO and CO were assessed, and correlated with cyclic nucleotide levels. RESULTS: The overall innervation of the ureter was moderate, however more prominent in the distal segment. Relative to overall innervation, neuronal NOS-immunoreactive (-IR) nerves were few. In the submucosa, neuronal NOS-IR varicose nerves were found closely together with varicose nerves containing calcitonin gene-related peptide immunoreactivity. In the distal ureter, nerve trunks were demonstrated, expressing immunoreactivity for HO-2. Ca(2+)-dependent NOS activity was 53 +/- 13 pM/mg protein/h. In isolated preparations, NO decreased endothelin-1-induced contraction in a concentration-dependent manner. In strips exposed to NO, there was a 6-fold increase of the cyclic GMP levels in comparison to control preparations (p < 0.001). CO exerted no effect on induced ureteral tone. CONCLUSIONS: Neuronal NOS- and HO-2-IR nerves can be demonstrated in the human ureter, where NO, but probably not CO, may contribute to the regulation of tone. Although the physiological roles for NO and CO remain to be established, the NOS/NO/cyclic GMP pathway may be a target for drugs producing relaxation of the human ureter. The richer innervation of the distal ureter may be of importance for the coordination of ureteral peristalsis and the motility of the ureterovesical junction.

Localization of nitric oxide synthase and haemoxygenase, and functional effects of nitric oxide and carbon monoxide in the pig and human intravesical ureter.

The distribution of nitric oxide synthase (NOS)-immunoreactive (IR) and haemoxygenase (HO)-IR nerves was investigated in the pig and human intravesical ureter (IVU). NOS activity was measured by monitoring the conversion of [3H]-arginine to [3H]-citrulline. Effects of NO and resulting changes in cyclic nucleotide concentrations were assessed in vitro. The effects of carbon monoxide (CO) on IVU motility was also tested. Immunohistochemistry revealed an abundant overall innervation of the IVU and numerous NOS-IR nerves. Nerve trunks were also found expressing immunoreactivity for HO-1, one of the enzymes synthetising CO. Similar profiles of nerve structures expressing immunoreactivities for NOS and tyrosine-hydroxylase (TH), as well as NOS and vasoactive intestinal peptide (VIP) were demonstrated. In the pig IVU, measurement of NOS activity revealed a moderate calcium-dependent catalytic activity, NO and the NO-donor SIN-1 reduced in a concentration-dependent manner serotonin-induced contractions of pig and human IVU, and the spontaneous contractions of pig IVU. In pig IVU strips precontracted with the thromboxane analogue U-46619, tetrodotoxin-sensitive relaxations were abolished by the NOS inhibitor NG-nitro-L-arginine. CO exerted no significant effect on spontaneous or induced contractions in the pig and human IVU. In precontracted strips of the pig and human IVU exposed to SIN-1 or NO, significant increases of cyclic GMP levels were measured in comparison to control preparations. The results suggest that the L-arginine/NO/cyclic GMP pathway may play a role in the regulation of the valve function in the uretero-vesical junction (UVJ). A role for CO in the UVJ has yet to be established.

Direct modulation of calmodulin targets by the neuronal calcium sensor NCS-1.

Ca2+ and its ubiquitous intracellular receptor calmodulin (CaM) are required in the nervous system, among a host of cellular responses, for the modulation of several important enzymes and ion channels involved in synaptic efficacy and neuronal plasticity. Here, we report that CaM can be replaced by the neuronal calcium sensor NCS-1 both in vitro and in vivo. NCS-1 is a calcium binding protein with two Ca(2+)-binding domains that shares only 21% of homology with CaM. We observe that NCS-1 directly activates two Ca2+/CaM-dependent enzymes (3':5'-cyclic nucleotide phosphodiesterase and protein phosphatase calcineurin). Co-activation of nitric oxide synthase by NCS-1 and CaM results in a higher activity than with CaM alone. Moreover, NCS-1 is coexpressed with calcineurin and nitric oxide synthase in several neuron populations. Finally, injections of NCS-1 into calmodulin-defective cam1 Paramecium partially restore wildtype behavioral responses. With this highly purified preparation of NCS-1, we have obtained crystals suitable for crystallographic structure studies. NCS-1, despite its very different structure, distribution, and Ca(2+)-binding affinity as compared with CaM, can substitute for or potentiate CaM functions. Therefore, NCS-1 represents a novel protein capable of mediating multiple Ca(2+)-signaling pathways in the nervous system.

Human seminal plasma inhibits brain nitric oxide synthase activity.

Nitric oxide is a chemical messenger which functions as a neurotransmitter or as a cytotoxic agent. Nitric oxide synthase (NOS) has been isolated from various mammalian reproductive tissues. The presence or absence of NOS in spermatozoa has not yet been reported. We therefore tested human and murine spermatozoa for NOS activity by measuring the conversion of arginine to citrulline. No activity was found either in human or in murine spermatozoa. Human native semen and human seminal plasma exerted an inhibition on brain NOS activity, as assayed on rat brain cytosolic fractions. This inhibitory effect was dependent on the amount of protein present in the human seminal plasma. No inhibitory effect was observed when homogenates of washed spermatozoa were tested. The human seminal plasma did not affect the Michaelis constant (Km) of NOS for L-arginine (endogenous NOS substrate) whereas the maximal velocity (Vmax) was reduced, suggesting that it contains a non-competitive inhibitor of brain NOS. This inhibitory component was virtually insensitive to heat; a 10 min treatment to 95 degrees C only slightly reduced its ability to inhibit brain NOS. The physiological relevance of our observations remains to be elucidated. Human seminal plasma may exert an inhibition of nitric oxide synthesis on cells other than spermatozoa or on cells from the male or female genital tract, modulating directly or indirectly (via modulation of reactive oxygen species formation) the functional state of the spermatozoa.

Nitric oxide inhibits contraction of isolated pig ureteral smooth muscle.

PURPOSE: To investigate the L-arginine/nitric oxide (NO) pathway in the pig isolated ureter. MATERIALS AND METHODS: Functional inhibitory effects mediated by NO were assessed and correlated with cyclic nucleotide levels. Nitric oxide synthase (NOS) activity was measured by monitoring the conversion of [3H]-arginine to [3H]-citrulline. Immunohistochemical studies were performed. RESULTS: The NO-donor SIN-1 reduced in a concentration-dependent manner the frequency of contractions, whereas NO completely interrupted the contractile activity. In precontracted strips exposed to SIN-1 or NO, there were 6- and 12-fold increases of the cyclic GMP levels in comparison with control preparations. Activity of NOS was moderate. Overall innervation of the ureter was sparse, and there were few NOS-immunoreactive nerves. CONCLUSION: Although few NOS-containing nerves were found, pathways regulating the cyclic GMP levels of pig ureteral smooth muscle were demonstrated. Such pathways may be important targets for drugs producing relaxation of the mammalian ureter.

Adrenergic control of rat pineal NO synthase.

We have previously shown that exposure of rats to constant light (LL) induced a decrease in NO synthase (NOS) activity in the pineal gland. We present here the evidence that chronic (5 days) norepinephrine (NE) or isoproterenol treatment prevents the effect of LL and enhances pineal NOS activity in LL animals. This effect of NE appears to be mediated by beta-adrenoceptors, because it was not mimicked by the alpha-agonist phenylephrine. Pineal NOS activity was reduced in 16-h light/8-h dark animals treated for 4 days with the beta-adrenergic antagonist propranolol but not with the alpha 1-antagonist prazosin, indicating again an involvement of beta-adrenergic receptor in the control of NOS. Treatment with adrenergic antagonists did not affect cortical NOS activity, suggesting that the control of NOS is different in these two tissues or that the pineal expresses a specific isoform of the enzyme. Taken together, these data suggest that NE controls NOS in the pineal gland through beta-adrenergic receptors. To our knowledge, this represent the first demonstration of a regulation of NOS by a neurotransmitter in the CNS, as assayed under Vmax conditions.

Effects of chronic NO synthase inhibition in rats on renin-angiotensin system and sympathetic nervous system.

This study was designed to assess the role of renin and of the sympathoadrenal system in the maintenance of the hypertension induced by chronic nitric oxide synthase (NOS) inhibition in rats kept on a normal (RS) or a low-sodium (LS) diet. With the administration of NG-nitro-L-arginine methyl ester (L-NAME) in drinking water (0.4 milligrams) for 6 wk, mean intra-arterial blood pressure rose to a similar extent to 201 mmHg in the RS and 184 mmHg in the LS animals. Simultaneously, plasma norepinephrine was increased to 838 and 527 pg/ml and epinephrine to 2,041 and 1,341 pg/ml in RS and LS, respectively. Plasma neuropeptide Y levels did not change. Plasma renin activity rose to 21 ng.ml-1.h-1 in RS but remained at 44 ng.ml-1.h-1 in the LS. Both losartan (10 mg/kg) and phentolamine (0.1 mg/kg) intravenous bolus injections reduced blood pressure considerably in the L-NAME hypertensive animals. Whole brain NOS activity was reduced by 84%. Hypertension induced by chronic NOS inhibition in LS as well as in RS fed rats seems to be sustained by an interaction of several mechanisms, including the activation of the sympathetic nervous system and the renin-angiotensin system.

Differential nitric oxide synthase activity in human platelets during normal pregnancy and pre-eclampsia.

1. Nitric oxide released from endothelial cells is a potent vasodilator that might play an important role in cardiovascular regulation during pregnancy. Platelets, like endothelial cells, contain a constitutive form of nitric oxide synthase. 2. The present study aimed to measure the activity of this nitric oxide-forming enzyme in normotensive pregnant and non-pregnant women, as well as in women who had developed pre-eclampsia. Nitric oxide synthase activity was measured in the platelets of 21 normotensive pregnant women, 16 non-pregnant women and seven pregnant women who had developed pre-eclampsia. 3. The nitric oxide synthase activity was significantly higher in normotensive pregnant women [36.8 +/- 2.7 pmol h-1 mg-1 of protein (mean +/- SEM), P < 0.001] than in non-pregnant control subjects (16.8 +/- 1.4 pmol h-1 mg-1 of protein) and in women with pre-eclampsia (24.5 +/- 2.1 pmol h-1 mg-1 of protein, P < 0.01). 4. These data suggest that nitric oxide synthesis is increased during normal pregnancy, possibly contributing to the vasodilatation associated with this condition. Nitric oxide generation, however, may be inappropriately low in pregnant women developing pre-eclampsia, thus leading to an enhanced vasoconstriction.

Vasoactive intestinal peptide elevates pinealocyte intracellular calcium concentrations by enhancing influx: evidence for involvement of a cyclic GMP-dependent mechanism.

Vasoactive intestinal peptide (VIP) receptor density is high in the pineal gland, which receives VIP innervation and responds to VIP with a relatively small increase in cAMP and cGMP levels. In the present study, we show that VIP (5-200 nM) treatment increased the intracellular calcium concentration ([Ca2+]i) in 64% of isolated individual pinealocytes; in comparison, norepinephrine (NE) elevated [Ca2+]i in 93% of the cells and produced more robust responses. Analysis of the role of second messengers indicated that [Ca2+]i was strongly elevated by cGMP analogs, but not by cAMP analogs. The nitric oxide-releasing agent S-nitro-N-acetylpenicillamine and 2,2-diethyl-1-nitroxyhydraxine also elevated [Ca2+]i. Investigation of the mechanisms revealed that responses to VIP or 8-bromo-cGMP involved Ca2+ influx, as did the plateau component of the response to NE; the large rapid component of the response to NE, however, appeared to reflect release from intracellular stores. Pharmacological studies indicated that the VIP-induced Ca2+ influx was mediated by a retinal rod-type cyclic nucleotidegated cation channel, expression of which was confirmed by reverse transcription-polymerase chain reaction analysis. These observations indicate that fundamentally different mechanisms generate the responses to NE and VIP. The dominant effect of VIP causing transient elevation of [Ca2+]i appears to be through cGMP gating aI-cis-diltiazem-sensitive rod-type cyclic nucleotide-gated cation channel. In contrast, the dominant effect of NE on [Ca2+]i is due to enhanced Ca2+ release from intracellular stores; the plateau component is due to influx through aI-cis-diltiazem-insensitive channel.

Pineal nitric oxide synthase: characteristics, adrenergic regulation and function.

Available studies indicate that the adrenergic stimulation of pineal cyclic GMP production involves stimulation of guanylyl cyclase activity by nitric oxide (NO) derived from arginine. This line of investigation was extended in the present study. Using a highly sensitive microassay, it was found that pineal NO synthase activity is present at levels approximately 30% of those in the cerebellum, that approximately 95% of enzyme activity is cytoplasmic, that the enzyme is Ca2+/calmodulin-dependent and that enzyme activity is inhibited by the arginine analog NG-nitro-L-arginine methyl ester (L-NAME). Norepinephrine treatment of intact glands in culture increased [3H]citrulline formation from [3H]arginine. This treatment also increased the formation of an NO-like compound, indicating that NO synthase activity in the intact gland is elevated by adrenergic stimulation. Studies on the effects of inhibition of NO synthase activity indicated that treatments known to inhibit NO synthase activity and the adrenergic stimulation of cyclic GMP accumulation did not inhibit adrenergic stimulation of pineal cyclic AMP, N-acetyltransferase activity or melatonin production. These observations support the hypothesis that NE stimulation of pineal cyclic GMP accumulation involves stimulation of a Ca2+/calmodulin-sensitive form of NO synthase, resulting in enhanced accumulation of NO; and, that although NO appears to play a role in the adrenergic stimulation of pineal cyclic GMP accumulation, it does not appear to play a critical role in the adrenergic stimulation of cyclic AMP, N-acetyltransferase activity or melatonin production.

Photoneural regulation of rat pineal nitric oxide synthase.

We report here a photoneural regulation of nitric oxide synthase (NOS) activity in the rat pineal gland. In the absence of the adrenergic stimulation following constant light exposure (LL) or denervation, pineal NOS activity is markedly reduced. A maximal drop is measured after 8 days in LL. When rats are housed back in normal light:dark (LD) conditions (12:12), pineal NOS activity returns to normal after 4 days. A partial decrease in pineal NOS activity is also observed when rats are placed for 8 days in LD 18:6 or shorter dark phases, indicating that pineal NOS activity reflects the length of the dark phase. Because it is known that norepinephrine (NE) is released at night from the nerve endings in the pineal gland and this release is blocked by exposure to light, our data suggest that NOS is controlled by adrenergic mechanisms. Our observation may also explain the lack of cyclic GMP response to NE observed in animals housed in constant light.

Nitric oxide modulates endogenous dopamine release in bovine retina.

A study of the possible modulation by nitric oxide (NO) of endogenous dopamine (DA) release was performed in bovine retina in vitro. NO synthase activity was measured in retinal homogenates and totally blocked by L-nitroarginine methyl ester (L-NA). Intact retinas were also exposed to hydroxylamine, an NO-generator which significantly decreased both basal and potassium-induced liberation of DA. In contrast, dibutyryl cGMP was ineffective. Furthermore, L-NA was able to increase basal DA release, its effects being potentiated in calcium free medium. Taken together, these results suggest that endogenous NO regulates DA release via cGMP independent mechanisms.

Single-cell [Ca2+]i analysis and biochemical characterization of pinealocytes immobilized with novel attachment peptide preparation.

Single-cell image analysis of rat pinealocytes has been difficult because they do not attach readily to coated or uncoated surfaces and typically adhere in clusters to fibroblast-like cells. In the present report, a new method for the rapid attachment of rat pinealocytes is described. Cells were prepared using papain digestion and density centrifugation and then were placed on coverslips or slides coated with PepTite-2000, a preparation containing the attachment peptide sequence Arg-Gly-Asp. Cells immobilized with this preparation responded to norepinephrine treatment with an increase in cyclic AMP and melatonin production. Single-cell analysis of Fura-2-loaded cells revealed that norepinephrine increased [Ca2+]i. This development makes it possible to conduct routine single-cell image analysis and other studies of freshly isolated rat pinealocytes.

Morphological and immunocytochemical heterogeneity of cultured pinealocytes from one-week- and two-month-old rats: planimetric and densitometric investigations.

In vitro preparations of rat pinealocytes are widely used for biochemical analyses of signal transduction processes. This paper deals with morphological and immunocytochemical features of such preparations. Special attention was paid to the problems of whether pinealocytes represent a heterogeneous cell population and how such heterogeneity may develop during ontogeny. The investigations were performed with cells which were obtained from the pineal organ of one-week- and two-month-old rats, attached to synthetic peptide-coated coverslips or tissue culture chamber slides, and maintained under in vitro conditions overnight. The attached cells were then fixed with paraformaldehyde. These preparations yielded monolayers of spherical cells of different sizes; most cells were isolated, but some of them were aggregated and formed small clusters. On the average, the cells from the one-week-old animals were smaller than the cells from the two-month-old animals. Immunocytochemical demonstration of S-antigen, a pinealocyte-specific marker, showed that the majority of the cells from two-month-old animals were intensely or moderately labelled. Pinealocytes from one-week-old animals were less S-antigen immunoreactive. Only very few cells (less than 1/1000 displayed glial fibrillary acidic protein (GFAP)-immunoreactivity. Planimetric investigations of the cell size and semiquantitative densitometric investigations of the intensity of the S-antigen immunoreaction revealed that (i) pinealocytes kept in vitro form a heterogeneous cell population, and that (ii) this heterogeneity increased during postnatal development from one-week-old to two-month-old animals. Two groups of pinealocytes can be distinguished based on their developmental fate: pinealocytes of one group grow dramatically, but show only a moderate increase in S-antigen immunoreactivity, and pinealocytes of the other group retain their size, but display a distinct increment in S-antigen immunoreactivity.

Calcium potentiates cyclic AMP stimulation of pineal arylalkylamine N-acetyltransferase.

Pineal arylalkylamine N-acetyltransferase (N-acetyltransferase) controls large daily changes in melatonin production. It is generally thought that the activity of this enzyme is controlled by norepinephrine acting exclusively via elevation of cyclic AMP. However, norepinephrine also elevates pineal intracellular Ca2+ concentration ([Ca2+]i), and it is not known whether Ca2+ is involved in regulating N-acetyltransferase activity other than through its established role in cyclic AMP production. In this study, the issue of whether Ca2+ enhances the effects of cyclic AMP on N-acetyltransferase activity was investigated. The effects of cyclic AMP protagonists (isobutylmethylxanthine, N6,2'-O-dibutyryladenosine 3',5'-cyclic monophosphate, 8-bromoadenosine 3',5'-cyclic monophosphate, and adenosine 3',5'-cyclic monophosphothioate, Sp-diastereomer) were examined in combination with [Ca2+]i protagonists (A23187, ionomycin, and phenylephrine). All [Ca2+]i protagonists potentiated the effects of cyclic AMP protagonists. For example, ionomycin potentiated the effects of low concentrations of 8-bromoadenosine 3',5'-cyclic monophosphate, and A23187 potentiated the effects of isobutylmethylxanthine without altering cyclic AMP accumulation. These findings indicate that Ca2+ and cyclic AMP probably act physiologically in a coordinated manner to stimulate N-acetyltransferase activity; these second messengers could act directly at one or more sites or through indirect actions mediated by kinases.

Recoverin in pineal organs and retinae of various vertebrate species including man.

Recoverin is a recently discovered 26 kDa calcium-binding protein, which activates guanylate cyclase in retinal photoreceptors when the intracellular concentration of free calcium drops upon photoexcitation. In this study we examined the distribution of recoverin in retinae and pineal organs of Xenopus laevis larvae, 1-day-old chicken, adult pigeon, albino rat, sheep and man by means of immunocytochemistry. Recoverin immunoreaction was found in all species investigated except for the chicken. In the retina, recoverin immunoreaction was restricted to photoreceptors; all other cell types were immunonegative. In the pineal organ, the recoverin immunoreaction labeled 'pinealocytes of the sensory line', i.e. classical pineal photoreceptors of Xenopus laevis larvae, modified pineal photoreceptors of pigeon, and pinealocytes of mammals. The number of recoverin immunoreactive pinealocytes varied considerably among species of mammals: very few cells were stained in the rat pineal organ, whereas in rabbit, sheep and man, numerous pinealocytes were found to be recoverin-immunoreactive. No immunocytochemical staining was observed after preabsorption of the recoverin antibody with the recombinant protein. Immunoblotting experiments showed that the immunoreaction is due to a protein of 26 kDa in both retina and pineal tissue. Thus, recoverin appears to belong to the family of proteins which are expressed in both retina and pineal organ and are highly conserved in the course of phylogeny. Recoverin may be involved in phototransduction in the directly light-sensitive pineal organs of poikilothermic vertebrates and birds. However, the functional role of recoverin in the mammalian pineal organ, which is not photosensitive, remains unknown.

Development of MEKA (phosducin), G beta, G gamma and S-antigen in the rat pineal gland and retina.

Pinealocytes and retinal photoreceptor cells contain an unusual cytoplasmic complex composed of the G beta gamma dimer of GTP-binding regulatory proteins (G-proteins) tightly bound to an acidic 33 kDa phosphoprotein termed MEKA or phosducin; MEKA is a substrate of cyclic AMP-dependent protein kinase. This study characterized the developmental appearance of these and two related proteins, G gamma and S-antigen, in pineal and retinal tissue. MEKA was absent in the pineal gland prior to birth, at a time when it was possible to detect G beta in pineal cytoplasm, indicating that the appearance of G beta in the cytoplasm precedes that of MEKA and does not appear to require the presence of MEKA. The absence of MEKA at this time indicates that the cyclic AMP stimulation of pineal serotonin N-acetyltransferase activity is not mediated by MEKA, which has been considered as a possible role of MEKA. After postnatal day 7, pineal MEKA and cytoplasmic G beta increased in a parallel manner, with peak values occurring at about postnatal day 21. Thereafter, both proteins in the pineal gland decreased in a parallel fashion to 10 and 35% of their peak values, respectively; in contrast, the cytoplasmic protein S-antigen and membrane associated G beta remained at maximal levels after this time. Whereas both MEKA and G beta decreased late in development in the pineal gland, these proteins either increased or remained constant in the retina. These tissue-specific patterns were found to differ from those of another cytosolic protein found exclusively in the pineal gland and retina, S-antigen, which remained constant after day 21 in the pineal gland but decreased in the retina late in life.

Characterization of alpha 2-adrenergic receptors on rat pinealocytes.

alpha 2-Adrenergic receptors in rat pineal membranes were characterized using p-[125I]iodoclonidine, a highly selective, high specific activity ligand. Binding was rapid (association constant rate = 0.0462 nM/min-1) and reversible after the addition of phentolamine (apparent dissociation rate constant = 0.04 min-1). Saturation experiments indicate the presence of a single class of noncooperative binding sites, with an equilibrium binding constant (Kd) of 1.1 +/- 0.3 nM and a binding capacity (Bmax) of 69 +/- 9 fmol/mg protein. Analysis of the relative potency of selected adrenoreceptor agonists and antagonists in competition studies with p-[125I]iodoclonidine indicates that the ligand is binding to a member of the family of alpha 2-adrenergic receptors that has a high affinity for oxymetazoline, phentolamine, and (-)norepinephrine and a low affinity for prazosin, similar to the recently described alpha 2-adrenergic receptor present in the bovine pineal gland, classified as belonging to the newly described alpha 2D-adrenergic receptor subtype. Rat pineal alpha 2-adrenergic receptors were unaltered after nerve endings degenerated. This observation and the recent finding that alpha 2-adrenergic agonists potentiate N6,2'-O-dibutyryl-cAMP or isobutylmethylxanthine stimulation of arylalkylamine N-acetyltransferase in the rat pineal gland establish that alpha 2D-like adrenergic receptors are located on pinealocytes.