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Query: UMLS:C0030193 (
pain
)
261,466
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Microinjection of
neurotensin
(NT) into the rostral ventromedial medulla (RVM) produces dose-dependent antinociception. Here we show that antinociception produced by intra-RVM microinjection of
neurotensin
(NT) or the selective NT receptor subtype 1 (NTR1) agonist PD149163 can be partially blocked by intrathecal (i.t.) yohimbine, an alpha2-adrenoceptor antagonist and by methysergide, a serotonin receptor antagonist. Antinociception produced by the NTR2 agonist beta-lactotensin (beta-LT) is blocked by intrathecal (i.t.) yohimbine, but not by methysergide i.t. It is not known which noradrenergic cell group is involved in this newly identified noradrenergic component of NTR-mediated antinociception. These experiments provide the first evidence that selective activation of NTR2 in the RVM produces antinociception. These results also provide evidence that activation of NTR1 in the RVM produces antinociception through spinal release of norepinephrine (NE) and serotonin, and that activation of NTR2 in the RVM produces antinociception mediated by spinal release of NE.
Pain
2008 Apr
PMID:Neurotensin-produced antinociception in the rostral ventromedial medulla is partially mediated by spinal cord norepinephrine. 1766 42
Central administration of the neuropeptide
neurotensin
(NT) was shown to induce antinociceptive responses both spinally and supraspinally. Although NTS2 receptors play an important role in modulating the activity of spinal neurons, we have recently implicated
NTS1
receptors in NT's analgesic effects in acute spinal
pain
paradigms. The current experiments were thus designed to examine the antinociceptive effects of intrathecal administration of
NTS1
agonists in formalin-induced tonic
pain
in rats. We first established, using immunoblotting and immunohistochemical approaches, that
NTS1
receptors were present in small- and medium-sized dorsal root ganglion cells and localized in the superficial layers of the dorsal horn of the spinal cord. We then examined the effects of intrathecal injection of NT (1-15 microg/kg) or
NTS1
preferring agonists on the nocifensive response to intraplantar formalin. Both
NTS1
-agonists, PD149163 (10-120 microg/kg) and NT69L (1-100 microg/kg), dose-dependently attenuated the formalin-induced behaviors. Accordingly,
NTS1
agonists markedly suppressed
pain
-evoked c-fos expression in the superficial, nucleus proprius and neck regions of the spinal dorsal horn. The concomitant administration of PD149163 with the
NTS1
antagonist SR48692 (3 microg/kg) significantly reversed PD149163-induced antinociception, confirming the implication of
NTS1
in tonic
pain
. In contrast, NT69L's analgesic effects were partly abolished by co-administration of SR48692, indicating that NT69L-induced effects may also be exerted through interaction with NTS2. These results demonstrate that
NTS1
receptors play a key role in the mediation of the analgesic effects of NT in persistent
pain
and suggest that
NTS1
-selective agonists may represent a new line of analgesic compounds.
...
PMID:Spinal NTS1 receptors regulate nociceptive signaling in a rat formalin tonic pain model. 1818 46
The central administration of
neurotensin
(NT) or of its C-terminal hexapeptide fragment NT(8-13), produces strong analgesic effects in tests evaluating acute pain. The use of NT-derived peptides as pharmaceutical agents to relief severe
pain
in patients could be of great interest. Unfortunately, peptides do not readily penetrate the blood-brain barrier. We have observed that the cyclic NT(8-13) analogue, c(Lys-Lys-Pro-Tyr-Ile-Leu-Lys-Lys-Pro-Tyr-Ile-Leu) (JMV2012, compound 1), when peripherally administered to mice produced analgesic and hypothermic effects, suggesting the peptide penetrates the blood-brain barrier and functions effectively like a drug. Moreover, dimeric compounds show increased potency compared to their corresponding monomer. We present the synthesis of the cyclic dimer compound 1 (JMV2012). In mice, compound 1 induced a profound hypothermia and a potent analgesia, even when peripherally administered. Compound 1 appears to be an ideal lead compound for the development of bioactive NT analogues as novel analgesics drugs.
...
PMID:Synthesis and biological effects of c(Lys-Lys-Pro-Tyr-Ile-Leu-Lys-Lys-Pro-Tyr-Ile-Leu) (JMV2012), a new analogue of neurotensin that crosses the blood-brain barrier. 1832 Oct 36
RNA interference (RNAi) is gaining acceptance as a potential therapeutic strategy against peripheral disease, and several clinical trials are already underway with 21-mer small-interfering RNA (siRNA) as the active pharmaceutical agent. However, for central affliction like
pain
, such innovating therapies are limited but nevertheless crucial to improve
pain
research and management. We demonstrate here the proof-of-concept of the use of 27-mer Dicer-substrate siRNA (DsiRNA) for silencing targets related to CNS disorders such as
pain
states. Indeed, low dose DsiRNA (0.005 mg/kg) was highly efficient in reducing the expression of the neurotensin receptor-2 (NTS2, a G-protein-coupled receptor (GPCR) involved in ascending nociception) in rat spinal cord through intrathecal (IT) administration formulated with the cationic lipid i-Fect. Along with specific decrease in NTS2 mRNA and protein, our results show a significant alteration in the analgesic effect of a selective-NTS2 agonist, reaching 93% inhibition up to 3-4 days after administration of DsiRNA. In order to ensure that these findings were not biased by unsuspected off-target effects (OTEs), we also demonstrated that treatment with a second NTS2-specific DsiRNA also reversed NTS2-induced antinociception, and that NTS2-specific 27-mer duplexes did not alter signaling through
NTS1
, a closely related receptor. Altogether, DsiRNAi represents a potent tool for dissecting nociceptive pathways and could further lead to a new class of central active drugs.
...
PMID:Central delivery of Dicer-substrate siRNA: a direct application for pain research. 1852 47
Central amygdala nucleus (CeA)-periaqueductal gray (PAG) pathway is the component of descending antinociceptive circuitry. Nociceptin/orphanin FQ (N/OFQ) and nocistatin (NST) produce supraspinal pronociceptive and antinociceptive effects, respectively. We hypothesized that opposite effects of N/OFQ and NST on supraspinal
pain
modulation result from their opposing effects on the excitability of CeA-PAG projection neurons. This hypothesis was tested by investigating electrophysiological effects of N/OFQ and NST on medial CeA neurons that project to PAG (CeA(M)-PAG). N/OFQ hyperpolarized CeA(M)-PAG projection neurons by enhancing inwardly rectifying potassium conductance. In contrast, NST depolarized CeA(M)-PAG neurons by causing the opening of TRPC cation channels via G(alphaq/11)-PLC-PKC pathway. CeA(M)-PAG neurons hyperpolarized by N/OFQ express CRF or
neurotensin
mRNA. NST-responsive CeA(M)-PAG neurons contain CRF or substance P mRNA. Our study provides the evidence that the molecular and cellular basis for opposite effects of N/OFQ and NST on supraspinal
pain
regulation is their opposing effects on the excitability of peptidergic CeA(M)-PAG neurons.
...
PMID:Nocistatin and nociceptin exert opposite effects on the excitability of central amygdala nucleus-periaqueductal gray projection neurons. 1893 Aug 28
Neurotensin
(NT) is a neuropeptide implicated in the pathophysiology of schizophrenia and in mediating the efficacy of antipsychotic drugs. NT is also involved in the regulation of body temperature and
pain
sensitivity. Using neurotensin receptor 1 (NTR1) knockout (KO) and wild-type (WT) mice, these studies evaluated the involvement of NTR1 in the behavioral responses produced by peripheral administration of NT agonists (NT-2 and NT69L). Animals were characterized in paradigms designed to assess hypothermia, antinociception, and antipsychotic-like effects. Under basal conditions, there were no phenotypic differences between NTR1 KO and WT mice. In WT mice, both NTR1 agonists decreased core body temperature (active doses in mg/kg, i.p., for NT-2 and NT69L, respectively: 1 and 3), increased tail withdrawal latencies (1 and 3), produced decreased spontaneous climbing (0.1, 0.3, 1 and 1, 3, 10) and reversed apomorphine-induced climbing (0.3, 1 and 1, 3). In contrast, none of the effects of either agonist were present in KO mice. These results suggest that NTR1: (1) does not play a major role in the control of basal thermoregulation, nociception or psychomotor stimulation in mice (barring possible developmental plasticity), (2) does mediate these behavioral responses to NT agonists, and (3) may play a role in the potential antipsychotic effects of these agonists.
...
PMID:Involvement of the neurotensin receptor 1 in the behavioral effects of two neurotensin agonists, NT-2 and NT69L: lack of hypothermic, antinociceptive and antipsychotic actions in receptor knockout mice. 1922 57
Neurotensin
modulates
pain
via its actions within descending analgesic pathways which include brain regions such as the midbrain periaqueductal grey (PAG). The aim of this study was to examine the cellular actions of
neurotensin
on PAG neurons. Whole cell patch clamp recordings were made from rat midbrain PAG slices in vitro to examine the postsynaptic effects of
neurotensin
and its effects on GABA(A) mediated inhibitory postsynaptic currents (IPSCs).
Neurotensin
(100-300 nM) produced an inward current in subpopulations of opioid sensitive and insensitive PAG neurons which did not reverse over membrane potentials between -50 and -130 mV. The
neurotensin
induced current was abolished by the
NTS1
and
NTS1
/2 antagonists SR48692 (300 nM) and SR142948A (300 nM).
Neurotensin
also produced a reduction in the amplitude of evoked IPSCs, but had no effect on the rate and amplitude of TTX-resistant miniature IPSCs. The
neurotensin
induced inhibition of evoked IPSCs was reduced by the mGluR5 antagonist MPEP (5microM) and abolished by the cannabinoid CB(1) receptor antagonist AM251 (3 microM). These results suggest that
neurotensin
produces direct neuronal depolarisation via
NTS1
receptors and inhibits GABAergic synaptic transmission within the PAG. The inhibition of synaptic transmission is mediated by neuronal excitation and action potential dependent release of glutamate, leading to mGluR5 mediated production of endocannabinoids which activate presynaptic CB(1) receptors. Thus,
neurotensin
has cellular actions within the PAG which are consistent with both algesic and analgesic activity, some of which are mediated via the endocannabinoid system.
...
PMID:Neurotensin inhibition of GABAergic transmission via mGluR-induced endocannabinoid signalling in rat periaqueductal grey. 1935 67
A higher prevalence of cardiac right-to-left shunt through a patent foramen ovale (PFO) has been recently reported in the irritable bowel syndrome (IBS). At the same time, signs of ischemia in medullary cerebral microcirculation and the presence of excess sympathetic activity in peripheral circulation have been identified, both related with change in
pain
perception and autonomic dysfunction characteristic of IBS. Considering these findings together, the possible etiopathogenic role of PFO in the development of IBS can be proposed, because the paradoxical embolism characteristic of PFO could damage the cerebral and intestinal microcirculation, and that injury would be also amplified by the percentage of venous blood that shunts the pulmonary filter, producing an alteration in the metabolism of serotonin, pro-inflammatory bradykinins or
neurotensin
, substances with a proven etiopathogenic relationship with IBS.
...
PMID:[Contribution of the patent foramen ovale to the etiopathogeny of the irritable bowel syndrome]. 1944 49
Neurotensin
, a tridecapeptide, is widely distributed in the brain and gastrointestinal tract. It possesses analgesic, hypothermic, and antipsychotic-like properties.
Neurotensin
's effects are mediated mainly through two receptor subtypes,
NTS1
and NTS2. Activation of
NTS1
has been implicated in most of the pharmacological effects of
neurotensin
but is associated with hypothermia and hypotension. We report on a novel
neurotensin
analog with higher selectivity to NTS2, namely, NT79, which exhibits selective behavioral effects. NT79 was tested in animal models for
pain
(thermal-hot plate test; visceral-acetic acid-induced writhing test), and in animal models that are predictive of antipsychotic-like effects (apomorphine-induced climbing; d-amphetamine-induced hyperactivity; disruption of prepulse inhibition). Its effects on body temperature and on blood pressure were also determined. Neurochemical changes in extracellular neurotransmitters were measured using in vivo microdialysis while the rats were simultaneously evaluated for acetic acid-induced writhing with and without pretreatment with NT79. Binding data at molecularly cloned hNTS1 and hNTS2 suggest selectivity for hNTS2. NT79 blocked the acetic acid-induced writhing with an ED(50) of 0.14 microg/kg while having no effect on thermal nociception. The writhing was paralleled by an increase in 5-HT which was attenuated by NT79. NT79 demonstrated antipsychotic-like effects by blocking apomorphine-induced climbing, d-amphetamine-induced hyperactivity, and reducing d-amphetamine- and DOI-induced disruption of prepulse inhibition. Uniquely, it caused no significant hypothermia and was without effect on blood pressure. NT79, with its higher selectivity to NTS2, may be potentially useful to treat visceral
pain
, and psychosis without concomitant side effects of hypothermia or hypotension.
...
PMID:NT79: A novel neurotensin analog with selective behavioral effects. 1987 4
Neurotensin
(NT) is a 13 amino acid neurohormone and/or neuromodulator, located in the synaptic vesicles and released from the neuronal terminals in a calcium-dependent manner. This peptide is present among mammalian and nonmammalian species, mainly in the central nervous system and the gastrointestinal tract. Due to its neuroendocrine activity, NT has been related to the pathophysiology of a series of disorders, such as schizophrenia, drug-abuse, Parkinson's disease, cancer, stroke, eating disorders and other neurodegenerative conditions. Moreover, NT participates in the physiology of
pain
-induction, central blood pressure control and inflammation. NT also plays an important interactive role in all components of the hypothalamic-anterior pituitary circuit, which is mediated by an endocrine, paracrine or/and autocrine manner, towards most of the anatomical regions that define this circuit. A considerable amount of data implicates NT in thyroid-related regulation through this circuit, the exact mechanisms of which should be further investigated for the potential development of more targeted approaches towards the treatment of thyroid-related endocrine diseases. The aim of this study was to provide an up-to-date review of the literature concerning the regulatory role of NT on the hypothalamic-anterior pituitary axons, with an emphasis on the control of thyroid-related functions.
...
PMID:The regulatory role of neurotensin on the hypothalamic-anterior pituitary axons: emphasis on the control of thyroid-related functions. 1987 95
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