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Query: UMLS:C0036341 (
schizophrenia
)
60,220
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The recent suggestion that
secretin
may be useful in treating autism and
schizophrenia
has begun to focus attention on the mechanisms underlying this gut-brain peptide's actions in the central nervous system (CNS). In vitro autoradiographic localization of (125)I-
secretin
binding sites in rat brain shows the highest binding density in the nucleus tractus solitarius (NTS). Recent evidence suggests that intravenous infusion of
secretin
causes fos activation in NTS, a relay station playing important roles in the central regulation of autonomic functions. In this study, whole cell patch-clamp recordings were obtained from 127 NTS neurons in rat medullary slices. The mean resting membrane potential of these neurons was -54.7 +/- 0.3 mV, the mean input resistance was 3.7 +/- 0.2 GOmega, and the action potential amplitude of these neurons was always >70 mV. Current-clamp studies showed that bath application of
secretin
depolarized the majority (80.8%; 42/52) of NTS neurons tested, whereas the remaining cells were either unaffected (17.3%; 9/52) or hyperpolarized (1.9%; 1/52). These depolarizing effects were maintained in the presence of 5 microM TTX and found to be concentration dependent from 10(-12) to 10(-7) M. Using voltage-clamp techniques, we also identified modulatory actions of
secretin
on specific ion channels. Our results demonstrate that while
secretin
is without effect on net whole cell potassium currents, it activates a nonselective cationic conductance (NSCC). These results show that NTS neurons are activated by
secretin
as a consequence of activation of a NSCC and support the emerging view that
secretin
can act as a neuropeptide within the CNS.
...
PMID:Secretin depolarizes nucleus tractus solitarius neurons through activation of a nonselective cationic conductance. 1471 95
In preliminary uncontrolled studies, intravenous injection of the gastrointestinal peptide
secretin
produced improvements in the symptoms of autism. Because of the phenotypic overlap between autism and some aspects of
schizophrenia
, we performed a pilot study of
secretin
for treatment refractory
schizophrenia
. Twenty-two patients were randomized to a single intravenous dose of porcine
secretin
or placebo. Patients were evaluated with the Positive and Negative Symptom Scale for
Schizophrenia
(PANSS) and the Clinical Global Impression Scale (CGI) at baseline, 2 days after
secretin
infusion and weekly for 4 weeks. There were no statistically significant differences between drug- and placebo-treated patients with repeated measures analysis of variance (ANOVA). However, several patients treated with
secretin
experienced clinically meaningful, but transient, reductions in symptoms and a greater percentage of patients treated with
secretin
were rated as improved with the CGI. Further study of brain hypocretins and molecules affecting this system are warranted in
schizophrenia
.
...
PMID:Secretin for refractory schizophrenia. 1506 Dec 51
Secretin
, a gastrointestinal (GI) peptide, may offer therapeutic benefit in autism. Autistic features can also be present in
schizophrenia
and a recent study suggested a role for adjunctive
secretin
in treatment-resistant
schizophrenia
. The current report describes one patient with undifferentiated schizophrenia and prominent autistic features who received a single dose of
secretin
and demonstrated substantial yet transient improvement. The case illustrates the potential role of
secretin
as a novel adjunctive treatment strategy in schizophrenic patients with autistic features.
...
PMID:Secretin in a patient with treatment-resistant schizophrenia and prominent autistic features. 1506 Dec 52
Neuropeptides are heterogeneously distributed throughout the digestive, circulatory, and nervous systems and serve as neurotransmitters, neuromodulators, and hormones. Neuropeptides are phylogenetically conserved and have been demonstrated to regulate numerous behaviors. They have been hypothesized to be pathologically involved in several psychiatric disorders, including
schizophrenia
. On the basis of preclinical data, numerous studies have sought to examine the role of neuropeptide systems in
schizophrenia
. This chapter reviews the clinical data, linking alterations in neuropeptide systems to the etiology, pathophysiology, and treatment of
schizophrenia
. Data for the following neuropeptide systems are included: arginine-vasopressin, cholecystokinin (CCK), corticotropin-releasing factor (CRF), interleukins, neuregulin 1 (NRG1), neurotensin (NT), neuropeptide Y (NPY), opioids,
secretin
, somatostatin, tachykinins, thyrotropin-releasing hormone (TRH), and vasoactive intestinal peptide (VIP). Data from cerebrospinal fluid (CSF), postmortem and genetic studies, as well as clinical trials are described. Despite the inherent difficulties associated with human studies (including small sample size, variable duration of illness, medication status, the presence of comorbid psychiatric disorders, and diagnostic heterogeneity), several findings are noteworthy. Postmortem studies support disease-related alterations in several neuropeptide systems in the frontal and temporal cortices. The strongest genetic evidence supporting a role for neuropeptides in
schizophrenia
are those studies linking polymorphisms in NRG1 and the CCKA receptor with
schizophrenia
. Finally, the only compounds that act directly on neuropeptide systems that have demonstrated therapeutic efficacy in
schizophrenia
are neurokinin receptor antagonists. Clearly, additional investigation into the role of neuropeptide systems in the etiology, pathophysiology, and treatment of
schizophrenia
is warranted.
...
PMID:Involvement of neuropeptide systems in schizophrenia: human studies. 1734 66
Vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase-activating polypeptide (PACAP) are members of a superfamily of structurally related peptide hormones that includes glucagon, glucagon-like peptides,
secretin
, gastric inhibitory peptide (GIP) and growth hormone-releasing hormone (GHRH). VIP and PACAP exert their actions through three GPCRs - PAC(1) , VPAC(1) and VPAC(2) - belonging to class B (also referred to as class II, or secretin receptor-like GPCRs). This family comprises receptors for all peptides structurally related to VIP and PACAP, and also receptors for parathyroid hormone, corticotropin-releasing factor, calcitonin and related peptides. PAC(1) receptors are selective for PACAP, whereas VPAC(1) and VPAC(2) respond to both VIP and PACAP with high affinity. VIP and PACAP play diverse and important roles in the CNS, with functions in the control of circadian rhythms, learning and memory, anxiety and responses to stress and brain injury. Recent genetic studies also implicate the VPAC(2) receptor in susceptibility to
schizophrenia
and the PAC(1) receptor in post-traumatic stress disorder. In the periphery, VIP and PACAP play important roles in the control of immunity and inflammation, the control of pancreatic insulin secretion, the release of catecholamines from the adrenal medulla and as co-transmitters in autonomic and sensory neurons. This article, written by members of the International Union of Basic and Clinical Pharmacology Committee on Receptor Nomenclature and Drug Classification (NC-IUPHAR) subcommittee on receptors for VIP and PACAP, confirms the existing nomenclature for these receptors and reviews our current understanding of their structure, pharmacology and functions and their likely physiological roles in health and disease. More detailed information has been incorporated into newly revised pages in the IUPHAR database (http://www.iuphar-db.org/DATABASE/FamilyMenuForward?familyId=67).
...
PMID:Pharmacology and functions of receptors for vasoactive intestinal peptide and pituitary adenylate cyclase-activating polypeptide: IUPHAR review 1. 2228 55
Secretin
shows a wide distribution in the brain. Functional significance of central
secretin
is stressed since it has been associated with autism and
schizophrenia
. The presence of the secretin receptor was previously demonstrated in the brain by different methods. Neurons in the cerebellum, hypothalamic paraventricular and supraoptic nuclei, and in the vascular organ of lamina terminalis were shown to express secretin receptor mRNA by using in situ hybridization with digoxigenin-labeled probe. In this work, we used a very sensitive radioactive in situ hybridization technique and systematically mapped the expression of secretin receptor mRNA in the brain. The densest labeling was observed in the nucleus of solitary tract and in the laterodorsal thalamic nucleus, where decreasing number of receptors was seen in the vascular organ of lamina terminalis, and the lateral habenular complex, and then in the supraoptic nucleus. Only a few scattered labeled cells were observed in the median frontal gyrus, entorhinal cortex, hypothalamic paraventricular nucleus, perifornical region, lateral hypothalamic area, head of the caudate nucleus, spinal trigeminal nucleus, and cerebellum. Secretin receptor mRNA showed a far wider distribution than was known before, suggesting a more significant functional relevance than thought earlier.
...
PMID:Distribution of secretin receptors in the rat central nervous system: an in situ hybridization study. 2306 33
