Limbic

Neuropeptide Y. Neuropeptide Y [82785 5-3] (NPY) (255) is a 36-amiao acid peptide that is a member of a peptide family including peptide YY (PYY) [81858-94-8, 106338-42-5] (256) and pancreatic polypeptide (PPY) [59763-91-6] (257). In the periphery, NPY is present in most sympathetic nerve fibers, particulady around blood vessels and also in noradrenergic perivascular and selected parasympathetic nerves (66). Neurons containing NPY-like immunoreactivity ate abundant in the central nervous system, particulady in limbic stmctures. Coexistence with somatostatin and NADPH-diaphorase, an enzyme associated with NO synthesis, is common in the cortex and striatum. 

CJ-Receptors are localized ia the brain stem and limbic stmcture, regions associated with endocrine function (76). In the periphery, CJ-receptors are found in the Hver, heart, ileum, vas deferens, and on lymphocytes and thymocytes. Although there is insufficient evidence to clearly define the functional role of CNS CJ-sites, based on the effects of PCP and the interaction of haloperidol with CJ-sites, CJ-receptor ligands may be antipsychotics or used for the treatment of substance abuse. Several CJ-receptor ligands have shown neuroprotective effects in vivo. Ifenprodil (315) and CNS 1102 (316) are being developed for treatment of stroke (Table 18). 

OT receptors are localized ia the brain hypothalamus, limbic system, cortex, striatum, olfactory system, and brain stem. In the periphery, OT is best known for its stimulation of uterine smooth muscle and the milk ejection reflex. Thr , Om ]oxytocin(l—8),... 

The vomeronasal organ (VNO), located in the nose, is a small chemical sensing stmcture associated with odors and behavioral effects. The vomeronasal system, which is made up of the VNO and a portion of the brain s limbic system, is stmcturaHy independent of the olfactory and nervous terminalis systems in the nose. It may, however, interact with these systems in a manner dependent on prior experience or learning, and therefore be direcdy related to the association of smells and experiences. This independent chemosensory system in the nose may prove to open doors to new learning associated with the sense of smell and human behavior. 

Berger S, Wolfer DP, Selbach O et al (2006) Loss of the limbic mineralocorticoid receptor impairs behavioral plasticity. Proc Natl Acad Sci USA 103 195-200... 

The nucleus accumbens is part of the limbic system. It receives dopaminergic input through the mesolimbic system that originates from cell bodies in the ventral segmental area (A 10 cell group). This mesolimbic dopaminergic pathway is part of the reward pathways. Drugs of abuse (cocaine, amphetamine, opiates or nicotine) have been shown to increase the level of dopamine release in these neurons. 

Major efferent projections of the hypothalamic orexin system comprise descending and ascending, dorsal and ventral pathways that terminate preferentially in aminergic, endocrine, and autonomic control centers in the hypothalamus, midbrain, brainstem, and spinal cord, as well as in limbic cortical and subcortical structures, including sqDtum, amygdala, thalamus,... 

The diffuse nature of orexinergic projections is consistent with combined patterns of expression of the two orexin receptors, which is widespread but differential and often complementary within and even outside the CNS. OX2Rs are found primarily in structures attributed to control of sleq)-wake functions, whereas OXIRs are more abundant in limbic structures controlling aspects of feeding, autonomic outflow, energy homeostasis, and to a lesser extent also REM-sleq). 

Grace AA (2001) Psychostimulant actions on dopamine and limbic system function relevance to the pathophysiology and treatment of ADHD. In Solanto MV, Arnsten AFT, Castellanos FX (eds) Stimulant drugs and ADHD, Oxford University Press, pp 134—157... 

High amounts of somatostatin are found in the CNS, the peripheral nervous system, the gut and the endocrine pancreas whereas the kidneys, adrenals, thyroid, submandibular glands, prostate and placenta produce rather low amounts. In particular, the hypothalamus, all limbic structures, the deeper layers of the cerebral cortex, the striatum, the periaqueductal central grey and all levels of the major sensoty pathway are brain areas that are especially rich in somatostatin. Eighty percent of the somatostatin immunoreactivity in the hypothalamus is found in cells of the anterior periventricular nucleus (Fig. 1, [1]). The gut 5 cells of the mucosa and neurons, which are intrinsic to the submucous and... 

D3 Much less abundant than D2. Mainly in limbic regions (nucleus accumbens and olfactory tubercle) but also in hypothalamus. Some in caudate and cortex and also expressed on DA neurons in substantia nigra, presumably as autoreceptors. No effect on adenylate cyclase but inhibits Ca + entry (autoreceptor role). High affinity for DA (Ali 25nM). 

Mogenson, G, Jones, D and Yim, CY (1980) From motivation to action functional interface between the limbic system and the motor system. Progr. Neurobiol. 14 69-97. 

Much remains to be learned about the neurochemical regulation of noradrenergic transmission and even more research is required before we can define the role(s) of this neurotransmitter in the brain. Nevertheless, it is evident that these neurons are a crucial component of the network of monoamine influences on the limbic system and that they... 

Harley, CW (1987) A role for norepinephrine in arousal, emotion and learning limbic modulation by norepinephrine and the Kety hypothesis. Prog. Neuro-Psychopharmacol. Biol. Psychiat. 11 419-458. 

Autoradiography and receptor mRNA studies have shown Hi receptors to be located in most of the brain areas innervated by the ascending histaminergic axons, e.g. cerebral cortex, hippocampus, limbic areas and hypothalamus. Their presence in the cerebellum is not accompanied by appropriate histaminergic innervation. Very few are found in the striatum but this region does show a high density of H2 receptors. H2 receptors are also found with Hi in the cortex, hippocampus and limbic areas, but not in the hypothalamus. Although basically presynaptic the H3 receptor is also found postsynaptically in the striatum and cerebral cortex (Pollard et al. 1993). 

Some neuroleptics, including clozapine, are potent 5-HT-receptor antagonists and the possible role of 5-HT in the action of neuroleptics and the development of schizophrenia has recently generated much interest (Busatto and Kerwin 1997). This has centred primarily on 5-HT2A receptors found in the limbic cortex, which are linked to neuronal excitation and believed to mediate the hallucinogenic effects of drugs such as lysergic acid diethylamide (LSD). 

The mechanism by which 5-HT2 antagonism could ameliorate schizophrenic symptoms and what effect 5-HT has on mesolimbic and mesocortical pathways through A10 neurons is even less certain. It is more likely that 5-HT s action occurs postsynaptically in the limbic system or PFC. The probability that neuroleptics benefit from a particular balance of DA and 5-HT2A antagonism is developed later. 

On this evidence one can confidently equate EPS with neuroleptic DA receptor (D2) antagonism in the striatum and possibly a reduction in the positive symptoms of schizophrenia through similar action in the limbic system (nucleus accumbens). 

Roberts, D.C.S., and Vickers, G. Increased motivation to self-administer apomorphine following 6-hydroxydopamine lesion of the nueleus aeeum-bens. In Kalivas, P.W., and Nemeroff, C.B., eds. The Mesocortico-limbic Dopamine System. Vol. 537. New York Annals of the New York Academy of Science, 1988. pp. 523-524. 

Trulson, ME. Joe, J.C. Babb, S. and Raese, J.D. Chronic cocaine administration depletes tyrosine hydroxylase immunoreactivity in the meso-limbic dopamine system in rat brain. Brain Res Bull 19 39-45,... 

ANSWER We have not looked in the spinal cord at all for substance P. Everything has been in the extrapyramidal and limbic systems. 

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