UMLS:C0036341 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In most central neurons, small conductance Ca(2+)-activated K(+) channels (SK channels) contribute to afterhyperpolarizations (AHPs), which control neuronal excitability. The medium AHP has pharmacological properties similar to recombinant SK channels, consistent with the hypothesis that SK channels generate this afterhyperpolarization component. It is still unclear how recombinant SK channels are functionally related to the slow AHP component. Cloned SK channels are heteromeric complexes of SK channel subunits and calmodulin. The channels are activated by Ca(2+) binding to calmodulin that induces conformational changes resulting in channel opening. Channel deactivation is the reverse process brought about by dissociation of Ca(2+) from calmodulin. In the mammalian brain, the three SK channel subunits (SK1-3) display partially overlapping distributions. Most of the higher brain regions such as the neocortex and hippocampus show expression of both genes encoding SK1 and SK2 channels, whereas phylogenetically older brain regions such as the thalamus, basal ganglia, cerebellum, and brainstem show high levels of SK3 gene expression. At present, it is still unclear whether native SK channels are generated as heteromeric or homomeric channels. Peptide toxins such as apamin and scyllatoxin, as well as organic compounds such as quaternary salts of bicuculline, dequalinium, UCL 1684 and UCL 1848 serve as non-specific SK channel blockers. The only known exceptions so far are the scorpion toxin tamapin and the peptide inhibitor Lei-Dab(7), which bind preferentially to SK2. Electrophysiological and behavioral studies indicate that blockade of SK channels by apamin increases excitability, lowers the threshold for the induction of synaptic plasticity, and facilitates hippocampus-dependent memory. The potential value of pharmacological SK channel modulation in various pathological states such as increased epileptiform activity, cognitive impairment, pain, mood disorders and schizophrenia will be discussed.
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PMID:Small conductance Ca2+-activated K+ channels as targets of CNS drug development. 1518 Apr 77

More than 20 years after the identification of the sigma receptors as a unique binding site in the brain and in the peripheral organs, several questions regarding this receptor are still open. Only one of the subtypes of the receptor has been cloned to date, but the endogenous ligand still remains unknown, and the possible association of the receptor with a conventional second messenger system is controversial. From the very beginning, the sigma receptors were associated with various central nervous system disorders such as schizophrenia or movement disorders. Today, after hundreds of papers dealing with the importance of sigma receptors in brain function, it is widely accepted that sigma receptors represent a new and different avenue in the possible pharmacological treatment of several brain-related disorders. In this review, what is known about the biology of the sigma receptor regarding its putative structure and its distribution in the central nervous system is summarized first. The role of sigma receptors regulating cellular functions and other neurotransmitter systems is also addressed, as well as a short overview of the possible endogenous ligands. Finally, although no specific sigma ligand has reached the market, different pharmacological approaches to the alleviation and treatment of several central nervous system disorders and deficits, including schizophrenia, pain, memory deficits, etc., are discussed, with an overview of different compounds and their potential therapeutic use.
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PMID:Sigma receptors: biology and therapeutic potential. 1519 33

The exponential growth in the prevalence of cognitive impairment of old patients leads the physicians to deal with a larger incidence of behavioral disorders (such as excitement,aggressiveness), and psychotic symptoms (such as delirium and visual hallucinations). The presence of psychotic troubles in dementia causes a remarkable distress to caregivers and involves higher difficulties in the patient management. The estimates of such troubles range between 15 and 75 %. Geriatric assessment and the management of behavioral troubles require a prompt evaluation of all their possible causes. As a matter of fact, their appearance often reveals a physical disturbance (pain, fever, etc.), or adverse environmental conditions, or it could also be a consequence of a multiple drug therapy. For this reason,the use of antipsychotics should always be preceded by an accurate clinical diagnosis.Anxiolytic, anti-depressive, anti-convulsive and anti-psychotic drugs are among the therapeutic strategies for the management of the psychogeriatric patient. Atypical antipsychotics seem to be able to decrease the psychotic symptoms, with low levels of therapeutic failure. They also reduce extrapyramidal effects and the growth of prolactine hormone, which is quite useful when dealing with very old patients. Risperidone and olanzapine are two atypical anti-psychotics, which already proved to be adequate and well tolerated during the treatment of schizophrenia and of acute maniacal disorders. Our experience, with a population of patients followed by our Alzheimer Evaluation Unit (AEU), confirms that a low dose of olanzapine (5mg/day) and risperidone (0.5-1.0 mg/day) are effective in lowering behavioral disturbances, and psychotic symptoms due to dementia. Even in the long run,low doses of these drugs are still well tolerated. Higher levels of risperidone (> 1 mg/die)often caused extra-pyramidal symptoms such as rigidity and dyskinesia, whereas higher levels of olanzapine (> 5 mg/day) lead to an exceeding sedation. The management of behavioral disturbances is one of the most important goals in the global treatment of patients affected by dementia, to the extent of improving the quality of life. Atypical antipsychotics are preferable compared to old-generation drugs, therefore, they are the key therapeutic strategy we cannot renounce.
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PMID:The management of psychogeriatric patient. 1520 48

Antiepileptic drugs (AEDs) are commonly prescribed for nonepileptic conditions, including migraine headache, chronic neuropathic pain, mood disorders, schizophrenia and various neuromuscular syndromes. In many of these conditions, as in epilepsy, the drugs act by modifying the excitability of nerve (or muscle) through effects on voltage-gated sodium and calcium channels or by promoting inhibition mediated by gamma-aminobutyric acid (GABA) A receptors. In neuropathic pain, chronic nerve injury is associated with the redistribution and altered subunit compositions of sodium and calcium channels that predispose neurons in sensory pathways to fire spontaneously or at inappropriately high frequencies, often from ectopic sites. AEDs may counteract this abnormal activity by selectively affecting pain-specific firing; for example, many AEDs suppress high-frequency action potentials by blocking voltage-activated sodium channels in a use-dependent fashion. Alternatively, AEDs may specifically target pathological channels; for example, gabapentin is a ligand of alpha2delta voltage-activated calcium channel subunits that are overexpressed in sensory neurons after nerve injury. Emerging evidence suggests that effects on signaling pathways that regulate neuronal plasticity and survival may be a factor in the delayed clinical efficacy of AEDs in some neuropsychiatric conditions, including bipolar affective disorder.
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PMID:The neurobiology of antiepileptic drugs for the treatment of nonepileptic conditions. 1522 16

Autism is a severe behavioral disorder characterized by pervasive impairments in social interactions, deficits in verbal and nonverbal communication, and stereotyped, repetitive patterns of behaviors and interests. Recently, a new rodent model of autism was created by exposure of rat fetuses to valproic acid (VPA) on the 12.5th day of gestation (VPA rats). The model has striking anatomical, pathological, and etiological similarities to human data; however, it has not been characterized behaviorally. In order to determine if VPA rats present behavioral aberrations observed in autism, their behavior was extensively evaluated in a battery of tests. The results of the present experiments demonstrate that VPA rats exhibit: (1) lower sensitivity to pain and higher sensitivity to nonpainful stimuli, (2) diminished acoustic prepulse inhibition, (3) locomotor and repetitive/stereotypic-like hyperactivity combined with lower exploratory activity, and (4) decreased number of social behaviors and increased latency to social behaviors. In addition, VPA rats showed delayed maturation, lower body weight, delayed motor development, and attenuated integration of a coordinated series of reflexes, delayed nest-seeking response mediated by olfactory system, and normal negative geotaxis. Interestingly, all behavioral aberrations described in this paper appear before puberty, which could distinguish the VPA rat model of autism from other animal models of neurodevelopmental disorders, especially rodent models of schizophrenia. Our results bring further support to validity of the proposed VPA animal model of autism, suggesting similarities between the observed pattern of behavioral alterations in VPA rats and features of disturbed behavior in autistic patients.
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PMID:Behavioral alterations in rats prenatally exposed to valproic acid: animal model of autism. 1523 91

Evidence exists to implicate the monoamine histamine in the control of arousal and cognitive functions. Antagonists of H(3) receptors are postsynaptic and presynaptic modulators of neural transmission in a variety of neuronal circuits relevant to cognition. Accumulating neuroanatomical, neurochemical, pharmacological, and behavioral data support the idea that H(3) receptor antagonists may function to improve cognitive performances in disease states (e.g., Alzheimer's disease and mild cognitive impairment states). Thus, H(3) receptor antagonists have been shown to increase performance in attention and memory tests in nonhuman experiments and prevent the degradation in performances produced by scopolamine, MK-801, or age. In contrast, agonists of the H(3) receptor generally produce cognitive impairing effects in animal models. The role of H(3) receptors in these behavioral effects is substantiated by data indicating a central origin for their effects, the selectivity of some of the H(3) receptor antagonists studied, and the pharmacological modification of effects of H(3) receptor antagonists by selective H(3) receptor agonists. Data and issues that challenge the potential role for H(3) receptor antagonists in cognitive processes are also critically reviewed. H(3) receptor antagonists may also have therapeutic value in the management of obesity, pain, sleep disorders, schizophrenia, and attention deficit hyperactivity disorder.
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PMID:Selective histamine H3 receptor antagonists for treatment of cognitive deficiencies and other disorders of the central nervous system. 1525 Dec 26

This study took place in Israel and examined the use of a local topical anesthetic cream to ameliorate the pain at the injection site caused by depot antipsychotic medications. Fifteen consecutive outpatients who had schizophrenia and who were under treatment with depot antipsychotic medications were enrolled in this randomized, double-blind, placebo-controlled crossover study. The patients received either lidocaine-prilocaine cream or a placebo one hour before the injection. The degree of pain at the injection site was quantified by the patients' use of a visual analogue scale five minutes after the injection. The application of the lidocaine-prilocaine cream led to a significant reduction of pain compared with the placebo.
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PMID:Use of topical application of lidocaine-prilocaine cream to reduce injection-site pain of depot antipsychotics. 1529 47

The proper maturation of the hippocampus is essential for the development of different behaviours, including memory, pain responses and avoidance. The mechanisms involved in the neurodevelopment of nociception have also been implicated in several neuropsychiatric disorders. The neonatal lesion of the ventral hippocampus (VH) in rats, an animal model of schizophrenia, can be utilized to study the developmental neurobiology of animal behaviour. We examined the nociceptive responses in this animal model at different stages of development. Rat pups were lesioned at postnatal day 7 by injecting ibotenic acid into the VH bilaterally, and then tested for thermal and mechanical nociception at the age of 35, 65 and 180 days. The nociceptive tests used were the hot plate (HP), paw pressure (PP) and tail flick (TF) tests. Another group of adult rats had the same lesion in the VH and then underwent the same tests at 28, 56 and 168 days post-lesions. When compared with sham controls, the rats with neonatal VH lesion showed decreased latency for the HP and PP tests only after puberty. The TF test showed significant increase in latency for both groups at age 65 and 180 days. The adult rats with VH lesion showed no major changes over all periods of testing. These results suggest that early lesion of VH can alter the development of the neural mechanisms involved in the processing of thermal and mechanical nociception.
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PMID:Effects of ventral hippocampal lesion on thermal and mechanical nociception in neonates and adult rats. 1557 57

Excitotoxic neonatal ventral hippocampal (NVH) lesion in rats is considered as a putative animal model of schizophrenia as lesioned animals show characteristic post-pubertal emergence of neurochemical and behavioral abnormalities analogous to some of those seen in this disease. Converging evidence points to the involvement of central cholinergic system in this neuropsychiatric disorder, and our previous studies have suggested that cholinergic neurotransmission may be altered in post-pubertal NVH lesioned rats. We investigated here muscarinic receptor reactivity in NVH lesioned animals by measuring the effects of the muscarinic receptor agonist oxotremorine on physiological responses known to be modulated by these receptors such as body temperature, salivation, tremor, pain, and prepulse inhibition of the acoustic startle (PPI). Quantitative receptor autoradiography revealed that post-pubertal NVH lesioned animals display increased levels of [3H]pirenzepine/M1-like and [3H]AFDX-384/M2-like receptor binding sites in the striatum, nucleus accumbens, and in subareas of the dorsal hippocampus. Moreover, in response to the systemic administration of oxotremorine (0.25 mg/kg), post-pubertal NVH lesioned rats exhibited increases in salivation and tremor, and a greater reduction in body temperature compared to sham control animals. Increases in the hot-plate latency were also observed suggesting enhanced antinociceptive effects of oxotremorine in post-pubertal NVH lesioned animals. Finally, oxotremorine (0.1 and 0.25 mg/kg) disrupted PPI in post-pubertal sham control rats while the muscarinic receptor antagonist biperiden (0.5 and 1.0 mg/kg) normalized this behavior in NVH lesioned rats. Taken together, these findings reveal that post-pubertal NVH lesioned rats display enhanced muscarinic receptor responsiveness, which may relate to some behavioral abnormalities reported in this animal model.
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PMID:Alterations in behavioral responses to a cholinergic agonist in post-pubertal rats with neonatal ventral hippocampal lesions: relationship to changes in muscarinic receptor levels. 1563 38

Nociceptive information may be inhibited by stimulation of opiate receptors located presynaptically on primary afferent neurons. Sensory signals entering the spinal cord inhibit nociceptive signals by a non-opioid "gate" mechanism. Descending systems also modulate pain sensitivity at the spinal level. The descending 5-hydroxytryptamine (5-HT) system has a tonic inhibitory function, with diurnal fluctuations in intensity. The strong analgesic effects of electrical stimulation and morphine microinjections in certain brainstem structures is probably mediated by other descending systems. The ascending 5-HT system may influence the results of some complex tests for pain sensitivity by altering e.g. emotionality and habituation rate. Acupuncture analgesia involves opioid systems. In high frequency electroacupuncture and transcutaneous nerve stimulation, a non-opioid "gate" mechanism may predominate. Acute stress may produce analgesia by opioid as well as non-opioid mechanisms. The control of pain sensitivity is influenced by learning (e.g. biofeedback techniques and social factors), and may be affected in depression, mania and schizophrenia.
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PMID:Regulation of pain sensitivity in the central nervous system. 1564 34

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