Thursday, September 19, 2019
Ion Channels Affected by LSD :: Hallucinogens Drugs Essays
Ion Channels Affected by LSD Research with LSD has been very limited by two major factors: lack of human subjects and laws against it as a controlled substance. These deterrents have caused a big hole in what can be discovered about this hallucinogen at the ion channels it affects and in turn those effects on inhibitory and excitatory potentials of the cell. It was difficult to obtain clear explanations about exactly what was going on at the neuron level. Later it was discovered that most experiments were carried out on rodents. This may not sound like it is such a bad thing because human subjects were not being put in positions where their health could be affected by the drug, but in fact there is a slight difference in rodent and human brains. LSD affects a serotonergic receptor type 2A (5- HT2A), which is different in rats to humans in its structure and activity, and behavior "may not strictly parallel those in humans" (Nichols, 2004). This could cause researches to get different results in what they would see in experimental rats and to what may actually be happening in humans. Another deterrent that has somewhat slowed down the process of understanding LSD at the neuron level is the law. LSD is scheduled as a controlled substance; Schedule I, to be exact, which means that it is illegal to posses, sell, or buy without a DEA license. You can imagine what would happen if a researcher was caught with a substantial amount of LSD, and possibly the difficulty in obtaining a license that will allow someone to posses a powerful illegal substance. These things are exactly what will repel researchers from using such a substance. The only almost certain aspect of LSD is that it has a similar chemical composition as serotonin (5-HT) and will especially act on 5-HT2 receptors. However, LSD is the only known hallucinogen to bind to dopamine receptors. It will activate postsynaptic dopamine receptors if the dose is high enough to do so. LSD also binds to alpha-adrenergic and beta-adrenergic receptors that are involved sympathetic nervous system control of smooth muscles. It is also a competitive antagonist at histamine receptors and will produce inhibitory messages. LSD also acts mysteriously on the visual cortex. At low doses, LSD will stimulate the visual cortex and higher doses will inhibit this area. LSD research has flipped it from being an antagonist to an
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