Pathways presynaptic action

In most cases, mutual influences between presynaptic receptors have been explained by a cross-talk of intracellular signalling pathways. In several synapses, presynaptic actions of Ai receptors and other release-inhibitory receptors are mu-... 

Endogenous opioid peptides are increased in myocardial ischemia. Their effect is mediated through presynaptic and postsynaptic mechanisms. Opioids limit the release of stimulating catecholamines by its presynaptic action while opioid receptor agonists act via Gi -linked pathways postsynaptically and alter myocardial channel activity and intracellular activities of protein kinases. Table 1. Figure 10. Blockade of 5 and x-opioid receptors reduced the tolerance of the isolated rabbit heart to ischemia and reperfusion.105 Furthermore, blockade of 8-opioid receptor abrogated the ischemic preconditioning mediated cardioprotective effect while activation of 8-opioid receptor by morphine decreased infarct size and apoptosis in a rabbit model of coronary occlusion and reperfusion.106... 

Histamine produces its pharmacological actions by three subtypes of receptors the postsynaptic Hi and H2 receptors and the presynaptic H3 receptor. The H3 receptor is mainly located in the central nervous system (CNS), where it acts as an inhibitory autoreceptor in the central histaminergic neuronal pathways [176]. A number of therapeutic applications have been proposed for selective H3 receptor antagonists, including several CNS disorders such as Alzheimer s disease. Attention Deficit Hyperactivity Disorder, Schizophrenia, or for enhancing memory or obesity control. 

We are still confronted by a list of interesting and important questions that have not been answered. To what extent are dopamine pathways involved in hallucinogenic drug action What is the relative importance of presynaptic versus postsynaptic serotonergic action Is the release of endogenous neurotransmitters... 

The available data are consistent with the present thesis that cholinergic inputs to cerebral cortex mediate intradendritic events fundamental to conscious activity as a primary role, and that cholinergic modulation of electrophysiological activity may be secondary, even epiphenomenal. Transduction pathways exist whereby muscarinic receptors (and possibly nicotinic receptors acting presynaptically to inhibit acetylcholine release) may lead to actions on the cytoskeleton directly relevant to consciousness. The thesis presented here describes these pathways and also suggests a possible explanation for the diversity of neuromodulators and metabotropic receptors. Accordingly, qualitative aspects of our consciousness would be finely tuned by a number of neurochemicals, prominent among which is acetylcholine. 

Despite the documented efficacy and safety of the psychostimulants, their mechanism of action is not fully understood. Stimulants affect central nervous system (CNS) dopamine (DA) and norepinephrine (NE) pathways crucial in frontal lobe function. The stimulants act by causing release of catecholamines from the DA axons and blocking their reuptake. Methylphenidate releases catecholamines from long-term stores, so its effects can be blocked by pretreatment with reserpine. Amphetamines, on the other hand, release catecholamines from recently formed storage granules near the surface of the presynaptic neuron, so their action is not blocked by reserpine. In addition, the stimulants bind to the DA transporter in striatum (see Figures 2.6 and 2.7) and block the reuptake of both DA and NE. This action reduces the rate that catecholamines are removed from the synapse back into the axon and leads... 

When an excitatory pathway is stimulated, a small depolarization or excitatory postsynaptic potential (EPSP) is recorded. This potential is due to the excitatory transmitter acting on an ionotropic receptor, causing an increase in cation permeability. Changing the stimulus intensity to the pathway, and therefore the number of presynaptic fibers activated, results in a graded change in the size of the depolarization. When a sufficient number of excitatory fibers are activated, the excitatory postsynaptic potential depolarizes the postsynaptic cell to threshold, and an all-or-none action potential is generated. 

Monoamines include the catecholamines (dopamine and norepinephrine) and 5-hydroxytryptamine. Although these compounds are present in very small amounts in the CNS, they can be localized using extremely sensitive histochemical methods. These pathways are the site of action of many drugs for example, the CNS stimulants cocaine and amphetamine appear to act primarily at catecholamine synapses. Cocaine blocks the reuptake of dopamine and norepinephrine, whereas amphetamines cause presynaptic terminals to release these transmitters. 

On the dopamine side of the equation, one of the most promising agents in late clinical development is aripiprazole, theoretically a presynaptic D2 autoreceptor agonist. This compound is postulated to exert its antipsychotic actions in a manner far different from serotonin-dopamine antagonism that is, it may shut off the presynaptic dopamine terminal and stop dopamine release in the mesolimbic dopamine pathway by stimulating presynaptic D2 receptors. The agents Cl-1007 and DAB-... 

Modulatory effects may be postsynaptically mediated by interactions within the spiny projection neurons, or involve presynaptic regulation of neurotransmitter release from corticostriatal terminals. Postsynaptic effects may be mediated by direct actions of intracellular signaling pathways (cAMP, calcineurin) on receptor status (phosphorylation/ dephosphorylation of receptor proteins), and actions on voltage-dependent channels, which may amplify or attenuate the electrical response of the cell to synaptic currents. 

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