Hypothalamic regulation of circadian noradrenergic input to the chick pineal gland

Summary While the avian pineal gland contains circadian oscillators and photoreceptors capable of producing circadian rhythms of the hormone melatonin, it is extensively innervated by post-ganglionic fibers of the superior cervical ganglia which release norepinephrine (NE) rhythmically. Norepinephrine turnover is higher during subjective day than during subjective night. In mammals, this rhythmic input, which is higher in subjective night than subjective day, derives from the hypothalamic suprachiasmatic nuclei (SCN) and is essential for rhythmic melatonin production. The present study was designed to determine whether one of two candidates for the avian homologue of the mammalian SCN is necessary for rhythmic NE turnover in the chick pineal gland. Either electrolytic lesions or sham lesions were delivered to the periventricular preoptic nuclei (PPN) or to the visual suprachiasmatic nucleus (vSCN). After recovery, the rates of decline in [NE] were determined following pretreatment with -methyl-p-tyrosine, a tyrosine hydroxylase inhibitor, at mid-subjective day or at mid-subjective night. Birds receiving sham surgeries in either PPN or vSCN and birds receiving lesions of the PPN exhibited rhythmicity in NE turnover. No rhythm of NE turnover could be determined in birds with ablated vSCN.Abbreviations AMPT -methyl-p-tyrosine - DS supraoptic decussation - EBZ ear bar zero (see Methods) - GLv ventral lateral geniculate body - NE norepinephrine - PPN periventricular preoptic nuclei - RH retinohypothalamic projection - SCN suprachiasmatic nuclei - vSCN visual suprachiasmatic nucleus     

Localisation of [3H] clonidine binding in rat neurohypophysis by means of electron-microscopic autoradiography

Summary Electron-microscopic autoradiography of rat neurohypophyses treated with [³H] clonidine, an ₂-agonist, showed that binding apparently occurred preferentially at the neurosecretory endings and blood vessels rather than on the pituicytes. Since it is known that clonidine has a high affinity for plasma proteins, the distribution over the neurosecretory nerve endings would suggest the existence of presynaptic ₂-binding sites on neurosecretory neurones, which could indicate a regulatory function for catecholamines in neurohypophysial hormone release.     

Syntheses and biological activities of atrial natriuretic polypeptide analogs

Recently several peptides with natriuretic and diuretic potencies were isolated from human and rat atrial extract, and the precursors of the peptides were sequenced. Of the peptides, -human and rat atrial natriuretic polypeptides (-hANP, -rANP), consisting of 28 amino acids, are thought to be essential to the potency and to play an important role in the blood pressure regulation system. The amino acid sequence of -hANP is different from that of -rANP only at the position 12 (isoleucine in -rANP). In the present study, we synthesized ANPs and their analogs using a new deprotection procedure based on the concept of push-pull mechanism. Using the synthetic ANP analog, we also developed a radioimmunoassay for -ANP and examined the structure-activity relationship. Synthetic -hANP caused potent, rapid, and short-acting increases in Na⁺ and Cl^– excretion, and also an increase in urine flow and K⁺ excretion of lesser magnitude, when injected into rat. Also, we synthesized a cyclic part of -hANP, -ANP(7–23)-NH₂. Since this peptide had a little diuretic and natriuretic potency, we attempted to synthesize a chemically stable -hANP analog. We considered that the disulfide bond would be equivalent to propylene with regard to interatomic distance and employed 8-aminocaprylic acid instead of cystine. This cyclic peptide, named cyclonatrin-54, had a somewhat higher potency than -hANP(7–23)-NH₂ for diuresis and natriuresis, as expected. Furthermore, using a synthetic intermediate of cyclonatrin-54, we prepared a linear ANP analog, -hANP(8–22), Phe-Gly-Gly-Arg-Met-Asp-Arg-Ile-Gly-Ala-Gln-Ser-Gly-Leu-Gly. This linear 15-amino acid peptide had a dose-dependent natriuretic and diuretic activity, but no hypotensive effect. It was surprising that a linear peptide exhibited a potent natriuretic activity. For the first time, a linear peptide has been prepared that has substantial natriuretic and diuretic potency. We synthesized some analogs of this 15-amino acid peptide and investigated the structure-activity relationship.This article was presented during the proceedings of the International Conference on Macromolecular Structure and Function, held at the National Defence Medical College, Tokorozawa, Japan, December 1985.     

Distribution of CK2, its substrate MAP1B and phosphatases in neuronal cells

Neuronal morphogenesis depends on the organization of cytoskeletal elements among which microtubules play a very important role. The organization of microtubules is controlled by the presence of microtubule-associated proteins (MAPs), the activity of which is modulated by phosphorylation and dephosphorylation. One of these MAPs is MAP1B, which is very abundant within growing axons of developing neurons where it is found phosphorylated by several protein kinases including CK2. The expression of MAP1B is notably decreased after neuronal maturation in parallel with a change in the localization of the protein, which becomes largely concentrated in neuronal cell bodies and dendrites. Interestingly, MAP1B remains highly phosphorylated at sites targeted by protein kinase CK2 in mature neurons.We have analyzed the expression and localization of CK2 catalytic subunits along neuronal development. CK2 subunit appears early during development whereas CK2 subunit appears within mature neurons at the time of dendrite maturation and synaptogenesis, in parallel with the change in the localization of MAP1B. CK2 subunit is found associated with microtubule preparations obtained from either grey matter or white matter from adult bovine brain, whereas CK2 subunit is highly enriched in microtubules obtained from grey matter. These results lend support to the hypothesis that CK2 subunit is concentrated in neuronal cell bodies and dendrites, where it associates with microtubules, thus contributing to the increased phosphorylation of MAP1B in this localization in mature neurons.     

Circadian organization in the ruin lizard Podarcis sicula: the role of the suprachiasmatic nuclei of the hypothalamus

The effects of electrolytic lesions to the suprachiasmatic nuclei of the hypothalamus (SCN) on circadian rhythms of locomotor activity were examined in ruin lizards Podarcis sicula maintained in constant darkness and constant temperature (29°C). All lizards (N=15) in which the lesion damaged 80% or more of the SCN became behaviorally arrhythmic. On the contrary, locomotor rhythms persisted in all cases (N=11) when the SCN remained intact and lesions were confined to neighbouring regions of the preoptic area. Taken together with previous work which demonstrates that the pineal and the retinae are not essential for the persistence of circadian locomotor rhythmicity in Podarcis sicula and with recent evidence showing the homology between the SCN of lizards and those of mammals the present results strongly support the view that the SCN of Podarcis sicula contain the primary pacemaker(s) for locomotor rhythms.Abbreviations DD constant darkness - LL constant light - SCN suprachiasmatic nuclei of the hypothalamus - PH nucleus periventricularis hypothalami - OC optic chiasm - te length of circadian activity - freerunning circadian period     

Specific binding of kainic acid to purified subcellular fractions from rat brain

The subcellular distribution of kainic acid (KA) binding sites in rat brain has been studied using a microcentrifugation assay. KA did not bind to myelin or brain cytosol and had few or no binding sites in the nuclear fraction. However, it bound to microsomal components (K _d =128–136 nM; 2.5–4.8 pmol/mg protein), purified synaptic plasma membranes (SPM) (K _d =45–71 nM; 5.8–6.5 pmol/mg), and purified cell-body and intraterminal mitochondria (K _d =11–31 nM; 0.4–1.1 pmol/mg). Bound KA could be totally displaced byl-glutamate orl-aspartate, but several putative antagonists of these amino acids (nuciferin, compound HA-966, 2-amino-4-phosphonobutyrate, and 2-amino-3-phosphonoproprionate) failed to displace KA or did so at very high concentrations (4 mM). Glutamic acid diethyl ester (GDEE) andd,l--aminoadipate (-AA) were more effective (IC₅₀, 0.2–0.8 mM) and showed differential effects in their capacity to displace KA bound to the various subcellular fractions. Thus, GDEE only displaced 40–60% of the KA bound by SPM or mitochondria and did not prevent the binding of KA to microsomes. -AA, on the other hand, was more effective in preventing the binding of KA at high concentrations and displaced between 80 and 100% of the drug. Both compounds showed biphasic curves of KA displacement from synaptic plasma membranes and mitochondria. The overall results indicate the presence of multiple binding sites for KA in brain cells and suggest that KA does not act exclusively at synaptic glutamate receptors. The mechanism of KA action is most likely quite complex, and the drug probably acts at multiple binding sites affecting a number of processes.     

Localization of GABAA receptors in the rabbit retina

The distribution of gamma-aminobutyric acid_A (GABA_A) receptors in the rabbit retina is investigated and compared with the distribution of GABAergic neurons using immunocytochemical methods. Antibodies against the 1, 2/3, and 2 subunits of the GABA_A receptor label subpopulations of bipolar, amacrine and ganglion cells. Double labeling experiments show that the 2 subunit is colocalized with the 1 and the 2/3 subunits in bipolar, amacrine and ganglion cells. Electron microscopy reveals that in the outer plexiform layer, GABA_A receptor immunoreactivity is present on dendrites of cone bipolar cells adjacent to the cone pedicles. Bipolar cell dendrites are also receptor-positive at synapses from interplexiform cells. Some receptor immunoreactivity is found intracellularly in processes of horizontal cells. In the inner plexiform layer, GABA_A receptor immunoreactivity is present on both rod bipolar and cone bipolar axon terminals at putative GABAergic input sites. Amacrine and ganglion cell processes in sublamina a and b are also labeled.     

Effect of age on α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) binding sites in the rat brain studied by in vitro autoradiography

Receptors for excitatory amino acid,L-glutamate, have been classified into three subtypes named as N-methyl-D-aspartate (NMDA), quisqualate (QA) and kainate receptors. In the present study, an effect of age on binding sites of [³H]-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (³H-AMPA), a QA agonist, was studied in the rat brain through quantitative in vitro autoradiography.³H-AMPA binding sites were most concentrated in the hippocampus and cerebral cortex where glutamate receptors have been demonstrated to play a role in synaptic transmission. In aged rats,³H-AMPA binding sites in the hippocampus and cerebral cortex were not significantly changed. In our previous studies, it was noticed that strychnine-insensitive glycine receptors, which functionally coupled with NMDA receptors, showed marked age-dependent decreases in telencephalic regions. It has been shown that the glutamatergic neuronal system is involved in learning and memory. Nevertheless, it is considered that AMPA binding sites are not involved in the decline of neuronal functions, especially impairment of learning and memory, accompanying with aging process.     

Substance P in the suprachiasmatic nucleus of the rat: an immunohistochemical and in situ hybridization study

Using a biotin-streptavidin-horseradish peroxidase (HRP) immunohistochemical technique the distribution of substance P-immunoreactive neuronal elements was investigated in the rat suprachiasmatic nucleus (SCN). Substance P-immunoreactive nerve fibres and varicosities were distributed throughout the suprachiasmatic nucleus, with the largest accumulation in its ventral part. Because this location overlaps with the innervation of retinal afferents, the distribution and density of substance P-immunoreactive fibres in bilaterally enucleated rats were compared to normal rats. The density of substance P-immunoreactive fibres and nerve terminals in the ventral part of the suprachiasmatic nuclei was reduced in the rats with bilateral destruction of the optic nerves, whereas the density of fibres and nerve terminals in the dorsal part as well as other retinal target areas in the thalamus and mesencephalon was unaffected. In rats pretreated with an intraventricular injection of colchicine several substance P-immunoreactive perikarya were identified in the suprachiasmatic nucleus. The immunoreactive neurons, measuring 9.7 m±1.1 m in diameter, were frequently observed in the central core of the nucleus and to a lesser extent in the dorsomedial and ventrolateral subparts. Using in situ hybridization histochemistry pre-protachykinin-A mRNA was found in the same part of the SCN indicating that synthesis of substance P takes place in SCN neurons. Using a double immunohistochemical approach applying diaminobenzidine and benzidinedihydrochloride as chromagens substance P-, vasoactive intestinal peptide (VIP)-, and vasopressin/neurophysin-immunoreactivities were identified in the same brain section. The substance P-immunoreactive perikarya constituted a separate population of SCN neurons, which were not vasopressin-, neurophysin- or VIP-immunoreactive. Taken together, these observations show that substance P is contained in the retinohypothalamic pathway and within a group of SCN cell bodies, indiating that substance P may play a role in the generation and entrainment of circadian rhythmicity.     

The alpha2-adrenergic receptor system in the hypothalamus of the Pekin duck

Summary In the present study, we have employed the monoradioiodinated ₂-agonist clonidine ([¹²⁵I]-CLO) to characterize duck hypothalamic ₂-adrenoceptors and to localize ₂-specific binding sites in the duck brain. To validate the ₂-specificity of [¹²⁵I]-CLO using an enriched duck hypothalamic membrane fraction, a radioreceptor assay was established by altering the membrane protein concentration, time, temperature and ionic milieu of incubation, and in the presence or absence of protease inhibitors. Competitive displacement studies revealed the following sequence of potency to displace [¹²⁵I]-CLO: yohimbine>(-)-epinephrine>clonidine> (-)-norepinephrine>phentolamine>(-)-phenylephrine>(-)-isoproterenol>prazosin. The non-hydrolyzable guanosine 5-triphosphate analog guanylylimidodiphosphate markedly inhibited [¹²⁵I]-CLO binding suggestive of G-protein involvement. With regard to the histological distribution, diencephalic structures, such as the habenula and the nucleus reticularis of the thalamus, were densely labeled by [¹²⁵I]-CLO. In the hypothalamus, ₂-adrenoceptors were detected in the antidiuretic hormone-synthesizing nucleus paraventricularis, the nucleus praeopticus medialis, the nucleus anterior medialis hypothalami, the nucleus magnocellularis praeopticus, the nucleus commissurae pallii, the nucleus inferior hypothalami and the regio lateralis hypothalami. Circumventricular organs, such as the plexus choroidei, organum subfornicale, organum paraventriculare and the corpus pineale, were endowed with ₂-specific binding sites, as were the cell layers of the tectum opticum. In addition, telencephalic structures revealed high receptor densities. The presence of well characterized ₂-specific adrenoceptors in hypothalamic structures of the duck brain including associated telencephalic regions supports physiological investigations with regard to functional ₂-adrenergic modulation of antidiuretic hormone release in the duck.     

Ganglion cells of chicken retina possess nicotinic rather than muscarinic acetylcholine receptors

Chicken retinas were exposed to intravitreal kainic acid to destroy amacrine and bipolar cells at low concentrations, and horizontal cells at high concentrations in addition. Ganglion cells were destroyed by intravitreal injections of colchicine. Low doses of kainic acid reduced the number of binding sites for both [³H]quinuclidinyl benzilate (muscarinic acetylcholine receptors) and N-[propionyl ³H]-bungarotoxin (nicotinic acetylcholine receptors), with little additional loss at higher doses. In contrast, colchicine reduced the number of binding sites for N-[propionyl-³H]-bungarotoxin, but had little or no effect on the number of binding sites for [³H]quinuclidinyl benzilate. These results are consistent with the idea that, in chicken retina, cholinergic amacrine cells make contact with ganglion cell dendrites at sites which possess mainly nicotinic acetylcholine receptors, while both types of receptor are involved in interactions between amacrine cells and perhaps bipolar cells.     

Why rods and cones?

In continuation of a previous paper, the auxiliary signal focussing properties of more complicated spinal neuronal networks are considered here. Special emphasis is put on the distributive function of the recurrent feedback system of -motoeurones, but also the inhomogeneous distribution of excitatory and inhibitor input to motoneurones is taken into account as an essential prerequisite for signal focussing. Simple hypothetical calculations for steady-state conditions yield a more vivid insight into the interaction of the two types of neuronal circuitry contributing to signal focussing.     

Circadian oscillation of the multiple unit activity in the guinea pig suprachiasmatic nucleus

Summary In the guinea pig with chronically implanted electrodes, neuronal multiple unit activity (MUA) was recorded inside and outside the suprachiasmatic nucleus (SCN). Long-term recording of the SCN indicated distinct daily rhythms with a daytime peak in MUA during a 24-h light-dark (LD 1212) cycle. On the other hand, MUA recorded from adjacent hypothalamic regions outside the SCN showed a phase reversal with a nighttime peak, similarly to the rat. The amplitude of the rhythms recorded outside the SCN was much smaller (one-half to one-quarter) than that inside the SCN. These rhythms persisted during constant darkness indicating characteristics of endogenous circadian rhythmicity. When the external lightdark cycle was delayed abruptly for 12 h, MUA rhythms showed a gradual phase shift taking 7–10 days for complete reentrainment. Overt behavior including sleep-wakefulness did not show significant and consistent daily or circadian rhythms in spite of the distinct oscillation in neuronal activity inside the SCN.Abbreviations SCN suprachiasmatic nucleus - MUA multiple unit activity     

Localization of metabotropic glutamate receptors in the outer plexiform layer of the goldfish retina

We studied the localization of metabotropic glutamate receptors (mGluRs) in the goldfish outer plexiform layer by light-and electron-microscopical immunohistochemistry. The mGluR1α antibody labeled putative ON-type bipolar cell dendrites and horizontal cell processes in both rod spherules and cone triads. Immunolabeling for mGluR2/3 was absent in the rod synaptic complex but was found at horizontal cell dendrites directly opposing the cone synaptic ribbon. The mGluR5 antibody labeled Müller cell processes wrapping rod terminals and horizontal cell somata. The mGluR7 antibody labeled mainly horizontal cell dendrites invaginating rods and cones and some putative bipolar cell dendrites in the cone synaptic complex. The finding of abundant expression of various mGluRs in bipolar and horizontal cell dendrites suggests multiple sites of glutamatergic modulation in the outer retina. Financial support for this work was provided by Conselho Nacional de Pesquisa (CNPq), Brazil (grant 200915/98-3 to C.J.)     

An investigation into the feasibility of using azide-insensitive ATPase and ConA as yeast plasma membrane markers

Cytochemical localization of Concanavalin A binding sites in protoplasts of Candida tropicalis, investigated with glycosylated-ferritin and electron microscopy, showed that the lectin was specifically bound to the external protoplast surface. Thus, the plasma membranes have been labelled with ¹²⁵I-Concanavalin A and followed through the isolation procedure. Relative distribution of ¹²⁵I-radioactivity and azide-insensitive ATPase activity in the obtained fractions, suggested that this enzyme was an equivocal plasma membrane marker. Despite the presence of internal Concanavalin A binding sites, Concanavalin A could be used unambiguously as an exogenous plasma membrane marker of intact protoplasts.Abbreviations ConA Concanavalin A - MM -Methyl-D-Mannoside     

Expression Patterns of α-Synuclein in Human Hematopoietic Cells and in Drosophila at Different Developmental Stages

-Synuclein, a presynaptic protein of the central nervous system, has been implicated in the synaptic events such as neuronal plasticity during development and learning, and neuronal degeneration under pathological conditions. As an effort to understand the biological function of -synuclein, we examined the expression patterns of -synuclein in various human hematopoietic cells, and in Drosophila at different developmental stages. The -synuclein was ubiquitously expressed in all the tested hematopoietic cells including T cells, B cells, NK cells, and monocytes, as well as in the lymphoma cell lines, Jurkat and K562. A potential -synuclein homologue was also expressed in Drosophila, and its expression appeared to be temporally and spatially regulated during development. Our data suggest that -synuclein may function in invertebrates as well as in vertebrates and its function may not be restricted to the neuron.     

Cytochemistry of colloidal iron binding to the surface of hela cells and human erythrocytes

Summary It seems from the literature that colloidal iron (C.I.) binding sites on cell surfaces cannot be completely removed by treatment with Vibrio Colerae -neuraminidase. We wondered if C.I. particles bind to negative groups other than the carboxyl groups of sialic acids. Using HeLa cells from suspension cultures and fresh human erythrocytes, we examined, with the transmission electronmicroscope, the influence of the following enzymatic and histochemical treatments on C.I. staining: -neuraminidase; hyaluronidase; ribonuclease; -amylase; mild methylation (MM); MM+saponification (Sap.); MM+Sap+MM; MM+Sap+-neuraminidase; active methylation (AM); AM+Sap; AM+Sap+AM; AM+Sap+-neuraminidase; CH₃OH (80%); Sap. It seemed from these experiments that the carboxyl groups of -neuraminidase sensitive sialic acids constitute the majority of binding sites for C.I. to these particular cells. The most interesting candidates for the residual binding of C.I. are carboxyl groups of -neuraminidase resistant molecules, sulfon, sulfin, and sulfate groups.Supported by a grant from the Algemene Spaar- en Lijfrentekas Cancer FundThe authors gratefully acknowledge the technical assistance of L. Baeke, O. Claeys and J. Roels van Kerckvoorde     

The ultrastructural localization and quantitation of cholinergic receptors at the mouse motor endplate

Summary The snake venom toxin, -bungarotoxin, is known to bind specifically to the acetylcholine receptor at skeletal muscle endplates. In this study, tritiated -bungarotoxin has been used in conjunction with electron-microscope autoradiography to visualize and enumerate acetylcholine receptor sites at the neuromuscular junctions of the mouse diaphragm. From an analysis of the grain distribution, the receptor sites appear to be located specifically on the postjunctional membrane. The density there is about 8,500/² of membrane surface. For comparison purposes, cholinesterases and related active centers were labeled using [³H] diisopropylfluorophosphate; they were shown to be at this same concentration over the synaptic membranes (or along the cleft). The 11 relationship of the receptors to the cholinesterase type of site, found previously to hold in studies on whole endplates, is also true at the ultrastructural level in this case. In fact, this 11 relationship is believed to be a characteristic of the postsynaptic membranes of endplates in other muscles and other vertebrates.Based on the constant density value thus arrived at, the total surface areas of postsynaptic and of presynaptic membranes are at once obtained from the known total numbers of these sites per endplate, available from previous studies in this laboratory. Examples of such synaptic surface area values are given. These values are only reliable for a given muscle type if the approximate fiber size is defined.     

The alpha-subunit of glycoprotein hormones exists in the prolactin secretory granules of the bullforg (Rana catesbeiana) pituitary gland

Summary Our recent finding that the number of immunoreactive -subunit cells was invariably greater than the total number of immunoreactive gonadotropin (GTH) and thyrotropin (TSH) cells in the bullfrog (Rana catesbeiana) pituitary gland raises the possibility that the -subunit also exists in pituitary cells other than GTH and TSH cells. The present study demonstrates that there are a considerable number of immunoreactive prolactin (PRL) cells that are also stained with antibody against the -subunit when adjacent sections are immunocytochemically examined. Neither immunoreactive growth hormone nor adrenocorticotropin cells are stained with the antibody against the -subunit. The specificity of the antibody against the -subunit and of that against PRL was demonstrated by preabsorption test, non-competitive binding test, and immunoblot analysis. Double-immunolabeling with gold particles of different sizes for the -subunit and PRL revealed that most of the immunolabeled PRL-secretory granules are also labeled with the -subunit antibody. The gold particles indicating the presence of the -subunit were mostly found in the peripheral zone of the secretory granules.