Advanced search
Publication Cover
International Journal of Neuroscience Volume 61, 1991 - Issue 3-4
Submit an article Journal homepage
86
Views
52
CrossRef citations to date
0
Altmetric
Review Article

Relevance of the Habenular Complex to Neuropsychiatry: A Review and Hypothesis

Reuven Sandyk Department of Psychiatry, Albert Einstein College of Medicine, Montefiore Medical Center, Bronx, NY, 10461, USA
Pages 189-219 | Received 10 Nov 1990, Published online: 07 Jul 2009

References

  • Akagi K., Powell E. W. Differential projection of habenular nuclei. Journal of Comparative Neurology 1968; 132: 264–274
  • Araki M., McGeer P. L., McGeer E. G. Retrograde HRP tracing combined with a phar-macohistochemical method for GABA transaminase for the identification of presumptive GABAergic projections to the habenula. Brain Research 1984; 304: 271–277
  • Artymyshyn R., Eckenrode T. C., Murray M. Opiate binding sites in the interpeduncular nucleus of the rat: normal distribution and the effects of fasciculus retroflexus lesions. Neuro-science 1987; 23: 159–172
  • Atweh S. F., Kuhar M. J. Autoradiographic localization of opiate receptors in rat brain. II. The brain stem. Brain Research 1977; 129: 1–12
  • Barry J. Les voies extra-hypophysaires de la neurosecretion diencephalique. Association de Anatomistes 1956; 89: 264–276
  • Beckstead R. M., Domesick V. B., Nauta W. J. J. Efferent connections of the substantia nigra and ventral tegmental area in the rat. Brain Research 1979; 175: 191–217
  • Belin M. F., Aguera M., Nanopolous D., Gamrani H., Maitre M., Calas A., Pujol J. F. A radiographic and immunocytochemical study of the GABA systems in the habenula complex in the rat. Neurochemistry International 1982; 4: 303–312
  • Benabid A. L., Henriksen S. J., McGinty J. F., Bloom F. E. Thalamic nucleus ventro-postero-lateralis inhibits nucleus parafascicularis response to noxious stimuli through a non-opioid pathway. Brain Research 1983; 280: 217–231
  • Benabid A. L., Mahieux G. Electrical stimulation of the rat habenular complex induces a naloxone-reversible analgesia. Society for Neuroscience, (abstract) 1984; 10: 102
  • Benabid A. L., Jeaugey L. Cells in the lateral habenula respond to high-threshold somatosensory inputs. Neuroscience Letters 1989; 96: 289–294
  • Berk M. L., Finkelstein J. A. Efferent connections of the lateral hypothalamic area of the rat: An autoradiographic investigation. Brain Research Bulletin 1982; 8: 511–526
  • Bjorklund A., Owman C., West K. A. Peripheral sympathetic innervation and serotonin cells in the habenular region of the rat brain. Zeitschrift für Zellforschung, Mikroskopie und An-atomie 1972; 127: 570–579
  • Bogerts B., Meertz E., Schonfeldt-Bausch R. Basal ganglia and limbic system pathology in schizophrenia. A morphometric study of brain volume and shrinkage. Archives of General Psychiatry 1985; 42: 784–791
  • Boyd E. S., Gardner L. C. Effect of some brain lesions on intracranial self-stimulation in the rat. American Journal of Physiology 1967; 213: 1044–1052
  • Boyd E. W., Celso M. B. Effect of some brain lesions on septal self-stimulation in the rat. American Journal of Physiology 1970; 219: 734–741
  • Braitendberg V., Kemali M. Exceptions to bilateral symmetry in the epithalamus in the lower vertebrates. Journal of Comparative Neurology 1970; 138: 137–146
  • Brown T. G. Note on the physiology of the basal ganglia and midbrain of the anthropoid ape, especially in reference to the act of laughter. Journal of Physiology 1914; 47: 195–207
  • Brown L. L., Wolfson L. I. Apomorphine increases glucose utilization in the substantia nigra, subthalamic nucleus and corpus striatum of rat. Brain Research 1978; 140: 188–193
  • Brown G., Grota L., Niles L. Melatonin: origin, control of circadian rhythm and site of action. Melatonin: current status and perspectives, N. Birau, W. Schloot. Pergamon Press, New York 1981; 193–196
  • Buijs R. M., Pevet P. Vasopressin and oxytocin-containing fibers in the pineal gland and subcommissural organ of the rat. Cell Tissue Research 1980; 205: 11–17
  • Butler I. J., Doslow S. H., Seifert W. E. Biogenic amine metabolism in Tourette syndrome. Annals of Neurology 1979; 6: 37–39
  • Carvey P. M., Braun A., Kato L. C., Klawans H. L. The effects of typical and atypical neuroleptic agents on regional cerebral glucose metabolism in the rat. Society for Neuroscience (abstract) 1985; 11: 1261
  • Carvey P. M., Chiung Kao L., Klawans H. L. The effect of bilateral kainic-acid induced lateral habenular lesions on dopamine-mediated behaviors. Brain Research 1987; 409: 193–196
  • Casey K. I. Unit analysis of nociception mechanisms in the thalamus of the awake squirrel monkey. Journal of Neurophysiology 1966; 29: 727–750
  • Chafetz M. D., Gage F. H. Pineal and habenular innervation altered by septal lesions. Brain Research Bulletin 1983; 10: 27–31
  • Christoph G. R., Leonzio R. J., Wilcox K. S. Electrical stimulation of the lateral habenular inhibits singe dopamine-containing neurons in the substantia nigra and ventral tegmental area. Society for Neuroscience, (abstract) 1983; 10: 292
  • Christoph G. R., Leonzio R. J., Wilcox K. S. Stimulation of the lateral habenula inhibits dopamine-containing neurons in the substantia nigra and ventral tegmental area of the rat. The Journal of Neuroscience 1986; 6: 613–619
  • Cohen S. R., Melzack R. Morphine injected into the habenula and dorsal posteromedial thalamus produces analgesia in the formalin test. Brain Research 1985; 359: 131–139
  • Cohen S. R., Melzack R. Habenula stimulation produces analgesia in the formalin test. Neuroscience Letters 1986; 70: 165–169
  • Conrad L. C. A., Leonard C. M., Pfaff D. W. Connections of the median and dorsal raphe nuclei in the rat: An autoradiograph and degeneration study. Journal of Comparative Neurology 1974; 156: 179–206
  • Contestabile A., Fonnum F. Cholinergic and GABA-ergic forebrain projections to the habenula and nucleus interpenduncularis: surgical and kainic acid lesions. Brain Research 1983; 275: 287–297
  • Cooper W. E., vanHoesen G. W. Stria-medullaris-habenular lesions and gnawing behavior in rats. Journal of Comparative and Physiological Psychology 1972; 79: 151–155
  • Cragg B. G. The role of the habenula in the respiratory response of the rabbit to warmth or to restraint. Experimental Neurology 1961; 4: 115–133
  • Cuello A. C, Emson P. C, Paxinos G., Jessell T. Substance P containing and cholinergic projections from the habenula. Brain Research 1978; 149: 413–429
  • Dafny N., McClung R., Strada S. J. Neurophysiological properties of the pineal body. 1. Field potentials. Life Sciences 1975; 16: 611–620
  • Dafny N. Two photic pathways contribute to pineal evoked responses. Life Sciences 1980; 26: 737–742
  • David G. F. X., Herbert J. Experimental evidence for a synaptic connection between ha-benula and pineal ganglion in the ferret. Brain Research 1973; 64: 327–343
  • Davis K. B., Stevenson M., MacLver A. H., Nielsen H. C. The effect of a lesion of the habenula on passive avoidance learning. Psychon Science 1966; 5: 5–6
  • Devinsky O. Neuroanatomy of Gilles de la Tourette's syndrome. Possible midbrain involvement. Archives of Neurology 1983; 40: 508–514
  • Donovick P. J., Burright R. G., Kaplan J., Rosenstreich N. Habenular lesions, water consumption, and palatability of fluids in the rat. Physiology & Behavior 1969; 4: 45–47
  • Doty R. W. Some anatomical substrates of emotion, and their bihemispheric coordination. Emotions and the dual brain, G. Gainotti, C. Caltagirone. Springer Verlag, Berlin 1989; 64–81
  • Duby S. E., Cotzias G. C, Papavasilliou P. S., Lawrence W. H. Injected apomorphine and orally administered levodopa in parkinsonism. Archives of Neurology 1972; 27: 474–480
  • Ebadi M. Regulation of the synthesis of melatonin and its significance to neuroendocrinology. The pineal gland, R. I. Reiter. Raven Press, New York 1984; 1–37
  • Ernst A. M., Smelik P. G. Site of action of dopamine and apomorphine on compulsive gnawing behavior in rats. Experientia 1966; 22: 837–838
  • Ernst A. M. Mode of action of apomorphine and dexamphetamine on gnawing compulsion in rats. Psychopharmacologia 1967; 10: 316–323
  • Farrell G., Taylor A. N. Neuroendocrine aspects of blood volume regulation. Annual Review of Physiology 1960; 24: 471–490
  • Fibiger H. C. The organization and some projections of cholinergic neurons of the mammalian forebrain. Brain Research Review 1982; 4: 327–388
  • Fink I. S., Smith G. P. Mesolimbocortical dopamine terminal fields are necessary for normal locomotor and investigatory exploration in rats. Brain Research 1980; 199: 359–384
  • Frankel M., Cummings J. L. Neuro-ophthalmic abnormalities in Tourette's syndrome: functional and anatomic implications. Neurology 1984; 34: 359–361
  • Fras I., Karlavage J. The use of methylphenidate and imipramine in Gilles de la Tourette's disease in children. American Journal of Psychiatry 1977; 134: 195–197
  • Gallager D. W., Aghajanian G. K. Effect of antipsychotic drugs on the firing of dorsal raphe cells-II. Reversal by picrotoxin. European Journal of Pharmacology 1976; 39: 357–364
  • Geary W. A. I., Wooten G. F. Quantitative film autoradiography of opiate agonist and antagonist binding in rat brain. Journal of Pharmacology and Experimental Therapeutics 1983; 225: 234–240
  • Goldstein R. A gabaergic habenulo-raphe pathway mediation of the hypnogenic effects of vasotocin in cat. Neuroscience 1983; 10: 941–945
  • Goldstein R. Vasotocin-like activity of cerebrospinal fluid induced by habenular lesions in cats. Neuropeptides 1985; 6: 303–310
  • Gottesfeld Z., Massari J., Muth E. A., Jacobowitz D. M. Stria medullaris: A possible pathway containing GABA-ergic afferents to the lateral habenula. Brain Research 1977; 130: 184–189
  • Gottefeld Z., Brandon C., Wu J. Y. Immunocytochemistry of glutamate decarboxylase in the deafferented habenula. Brain Research 1981; 208: 181–186
  • Greatrex R. M., Phillipson O. T. Demonstration of synaptic input from prefrontal cortex to the habenula in the rat. Brain Research 1982; 238: 192–197
  • Gurusinghe C. J., Zappia J. V., Ehrlich D. The influence of testosterone on the sex-dependent structural asymmetry of the medial habenular nucleus in the chicken. Journal of Comparative Neurology 1986; 253: 153–162
  • Hassler R. Striatal control of locomotion, intentional actions, and of integrating and perceptive activity. Journal of Neurological Sciences 1978; 36: 187–224
  • Hayes M. M. M., Knight B. K., Symington R. B. A histochemical study of the pineal body of the vervet monkey (Cercopithecus aethiops). South African Journal of Medical Science 1974; 39: 143–148
  • Heimer L., Larsson K. Impairment of mating behavior in male rats following lesions of the preoptic-anterior hypothalamic continuum. Brain Research 1966; 3: 248–263
  • Herkenham M., Nauta W. J. H. Efferent connections of the habenular nuclei in the rat. Journal of Comparative Neurology 1979; 187: 19–48
  • Herbute S., Peczely P., Astier H., Bayle J. D. Effect of bilateral lesions of the nuclei habenulae on plasma thyroxine levels in Japanese quail. Experientia 1977; 33: 912–913
  • Herman B. H., Panksepp J. Ascending endorphin inhibition of distress vocalization. Science 1981; 211: 1060–1062
  • Hokfelt T., Kellerth J. O., Nilsson G., Pernow B. Substance P localization in the central nervous system and in some primary sensory neurons. Science 1975; 190: 889–890
  • Houser C. R., Grawford G. D., Barber R. P., Salavaterra P. M., Vaughn J. E. Organization and morphological characteristics of cholinergic neurons: an immunocytochemical study with a monoclonal antibody to choline acetyltransferase. Brain Research 1983; 266: 97–119
  • Ito M., Kadekaro M., Sokoloff L. Effects of lateral habenular lesion on local cerebral glucose utilization in the rat. Brain Research 1985; 337: 245–254
  • Iwahori N. Golgi study on the habenula nucleus of the cat. Journal of Comparative Neurology 1977; 171: 319–344
  • Jacobs B. L., Foote S. L., Bloom F. E. Differential projections of neurons within the dorsal raphe nucleus of the rat: A horseradish peroxidase (HRP) study. Brain Research 1978; 147: 149–153
  • Jouvet M. The role of monoamine and acetylcholine-containing neurons in the regulation of the sleep-waking cycle. Ergebnisse der Physiologic 1972; 64: 166–307
  • Kamikawa K., McLlwain J. T., Adey W. R. Response patterns of thalamic neurons during classical conditioning. Electroencephalography and Clinical Neurophysiology 1964; 17: 485–496
  • Kappers J. A. The development, topographical relations, and innervation of the epiphysis cerebri in the albino rat. Zeitschrift fur Zellforschung 1960; 52: 163–215
  • Kataoka K., Nakamura Y., Hassler R. Habenulo-interpeduncular tract: a possible cholinergic neuron in the rat brain. Brain Research 1973; 62: 264–267
  • Kemali M., Guglielmotti V., Fiorino L. The asymmetry of the habenular nuclei of female and male frogs in spring and in winter. Brain Research 1990; 517: 251–255
  • Kizer J. S., Palkovits M., Brownstein M. J. The projections of the A8, A9, and A10 dopaminergic cell bodies: evidence for a nigral-hypothalamic-median eminence dopaminergic pathway. Brain Research 1976; 108: 363–370
  • Klawans H. L. The pharmcology of tardive dyskinesia. American Journal of Psychiatry 1973; 130: 82–86
  • Klein D. C, Smoot R., Weller J. L., Higa S., Creed S. P., Markey G. J., Kacobowitz D. M. Lesions of the paraventricular nucleus area of the hypothalamus disrupt the suprachiasmatic-spinal cord circuit in the melatonin rhythm generating system. Brain Research Bulletin 1983; 10: 647–652
  • Kopp N., Claustrat B., Tappaz M. Evidence for the presence of melatonin in the human brain. Neuroscience Letters 1980; 19: 237–242
  • Korf H. W., Wagner U. Evidence for a nervous connections between the brain and the pineal organ in the guinea pig. Cell Tissue Research 1980; 209: 505–510
  • Kouvacs S., Sandors A., Vertes Z. The effect of stimulation of the habenula nucleus on pituitary thyroid function. Acta Physiologica Hungarica 1966; 30: 39–45
  • Kozlowski M. R., Marshall J. F. Plasticity of (l4C) 2-deoxy-D-glucose incorporation into neostriatum and related structures in response to dopamine neuron damage and apomorphine replacement. Brain Research 1980; 197: 167–183
  • Kumar K., Kumar T. C. A. The habenular ependyma: A neuroendocrine component of the epithalamus in the rhesus monkey. Anatomical endocrinology, W. E. Stumpf, L. D. Grant. Karger, Basel 1975; 49–52
  • Lengvari I., Koves K., Halasz B. The medial habenular nucleus and the control of salt and water balance. Acta Biologica Hungarica 1970; 21: 75–83
  • Lindstrom L. H. The effect of long-term treatment with clozapine in schizophrenia: A retrospective study in 96 patients treated with clozapine for up to 13 years. Acta Psychiatrica Scandi-navica 1988; 77: 524–529
  • Lisoprawski A., Herve D., Blanc G., Glowinski J., Tassin J. P. Selective activation of the mesocortico-frontal dopaminergic neurons induced by lesion of the habenula in the rat. Brain Research 1980; 183: 229–234
  • London E. D., Waller S. B., Wamsley J. K. Autoradiographic localization of the (3H) nicotine binding sites in the rat brain. Neuroscience Letters 1985a; 53: 179–184
  • London E. D., Connolly R. J., Szikszay M., Wamsley J. K. Distribution of cerebral metabolic effects of nicotine in the rat. European Journal of Pharmacology 1985b; 110: 391–392
  • MacPherson P., Matheson M. S. Comparison of calcification of pineal, habenular commissure and choroid plexus on plain films and computed tomography. Neuroradiology 1979; 18: 67–72
  • Mahieux G., Benabid A. L. Naloxone-reversible analgesia induced by electrical stimulation of the habenula in the rat. Brain Research 1987; 406: 118–129
  • Marsden C. D., Jenner P. The pathophysiology of extrapyramidal side effects of neuroleptic drugs. Psychological Medicine 1980; 10: 55–72
  • McCulloch J., Savaki H. E., Sokoloff L. Influence of dopaminergic systems on the lateral habenular nucleus of the rat. Brain Research 1980; 194: 117–124
  • McCulloch J., Savaki H. E., McCulloch M., Jehle J., Sokoloff L. The distribution of alterations in energy metabolism in the rat brain produced by apomorphine. Brain Research 1982; 243: 67–80
  • Meltzer H. Y. Clinical studies on the mechanism of action of clozapine: the dopamine-serotonin hypothesis of schizophrenia. Psychopharmacology 1989; 99: S18–S27
  • Mess B. Changes of thyroidal cold response of heat adapted rats following bilateral lesions of the habenular nuclei. Acta Physiologica Hungarica 1966; 29: 388–389
  • Messiha F. S., Carlson J. C. Behavioral and clinical profiles of Tourette's syndrome: A comprehensive review. Brain Reseach Bulletin 1983; II: 195–204
  • Miline R., Scepovic M. La part du complexe habenulo-epiphysaire dans ľhistophysiologie de la glande thyroide. Annals Endocrinologie 1959; 20: 511–518
  • Mok A. C. S., Mogenson G. J. Effects of electrical stimulation of the lateral habenula nucleus and lateral hypothalamus on unit activity in the upper brain stem. Brain Research 1974; 78: 425–435
  • Moller M., Cozzi B., Schroder H., Mikkelsen J. D. The peptidergic innervation of the mammalian pineal gland. Fundamentals and clinics in pineal research, G. P. Trentini, C. De Gaetani, P. Pevet. Raven Press, New York 1987; vol. 44: 71–77
  • Moore R. Y. Indolemaine metabolism in the intact and denervated pineal, pineal stalk and habenula. Neuroendocrinology 1975; 19: 323–330
  • Moss R. L., Paloutzian R. F., Law O. T. Electrical stimulation of forebrain structures and its effect on copulatory as well as stimulus bound behavior in ovariectomized hormone-primed rats. Physiology & Behavior 1974; 12: 997–1004
  • Motohashi N., Dubois A., Scatton B. Lesions of the posterior septum or of the habenula decrease (3H) hemicholinium-3 binding (as measured by autoradiography) in the interpeduncular nucleus of the rat. Neuroscience Letters 1987; 76: 339–344
  • Motta M., Fraschini F., Giuliani G., Martini L. The central nervous system, estrogen and puberty. Endocrinology 1968; 83: 1101–1107
  • Mroz E. A., Brownstein M. J., Leeman S. E. Evidence for substance P in the habenulo-interpeduncular tract. Brain Research 1976; 113: 597–599
  • Nagy J. I., Carter D. A., Lehmann J., Fibiger H. C. Evidence for a GABA-containing projection from the entopeduncular nucleus to the lateral habenula. Brain Resarch 1978; 145: 360–364
  • Nauta W. J. H. Hippocampal projections and related neural pathways to the midbrain in the cat. Brain 1958; 81: 319–340
  • Nauta W. J. H. Evidence of a pallidohabenular pathway in the cat. Journal of Comparative Neurology 1974; 156: 19–28
  • Nauta W. J. H., Smith G. P., Faull R. L. M., Domesick V. B. Efferent connections and nigral afferents of the nucleus accumbens septi in the rat. Neuroscience 1978; 3: 385–401
  • Nauta W. J. H. The relationship of the basal ganglia to the limbic system. Handbook of clinical neurology, P. J. Vinken, G. W. Bruyn, H. L. Klawans. Elsevier Science Publishers, Amsterdam 1986; vol. 5: 19–31, extrapyramidal disorders
  • Neckers L. M., Schwartz J. P., Wyatt R. J., Speciale S. G. Substance P afferents from the habenula innervate the dorsal raphe nucleus. Experimental Brain Research 1979; 37: 619–623
  • Nielson H., McLver A. Cold stress and habenular lesions effect on rat behavior. Journal of Applied Physiology 1966; 21: 655–660
  • Nieto D., Escobar A. Major psychoses. Pathology of the nervous system, I. Minckler. McGraw-Hill Book Co., New York 1972; vol. 3: 2654–2665
  • Nishikawa T., Scatton B. Inhibitory influence of GABA on central serotonergic transmission. Involvement of the habenulo-raphe pathways in the GABA-ergic inhibition of ascending cerebral serotonergic neurons. Brain Research 1985; 331: 81–90
  • Nishikawa T., Fage D., Scatton B. Evidence for, and nature of, the tonic inhibitory influence of habenulointerpenduncular pathways upon cerebral dopaminergic transmission in the rat. Brain Research 1986; 373: 324–336
  • Norris B. K., Eichler V. B. The effect of ablation of the olfactory pits on the development of the habenular nuclei in the Rana pipiens. Journal of Embryology and Experimental Morphology 1975; 345: 657–667
  • Nurenberger F., Korf H. W. Oxytocin and vasopressin immunoreactive nerve fibers in the pineal gland of the hedgehog, Erinaceous europaeus L. Cell Tissue Research 1981; 220: 87–97
  • Ozonoff M. B., Burrows E. H. Intracranial calcification. Radiology of the skull and brain: the skull, T. H. Newton, D. G. Potts. C.V. Mosby Company, Saint Louis 1971; vol. 1: 826
  • Palkovits M., Saavedra J. M., Kobayashi R. M., Brownstein M. Choline acetyltransferase content of limbic nuclei of the rat. Brain Research 1974; 79: 443–450
  • Pasquier D. A., Anderson C, Forbes W. B., Morgane P. J. Horseradish peroxidase tracing of the lateral habenular-midbrain raphe nuclei connections in the rat. Brain Research Bulletin 1976; 1: 443–451
  • Pavel S. Arginine vasotocin as a pineal hormone. Journal of Neural Transmission 1978; 13: 135–155
  • Pavel S. Environmental physiology. Advances in physiological sciences. Pineal vasotocin and sleep, F. Obal, Benedek. Pergamon Press and Akademiai Kiado, Budapest 1981; vol. 18: 101–109
  • Pfaff D. W. Uptake of testosterone-H3 and estradiol-H3 by the male and female rat brain. An autoradiographic study. Science 1968; 161: 1355–1356
  • Pfaff D. W., Keiner M. Atlas of estradiol-concentrating cells in the central nervous system of the female rat. Journal of Comparative Neurology 1973; 151: 121–158
  • Pfaff D. W., Lewis C, Diakow C., Keiner M. Neurophysiological analysis of mating behavior responses as hormone-sensitive reflexes. Progress in physiological psychology, E. Stellar, J. Sprague. Academic Press, New York 1973
  • Phillipson O. T., Pycock C. J. Dopamine neurons on the ventral tegmentum project to both medial and lateral habenula. Experimental Brain Research 1982; 45: 89–94
  • Porro C. A., Cavazzuti M., Biral G. P., Galetti A., Benassi G., Sassatelli L. Metabolic activity pattern in the rat diencephalon upon acute noxious stimulation. Neuroscience 1987; 22: 321
  • Raush L. J., Long C. J. Habenular nuclei: a crucial link between the olfactory and motor systems. Brain Research 1971; 29: 146–150
  • Raush L. J., Long C. J. Habenular lesions and discrimination responding to olfactory and visual stimuli. Physiology & Behavior 1974; 13: 357–364
  • Reinert H. Defence reaction from the habenula nuclei, stria medullaris and fasciculus retro-flexus. Journal of Physiology 1964; 170: 28P–29P
  • Reisine T. D., Soubrie P., Artaud F., Glowinski J. Involvement of the lateral habenula-dorsal raphe neurons in the differential regulation of striatal and nigral serotonergic transmission in cats. The Journal of Neuroscience 1982; 2: 1062–1071
  • Rees H. D., Michael R. P. Brain cells of the male rhesus monkey accumulate 3H-testosterone or its metabolites. Neuroscience Abstracts 1980; 6: 372
  • Reuss S. T., Semm P., Vollrafh L. Electrophysiological investigations on the central innervation of the rat and guinea-pig pineal gland. Journal of Neural Transmission 1984; 60: 31–43
  • Reuss S. T., Olcese J., Vollrath L. Electrical stimulation of the hypothalamic paraventricular nuclei inhibits pineal melatonin synthesis in male rats. Neuroendocrinology 1985; 41: 192–196
  • Rodgers C. H., Law O. T. The effects of habenular and medial forebrain bundle lesions on sexual behavior in female rats. Psychonian Science 1967; 8: 1–3
  • Ronnekleiv O. K., Moller M. Brain-pineal nervous connections in the rat: An ultrastructure study following habenular lesion. Experimental Brain Research 1979; 37: 551–562
  • Ronnekleiv O. K., Kelly M. J., Wuttke W. Single unit recordings in the rat pineal gland: evidence for habenulo-pineal neural connections. Experimental Brain Research 1980; 39: 187–192
  • Rosa M., Gallardo G. P., Pasquier D. A. Increase in activity of choline acetyltransferase in the dorsal raphe nucleus following habenular deafferentiation. Brain Research 1980; 194: 578–582
  • Ruzsas C. Functional Relationships between pineal gland and habenular complex. Fundamental and clinics in pineal research, G. P. Trentini, C. de Gaetani, P. Pevet. Raven Press, New York 1987; vol. 44: 257–270
  • Sallanon M., Claustrat B., Touret M. Presence of melatonin in various cat brainstem nuclei determined by radioimmunoassay. Acta Endocrinologica 1982; 101: 161–165
  • Sandyk R. The effects of naloxone in Tourette's syndrome. Annals of Neurology 1985; 18: 367
  • Sandyk R., Awerbuch G. I., Kay S. R. Pineal calcification and tardive dyskinesia. Lancet 1990; 335: 1528
  • Sandyk R., Kay S. R. Habenula Calcification in Schizophrenia. International Journal of Neuroscience, (in press)
  • Sandyk R., Fisher H. Serotonin in involuntary movement disorders. International Journal of Neuroscience 1988; 42: 185–205
  • Sandyk R., Fisher H. Increased incidence and severity of neuroleptic-induced movement disorder in pinealectomized rats. International Journal of Neuroscience 1989a; 48: 303–308
  • Sandyk R., Fisher H. The protective role of the pineal gland in tardive dyskinesia. International Journal of Neuroscience 1989b; 43: 215–218
  • Sar M., Stumpe W. E., Miller R. J., Chang K. J., Cuatrecasas P. Immunohistochemical localization of enkephalin in rat brain and spinal cord. Journal of Comparative Neurology 1978; 182: 17–38
  • Sasaki K., Suda H., Watanabe H., Kaneko S., Nomura Y., Nishino H., Ono T. Habenular lesion attenuates methamphetamine-induced inhibition of dopamine activity in the substantia nigra pars compacts of rats. Neuroscience Letters 1988; 86: 67–71
  • Sasaki K., Suda H., Watanabe H., Yagi H. Involvement of the entopenduncular nucleus and the habenula in methamphetamine-induced inhibition of dopamine neurons in the substantia nigra of rats. Brain Research Bulletin 1990; 25: 121–127
  • Schaltenbrand G., Spuler H., Wahren W., Wilhelmi A. Vegetative and emotional reactions during electrical stimulation of deep structures of the brain during stereotactic procedures. Zeit-schrift für Neurologie 1973; 205: 91–113
  • Schwab R. S., Amador L. V., Lettvin J. Y. Apomorphine in Parkinson's disease. Transactions of the American Neurological Association 1951; 76: 251–263
  • Semm P., Demaine C., Vollrath L. Electrical responses of pineal cells to thyroid hormones and parathormone. A microelectrophoretic study. Neuroendocrinology 1981a; 33: 212–217
  • Semm P., Schneider T., Vollrath L. Morphological and electrophysiological evidence for habenula influence on the guinea pig pineal gland. Journal of Neural Transmission 1981b; 50: 247–266
  • Shapiro S., Salas M. Effects of age, light and sympathetic innervation on electrical activity of the rat pineal gland. Brain Research 1971; 28: 47–55
  • Skagerberg G., Lindvall O., Bjorklund A. Origin, course and termination of the mesoha-benular dopamine pathway in the rat. Brain Research 1984; 307: 99–108
  • Smale L., Cassone V. M., Moore R. Y., Morin L. P. Paraventricular nucleus projections mediating pineal melatonin and gonadal responses to photoperiod in the hamster. Brain Research Bulletin 1989; 22: 263–269
  • Smelik P. G., Ernst A. M. Role of the nigro-neostriatal dopaminergic fibers in compulsive gnawing behavior in rats. Life Sciences 1966; 5: 1485–1488
  • Sofroniew M. V., Weindl A. Projections from the parvocellular vasopressin and neurophysin-containing neurons of the suprachiasmatic nucleus. American Journal of Anatomy 1978; 153: 391–430
  • Sokoloff L., Reivich M., Kennedy C, Des Rosiers M., Patlak C. S., Pettigrew K. D., Sakurada O., Shinohara M. The (C-14) deoxyglucose method for the measurement of local cerebral glucose utilization: theory, procedure and normal values in the conscious and anesthetized rat. Journal of Neurochemistry 1977; 28: 897–916
  • Soubrie P., Reisine T., Artaud F., Glowinski J. Role of the lateral habenula in modulating nigral and striatal in vivo (3H) serotinin release in the cat. Brain Research 1981; 222: 192–197
  • Speciale S. G., Neckers L. M., Wyatt R. J. Habenular modulation of raphe indoleamine metabolism. Life Sciences 1980; 27: 2367–2372
  • Stevens J. R. Neuropathology of schizophrenia. Archives of General Psychiatry 1982; 39: 1131–1139
  • Sutherland R. J., Nakajima S. Self-stimulation of the habenular complex in the rat. Journal of Comparative and Physiological Psychology 1981; 95: 781–791
  • Sutherland R. J. The dorsal diencephalic conduction system: A review of the anatomy and functions of the habenular complex. Neuroscience & Biobehavioral Reviews 1982; 6: 1–13
  • Takada M., Hattori T. The rat striatum: a target nucleus for ascending axon collaterals of the entopedunculo-habenular pathway. Brain Research 1987; 418: 129–137
  • Tassin J. P., Stinus L., Simon H., Blanc G., Thierry A. M., LeMoal M., Cardo B., Glowinski J. Relationship between the locomotor hyeractivity induced by A10 lesions and the destruction of the fronto-cortical dopaminergic innervation in the rat. Brain Research 1978; 141: 267–281
  • Terenzi M. G., Guimaraes F. S., Prado W. A. Antinociception induced by stimulation of the habenular complex of the rat. Brain Research 1990; 524: 213–218
  • Thornton E. W., Evans J. C. The role of habenular nuclei in the selection of behavior strategies. Physiological Psychology 1982; 10: 361–367
  • Thornton E. W., Evans J. C., Harris C. Attenuated response to nomifensine in rats during a swim test following lesion of the habenula complex. Psychopharmacology 1985; 87: 81–85
  • Thornton E. W., Bradbury G. E. Effort and stress influence the effect of lesion of the habenula complex on one-way active avoidance learning. Physiology & Behavior 1989; 45: 929–935
  • Thornton E. W., Bradbury G. E., Wickens A. P., Mottram D. R., McClelland R. Intra-habenular injection of 6-hydroxydopamine produces impaired acquisition of DRL operant behavior. Behavioral and Neural Biology 1990; 53: 291–297
  • VanHoesen G. W., MacDougall J. M., Mitchell J. C. Anatomical specificity of septal projections in active and passive avoidance behaviour in rats. Journal of Comparative Physiology and Psychology 1969; 68: 80–89
  • Vardi J., Fletcher S., Regev M., Borenstein M., Shapira J. The modulatory effect of opiate receptor inhibitor in parkinsonism. Current Therapeutic Research and Clinical Experimentation 1979; 26: 1015–1018
  • Villani L., Battistini S., Bissoli R., Contestabile A. Cholinergic projections in the telen-cephalo-habenulo-interpeduncular system of the goldfish. Neuroscience Letters 1987; 76: 263–268
  • Vincent S. R., Kimura H., McGeer E. G. A histochemical study of GABA-transaminase in the efferents of the pallidum. Brain Research 1982; 241: 162–165
  • Vriend J. Evidence for pineal gland modulation of the neuroendocrine-thyroid axis. Neuroen-docrinology 1983; 36: 68–78
  • Wang R. Y., Aghajanian G. K. Physiological evidence for habenula as major link between forebrain and midbrain raphe. Science 1977; 197: 89–91
  • Wang R. Y., Fang J. Z., Xia Y. H. The effect of stimulating nucleus accumbens on the discharge of pain-related neurons in the periaqueductal grey. Physiological Science 1984; 4: 27
  • Wechsler L. R., Savaki H. E., Sokoloff L. Effects of D- and L-amphetamine on local cerebral glucose utilization in the conscious rat. Journal of Neurochemistry 1979; 32: 15–22
  • Wiklud L. Development of serotonin containing cells and the sympathetic innervation of the habenular region in the rat brain: a fluorescence histochemical study. Cell Tissue Research 1974; 155: 231–243
  • Wirtschafter D., Stratford T. R., Asin K. E. Evidence that serotonergic projections to the substantia nigra in the rat arise in the dorsal, but not the median, raphe nucleus. Neuroscience Letters 1987; 77: 261–266
  • Wooten G. F., Collins R. C. Metabolic effects of unilateral lesion of the substantia nigra. The Journal of Neuroscience 1981; 1: 285–291
  • Yu L. C., Han J. S. Habenula as a relay in the descending pathway from nucleus accumbens to periaqueductal grey subserving antinociception. International Journal of Neuroscience 1990; 54: 245–251
  • Zhou Z., Du M., Wu W., Jiang Y., Han J. S. Effect of intracerebral microinjection of naloxone on acupuncture and morphine analgesia in the rabbit. Scientific Sinica 1981; 24: 1166–1178
  • Zouhar R. L., de Groot J. Effects of limbic brain lesions on aspects of reproduction in female rats. Anatomical Records 1963; 145: 358

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.