Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: EC:3.1.1.7 (
acetylcholinesterase
)
28,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We previously reported that gabapentin activates the bulbospinal-spinal noradrenergic-cholinergic pathway to produce analgesia in rats after nerve injury. Also, gabapentin interacts synergistically with a
cholinesterase
inhibitor donepezil to produce analgesia.
Duloxetine
, a serotonin/noradrenaline re-uptake inhibitor, has been used for the treatment of neuropathic pain and should amplify the noradrenergic mechanisms recruited by gabapentin. In the present study, we determined the interaction between duloxetine and gabapentin with and without donepezil when administered by the clinically preferred oral route in rats after spinal nerve ligation. The ED(50) value of gabapentin, donepezil, and duloxetine to reduce mechanical hypersensitivity after nerve injury was 45, 3.7, and 32 mg/kg, respectively. In the examination of two drug combinations, oral duloxetine with either gabapentin or donepezil were additive to reduce hypersensitivity. The combination of all three drugs yielded a synergistic interaction with an observed ED(50) at 1/4th the predicted dose of additivity, likely due to the gabapentin-donepezil interaction. This three drug combination did not affect motor coordination or show signs of sedation in the rotarod test. Analgesia by the combination of these three drugs was reversed by intrathecal injection either of the alpha(2)-adrenoceptor antagonist idazoxan or by the muscarinic receptor antagonist atropine. These results suggest that the combination of these drugs, which stimulate and augment the bulbospinal-spinal noradrenergic-cholinergic pathway, lowers the dose requirement for each drug to reduce hypersensitivity after nerve injury without sedative effects. The current study provides the rationale for clinical study of the combination of gabapentin, donepezil and duloxetine to treat neuropathic pain.
...
PMID:Multiplicative interactions to enhance gabapentin to treat neuropathic pain. 1882 81
Dyspepsia is a common symptom frequently encountered in general practice. Functional dyspepsia is an exclusion diagnosis after an organic cause has been ruled out, and is a defined entity which can be subdivised in two different subtypes based on the cluster of symptoms, namely epigastric pain and postprandial distress syndromes. The term gastroparesis is used when persistently and severly delayed gastric emptying is found in the absence of mechanical obstruction. Helicobacter pylori infection should be treated, although symptomatic benefice is small. Proton pumps inhibitors offer a clinical benefit in epigastric pain syndrome, whereas prokinetics are probably useful in postprandial distress syndrome. Cisapride has been withdrawn last year due to the risk of potential severe cardiac arrythmies.
Domperidone
is safer, although caution has to be paid in long-term use because of potential ventricular arrythmies. Dietary advice and psychological therapies might be a useful adjunct. There are difficulties with new treatment development for functional dyspepsia, due to pathophysiological heterogeneity, lack of well-accepted endpoints, a huge placebo effect, and unconfirmed results in large clinical studies after early positive results for promising drugs. Acotiamide, a new
cholinesterase
inhibitor improving dyspeptic symptoms is not yet available in Europe.
...
PMID:[Management of gastroparesis and functional dyspepsia after cisapride withdrawal]. 2309 51
The organophosphate-induced delayed neuropathy (OPIDN), often leads to paresthesias, ataxia and paralysis, occurs in the late-stage of acute poisoning or after repeated exposures to organophosphate (OP) insecticides or nerve agents, and may contribute to the Gulf War Syndrome. The acute phase of OP poisoning is often attributed to
acetylcholinesterase
inhibition. However, the underlying mechanism for the delayed neuropathy remains unknown and no treatment is available. Here we demonstrate that TRPA1 channel (Transient receptor potential cation channel, member A1) mediates OPIDN. A variety of OPs, exemplified by malathion, activates TRPA1 but not other neuronal TRP channels. Malathion increases the intracellular calcium levels and upregulates the excitability of mouse dorsal root ganglion neurons
in vitro
. Mice with repeated exposures to malathion also develop local tissue nerve injuries and pain-related behaviors, which resembles OPIDN. Both the neuropathological changes and the nocifensive behaviors can be attenuated by treatment of TRPA1 antagonist HC030031 or abolished by knockout of
Trpa1
gene. In the classic hens OPIDN model, malathion causes nerve injuries and ataxia to a similar level as the positive inducer tri-ortho-cresyl phosphate (TOCP), which also activates TRPA1 channel. Treatment with HC030031 reduces the damages caused by malathion or tri-ortho-cresyl phosphate.
Duloxetine
and Ketotifen, two commercially available drugs exhibiting TRPA1 inhibitory activity, show neuroprotective effects against OPIDN and might be used in emergency situations. The current study suggests TRPA1 is the major mediator of OPIDN and targeting TRPA1 is an effective way for the treatment of OPIDN.
...
PMID:TRPA1 channel mediates organophosphate-induced delayed neuropathy. 2889 90
