Rhodium (Chief Bee) 06-17-03 20:05 No 440576 |
Trip Tolerance: Neurons Swallowing own Receptors (Rated as: excellent) |
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When you first ingest a psychedelic drug, you soon discover that you develop tolerance to its effects very quickly, a single dose of a tryptamine or phenethylamine can block almost all the effects of any psychedelic for a day or two, as well as attenuating the effect of any taken within 1-2 weeks. Why is that? Why is it so effective? Was D.A.R.E. right after all, and you really did etch away the braincells with that Acid blotter? Nope, not by far - read on... The effects of the "classical hallucinogens" (largely the Phenethylamines and the Tryptamines) are all chiefly mediated by them binding to and activating the 5-HT2A receptor (they are 5-HT2A agonists), which is a member of the neurotransmitter receptors in the body and brain which binds Serotonin (or 5-HT, from its chemical name 5-Hydroxy-Tryptamine). This receptor is very easily deactivated, probably because it is not used to a large extent (to the best of my knowledge) during everyday brain-activity, something that for simplicitys sake can be verified by the fact that you usually never get religious experiences while standing in line in the store, nor are the clouds constantly on the morph. When the 5-HT2A receptor becomes more stimulated than it is used to (as in you ingesting ANY active amount of a psychedelic drug), the neurons on the recieving end of the synapse responds to this with "receptor internalization", the nerve cell actually drawing the receptor into the cell membrane, so that all its contact with the surface is lost. You can draw an analogy with the eyes of a snail - when its eye is poked or otherwise disturbed, it almost instantly retracts the telescopic eye and turns the eye tube inside out, so that it becomes buried inside the head, safe from eye-poking scientists. In the same way the serotonin neurons become stressed by being poked with 5-HT2A agonists and retracts its receptors so that any further poking does not lead to the activation of the receptor, which would otherwise force the neuron to fire repeatedly, sending away an electrical pulse of a few tens of millivolts - it doesn't sound like much, but for a cell which may have a diameter of only 0.05-0.1 millimeter (that's 1/2500 to 1/5000 of an inch), that is hard work. If you had to make 20 push-ups every time the phone rang, you would also soon disconnect the phone if you got a series of prank calls (which is very close to what serotonin neurons would consider 5-HT2A agonist drugs to be). They are small, but very clever - after all, they are brain cells by profession. When the receptors internalized, the nerve cell cannot become activated by any 5-HT2A agonists, regardless of how much of it you ingest - the drug cannot reach, and thus not activate the receptor. That you still feel something even if you would take a trip every day for a week is because not 100% of the receptors are internalized, and that most drugs affect a whole range of other receptors, but to a lesser extent. There are also a few other mechanisms contributing to the development of tolerance to psychedelics, but this is by far the most important one, and the most fantastic of them all. A short period after the drug has left the body, the 5-HT2A receptors either return to the surface, or if the repair machinery in the neuron determines that any of them were damaged, they are broken down to their constituents again and are thus salvaged for spare parts, so that new 5-HT2A receptors can be built and re-installed, allowing the serotonergic neuron to return to exactly the same pristine state it was before the weekend. To study this more in-depth, I have linked a few articles of interest below - most (if not all?) of them should be free to download, otherwise just tell me, and I'll upload them to my page. Further Reading on 5-HT2A Desensitization: Mechanisms of Ligand-Induced Desensitization of the 5-HT2A Receptor J. Pharm. Exp. Ther. Vol. 300, Issue 2, 468-477, February 2002 (http://jpet.aspetjournals.org/cgi/conte Differences in Rapid Desensitization of 5-HT2A and 5-HT2C J. Pharm. Exp. Ther. Vol. 299, Issue 2, 593-602, November 2001 (http://jpet.aspetjournals.org/cgi/conte Dynamin-dependent, Arrestin-independent Internalization of 5-Hydroxytryptamine 2A (5-HT2A) Serotonin Receptors J Biol Chem. 2001 Mar 16;276(11):8269-77 (http://www.jbc.org/cgi/content/abstract The Interaction of a Constitutively Active Arrestin with the Arrestin-Insensitive 5-HT2A Receptor Induces Agonist-Independent Internalization Mol. Pharmacol., May 1, 2003; 63(5): 961-972. (http://molpharm.aspetjournals.org/cgi/c Cell-Type Specific Effects of Endocytosis Inhibitors on 5-HT2A Receptor Desensitization and Resensitization Mol. Pharmacol., Vol. 60, Issue 5, 1020-1030, November 2001 (http://molpharm.aspetjournals.org/cgi/c Receptor Internalization Process Source: Roth Lab: Functional Studies of 5-HT Receptors (http://kidb.cwru.edu/rothlab/regulation |
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Prometheuz (Hive Bee) 06-18-03 14:21 No 440797 |
Thank you! | |||||||
Thank you for an enlightening post. Made some things much more clear to me. Love your very fitting analogies. To fathom Hell or soar angelic Just take a pinch of psychedelic |
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slappy (Hive Addict) 06-18-03 21:59 No 440866 |
Receptor internalization that you speak of is... | |||||||
Receptor internalization that you speak of is referred to as Endocytosis. The receptors are disposable so to speak. After endocytosis, it is taken into a lysosome where it is hydrolytically digested, and a new receptor is built in the endoplasmic reticulum (ER), folded in the golgi, and transported to the cell membrane. |
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Lilienthal (Moderator) 06-18-03 22:39 No 440870 |
Degradation is usually a minor pathway, most... | |||||||
Degradation is usually a minor pathway, most of the receptors are continously recycling between inner compartments and the surface. Binding of ligands just changes the rate of internalization and thereby shifts the equilibrium to higher intracellular concentrations. |
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yellium (I'm Yust a Typo) 06-18-03 23:10 No 440879 |
So, is there a possibility to make trips more... | |||||||
So, is there a possibility to make trips more 'first-time-like' by taking 5ht2a-antagonists? |
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moo (Hive Bee) 06-19-03 00:29 No 440899 |
Wouldn't it be a bit naïve to think that what... | |||||||
Wouldn't it be a bit naïve to think that what a trip feels like is only based on the sensitivity of the neuron? After tripping ten times you already have some kind of an idea what it's like and there's no turning back. No, you didn't say that... just happened to cross my mind. I agree that creating a tolerance for 5-HT2A antagonists would be interesting to play with before ingestin the agonists. fear fear hate hate |
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Rhodium (Chief Bee) 06-19-03 00:40 No 440900 |
Slappy: I thought that the definition of ... | |||||||
Slappy: I thought that the definition of endocytosis was a cell "ingesting" something from the outside of the membrane, allowing it to end up in an endosome in the cytosole. This being different from this receptor internalization, always being labeled as that in the literature, as well as not being digested, but rather recycled. Yellium: Trips does not appear "first-time" the first times just because you have a full set of 5-HT2A as a trip virgin. That effect is much more complex and involves you becoming familiar with the feelings - I don't think that "familiarity" has a neurochemical counterpart, only a psychologic (quite a few abstraction layers higher). The tolerance which is due to 5-HT2A receptor internalization hasn't got anything to do with the subjective quality of the effects from 5-HT2A agonists (i.e. psychedelics), only the quantitative effects you are able to attain with a specific dose. |
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praeseodymium (Hive Bee) 06-19-03 09:48 No 440975 |
I can't thank you enough. | |||||||
Rhodium, it's clear why you're the Chief Bee. Is it the case whether similar behaviour is exhibited in other receptor types from differnt agonists? Does it follow (as it would seem) that the reverse occurs when antagonists are acting? e( i*pi)+1=0 |
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Rhodium (Chief Bee) 06-19-03 15:58 No 441015 |
Different mechanisms for different receptors | |||||||
This is only fully valid for the 5-HT2A receptor (the one responsible for the great majority of all psychedelic action), and not the universal tolerance-producing mechanism for all receptors, it even differs between different 5-HT2x receptors, see the following article at Medline (PMID=11602671) for example: Differences in rapid desensitization of 5-HT2A and 5-HT2C receptor-mediated phospholipase C activation. J Pharmacol Exp Ther. 2001 Nov;299(2):593-602. Abstract The serotonin (5-HT)2A and 5-HT2C receptors share a high degree of sequence homology and have very similar pharmacological profiles. Although it is generally believed that the cellular signal transduction mechanisms activated by these receptors are indistinguishable, recent data suggest significant differences in their signaling cascades. In this study we explored differences in the characteristics and mechanisms of rapid desensitization between the 5-HT2A and 5-HT2C receptor systems. For both receptor systems, pretreatment with 5-HT reduced the ability of a maximal concentration of 5-HT to stimulate phospholipase C-mediated inositol phosphate accumulation by about 65%, although the 5-HT2C receptor system was more sensitive to the desensitizing stimulus. Differences in the concentration dependence of the rate constant for desensitization (k(des)) suggested different mechanisms of desensitization for the 5-HT2A and 5-HT2C receptor systems. At very high receptor occupancy (>99%), the responsiveness of the 5-HT2A, but not the 5-HT2C, receptor system returned to control levels despite the continued presence of the agonist. This resensitization was dependent upon the activity of protein kinase C (PKC). Agonist-induced desensitization of the 5-HT2A, but not the 5-HT2C, receptor system was reduced by the PKC inhibitors staurosporine and bisindolylmaleimide, and by down-regulation of PKC. In addition, inhibitors of calmodulin (W-7) or of calmodulin-dependent protein kinase II, reduced 5-HT2A, but not 5-HT2C, desensitization. Desensitization of the 5-HT2C, but not the 5-HT2A, receptor system was dependent on G protein receptor kinase activity. These data further emphasize the major differences in the signaling systems coupled to 5-HT2A/2C receptors. |
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jsorex (Hive Addict) 04-04-04 23:51 No 499060 |
Any opinions on whether the 5-HT2A antagonists | |||||||
Any opinions on whether the 5-HT2A antagonists (refered to here:Post 440879 (yellium: "So, is there a possibility to make trips more...", Serious Chemistry)) would cause the same desensitization as the agonists. After all the antagonist binds to the receptor also. |
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Ganesha (Stranger) 04-05-04 14:21 No 499152 |
That theory sounds funny | |||||||
If I told you that DMT produce to no tolerance whatsoever (duh, the brain would stop function if that was the case) I relize that I would be telling you an old story. DMT and 5-MeO-DMT are, of course, non-selective 5-HT2A agonists, they also agonize other subtypes such as 5-HT1A, 5-HT2B et al. However, if the above explanation would hold true - there would be at least some change in activity noted when repetadley smoking DMT/5-MeO-DMT. These compounds are very potent 5-HT2A agonists and 5-HT2A agonism plays an importnant role in the DMT intoxication. You can smoke (5-MeO-)DMT over and over again and get as magnificant mind-expantion every time, with no loss of intensity whatsoever. DON'T QUESTION AUTHORITY * DON'T QUESTION AUTHORITY * BE SELFISH * FEAR OTHERS * BE SELFISH * |
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Rhodium (Chief Bee) 04-05-04 17:03 No 499167 |
Too short-acting to matter | |||||||
My opinion on that matter is that DMT and 5-MeO-DMT are too short-acting to affect the receptor down-regulation, which only comes into play when the receptors are stimulated for longer time-periods. I assume that it is evolutionary advantageous for an organism (such as humans) to pull 5-HT2A receptors out of circulation if they are "switched on" for extended periods of time. The neurons can probably not differentiate between a receptor being activated due to an agonist or damage to the receptor itself. The Hive - Clandestine Chemists Without Borders |
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jsorex (Hive Addict) 04-05-04 22:11 No 499210 |
Not long ago we had alot of material on a... | |||||||
Not long ago we had alot of material on a supoused DMT tachyphylaxis on the net. Now I can't find any. Is it possible that it does actually happen, but that the psychotropic effects appear partially via other mechanism or chain mechanisms? |
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Nicodem (Hive Bee) 04-06-04 16:11 No 499345 |
Antagonists cause downregulation as well (Rated as: good read) |
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Yellium and Jsorex: Antagonists cause downregulation of the 5-HT2A receptors as well. Read the papers that Rhodium cited as well as the second abstract bellow. This is quite unique to these receptors. So a pretreatment with 5-HT2A R antagonists should produce tolerance to agonists instead of making the response stronger like suggested by Yellium’s post. Here are two older reviews dealing with 5-HT2A R regulation. (I can't find the PDF's on my computer anymore. Maybe somebody with access can upload them for interested bees to read.) Paradoxical trafficking and regulation of 5-HT2A receptors by agonists and antagonists. John A. Gray and Bryan L. Roth Brain Research Bulletin 56 (2001) 441-451. DOI:10.1016/S0361-9230(01)00623-2 Abstract: 5-Hydroxytryptamine2A (serotonin2A, 5-HT2A) receptors are important for many physiologic processes including platelet aggregation, smooth muscle contraction, and the modulation of mood and perception. A large number of pharmaceutical agents mediate their actions, at least in part, by modulating the number and/or activity of 5-HT2A receptors. Drugs with action at 5-HT2A receptors are used in the treatment of many disorders, including schizophrenia, depression, and anxiety disorders. This review summarizes over two decades of research on the regulation of 5-HT2A receptors and provides a comprehensive review of numerous in vivo studies describing the paradoxical phenomenon of 5-HT2A receptor down-regulation by chronic treatment with antidepressants and antipsychotics. In addition, studies reporting antagonist-induced internalization of 5-HT2A receptors and other G protein-coupled receptors will be highlighted as a possible mechanism to explain this paradoxical down-regulation. Finally, a review of the cellular and molecular mechanisms that may be responsible for agonist-mediated desensitization and internalization of 5-HT2A receptors will be presented. Regulation of central 5-HT2A receptors: a review of in vivo studies. Arlene S. Eison and U. Lena Mullins Behavioural Brain Research 73 (1995) 177-181. DOI:10.1016/0166-4328(96)00092-7 Abstract: Numerous investigations have studied in vivo regulation of central 5-HT2A receptors. The majority of pharmacological studies point to non-classical regulation of this site. Serotonergic denervation does not modify 5-HT2A receptor density or second messenger responses (phosphoinositide hydrolysis). 5-HT2A receptor downregulation is produced by the chronic administration of 5-HT2A receptor agonists and uniquely among monoamine receptors by antagonists. Several classes of psychotherapeutic agents also downregulate 5-HT2A receptors with chronic administration including classical antidepressants and antipsychotics. 5-HT2A receptor downregulation produced by 5-HT2A antagonists and antidepressants occurs after presynaptic 5-HT denervation, suggesting that 5-HT2A receptors are postsynaptically localized and emphasizing that they are regulated differently than traditional monoaminergic receptors. Interestingly, the behavioral and biochemical effects of 5-HT2A receptor activation are modulated by activity at other 5-HT receptor subtypes (5-HT1A), as well as by stimulation of receptors for other neurotransmitters and hormones such as norepinephrine (beta-adrenergic) and melatonin. It is suggested that these diverse modulatory influences on 5-HT2A receptor regulation and function may meaningfully impact the therapeutic actions of drugs, including pharmacologically distinct antidepressants. Note that both issues of the two journals containing these two papers are solely devoted to serotonin, its receptors and transporters and other related stuff: Behavioural Brain Research 73, Issues 1-2 (15 December 1995) (many papers in here are very interesting!) Brain Research Bulletin 56, Issue 5 (15 November 2001) (pages 495-507 might bee interesting) Edit: The wrong DOI number and the reference has been corrected. “The real drug-problem is that we need more and better drugs.” – J. Ott |
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jsorex (Hive Addict) 04-06-04 19:15 No 499375 |
DMT tachyphylaxis | |||||||
A competative or non-competative antagonist binds to the site, just like the agonist, but without the physiological effect. "Antagonist" does not refer to a drug that give the opposite pharmacological response. There is a term for that also, which is used occasionally. I don't know what it is in english, though. Anybody? So does DMT tachyphylaxis occur or not? There used to be material on the net suggesting that earlier. |
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jsorex (Hive Addict) 04-06-04 19:32 No 499377 |
Rhodium: Slappy: I thought that the definition | |||||||
Rhodium: Slappy: I thought that the definition of endocytosis was a cell "ingesting" something from the outside of the membrane, allowing it to end up in an endosome in the cytosole. This being different from this receptor internalization, always being labeled as that in the literature, as well as not being digested, but rather recycled. Not necessarily, it can refer to cellular uptake of extracellular materials within membrane-limited vacuoles or microvesicles, where endosomes play a central role in the endocytosis, but by no means limited to ingestion or any metabolism. Endo-cytosis = entering the cytoplasm Nicodem: The articles you posted have the same DOI? Some mistake? |
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Rhodium (Chief Bee) 04-06-04 19:52 No 499381 |
Inverse agonist | |||||||
A competative or non-competative antagonist binds to the site, just like the agonist, but without the physiological effect. Did anyone say otherwise? Then isn't it rather remarkable that antagonists also cause receptor downregulation? "Antagonist" does not refer to a drug that give the opposite pharmacological response. There is a term for that also, which is used occasionally. I don't know what it is in english, though. Anybody? The term you are looking for is 'Inverse agonist' (http://medicine.creighton.edu/pharmacol The Hive - Clandestine Chemists Without Borders |
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Rhodium (Chief Bee) 04-06-04 20:12 No 499384 |
DMT Tachyphylaxis (Tolerance) | |||||||
Human psychopharmacology of N,N-dimethyltryptamine. Strassman RJ. Behav Brain Res. 1996;73(1-2):121-4. Medline (PMID=8788488) Abstract We generated dose-response data for the endogenous and ultra-short-acting hallucinogen, N,N-dimethyltryptamine (DMT), in a cohort of experienced hallucinogen users, measuring multiple biological and psychological outcome measures. Subjective responses were quantified with a new rating scale, the HRS, which provided better resolution of dose effects than did the biological variables. A tolerance study then was performed, in which volunteers received four closely spaced hallucinogenic doses of DMT. Subjective responses demonstrated no tolerance, while biological measures were inconsistently reduced over the course of the sessions. Thus, DMT remains unique among classic hallucinogens in its inability to induce tolerance to its psychological effects. To assess the role of the 5-HT1A site in mediating DMT's effects, a pindolol pre-treatment study was performed. Pindolol significantly increased psychological responses to DMT, suggesting a buffering effect of 5-HT1A agonism on 5-HT2-mediated psychedelic effects. These data are opposite to those described in lower animal models of hallucinogens' mechanisms of action. ____ ___ __ _ Differential tolerance to biological and subjective effects of four closely spaced doses of N,N-dimethyltryptamine in humans. Strassman RJ, Qualls CR, Berg LM. Biol Psychiatry. 1996 May 1;39(9):784-95. Medline (PMID=8731519) Abstract Tolerance of the behavioral effects of the short-acting, endogenous hallucinogen, N,N-dimethyltryptamine (DMT) is seen inconsistently in animals, and has not been produced in humans. The nature and time course of responses to repetitive, closely spaced administrations of an hallucinogenic dose of DMT were characterized. Thirteen experienced hallucinogen users received intravenous 0.3 mg/kg DMT fumarate, or saline placebo, four times, at 30 min intervals, on 2 separate days, in a randomized, double-blind, design. Tolerance to "psychedelic" subjective effects did not occur according to either clinical interview or Hallucinogen Rating Scale scores. Adrenocorticotropic hormone (ACTH), prolactin, cortisol, and heart rate responses decreased with repeated DMT administration, although blood pressure did not. These data demonstrate the unique properties of DMT relative to other hallucinogens and underscore the differential regulation of the multiple processes mediating the effects of DMT. The Hive - Clandestine Chemists Without Borders |
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jsorex (Hive Addict) 04-06-04 20:19 No 499385 |
Paradoxical trafficking and regulation of 5-HT2A r (Rated as: good read) |
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Paradoxical trafficking and regulation of 5-HT2A receptors by agonists and antagonists Brain Research Bulletin Volume 56, Issue 5 , 15 November 2001, Pages 441-451 |
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Nicodem (Hive Bee) 04-06-04 21:00 No 499389 |
Then isn't it rather remarkable that ... | |||||||
Then isn't it rather remarkable that antagonists also cause receptor downregulation? Yes that is indeed remarkable and puzzled me too. I was convinced that antagonists don't do any alosteric changes to the receptor protein. So how can the information of the site being occupied by an antagonist tranfer to the internal side of the membrane and activate the internalization process? Is it possible that there are four (or more) alosteric structures of the 5-HT2A receptor? -one that tightly binds the Gq-protein (inverse agonist binding) -one normal (no ligand) -one that dissociate the complex with the Gq-protein and also activate iternalization (agonist binding) -and one that does not dissociate the Gq-protein but nevertheless activate a mechanism for internalization (antagonist binding) “The real drug-problem is that we need more and better drugs.” – J. Ott |
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Ganesha (Stranger) 04-06-04 22:06 No 499403 |
More | |||||||
My opinion on that matter is that DMT and 5-MeO-DMT are too short-acting to affect the receptor down-regulation, which only comes into play when the receptors are stimulated for longer time-periods. You can always prolong the action of (5-MeO)-DMT by simply smoking more. How is duration of action related to the receptor down-regulation? OBEY |
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7is (Newbee) 04-07-04 01:37 No 499429 |
Some references (Rated as: excellent) |
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Hi, I uploaded all the articles mentioned in this thread to my site (and some bonus articles too) They are all named by the name of the study. Sorry that I dont have enough time to post more details. http://nic-nac-project.de/~tajkor/1/ |
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longimanus (Stranger) 04-07-04 17:44 No 499528 |
DMT and 5-HT2A downregulation | |||||||
You can always prolong the action of (5-MeO)-DMT by simply smoking more. How is duration of action related to the receptor down-regulation? DMT DOES affect the 5-HT receptors` sensibility (i.e. activates the internalization process) and it doesn`t matter how much you smoke (or inject). That`s what Strassman`s articles say: ...Adrenocorticotropic hormone (ACTH), prolactin, cortisol, and heart rate responses decreased with repeated DMT administration... Which means that tolerance of the physical effects of DMT occurs. But (what is the most interesting characteristic of DMT) the strength of the behavioral effects produced by certain dose of the drug remains constant with the number of ingestions. |
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Lilienthal (Moderator) 04-07-04 18:17 No 499533 |
ACTH, prolactin, cortisol, and heart rate... | |||||||
ACTH, prolactin, cortisol, and heart rate response could be a 'psychological response' to the strange effects of these drugs. The 'tolerance' then could be a simple customization to the starnge effects of these drugs. At least for cortisol I know that it is a stress marker. |
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longimanus (Stranger) 04-08-04 11:32 No 499695 |
ACTH, PRL, MAP, HR... and something about cortisol | |||||||
1. Who said ACTH, prolactin, cortisol and heart rate response are psychological response? 2. A citation Human psychopharmacology of N,N-dimethyltryptamine Strassman, Rick J. Behavioural Brain Research 73(1996)121-124 Medline (PMID=8788488) ...ACTH and PRL responses did decrease over the course of the morning, suggesting tolerance development. This differential tolerance development was interpreted as being mediated by independantly regulated desensitization of relevant 5-HT receptor mechanisms... Not that I`m sure it`s true but... 3. Now about cortisol (hydrocortisone). It`s used as an antiinflamatory agent. W. Burroughs had used cortisone as a substitute for opiates. Actually it`s not an opiate but 1 mg i.v. feels better than benzodiazepines. |
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Nicodem (Hive Bee) 04-08-04 11:50 No 499697 |
10 minuteus vs. 2h makes a difference | |||||||
Who said ACTH, prolactin, cortisol and heart rate response are psychological response? Well, I guess they were dettermined from blood samples and not from intraspinall liquid or whatever connected with brains. I agree with Lily, the physiological tolerance for DMT does not necessarily mean the receptors get internalized. As the psychoactivity remains the same I would say it is proof enough that doesn’t happen. Actually, if for example, the 5-HT1A serotonin autoreceptors are more sensitive for the desensitization we could expect an even stronger effects after continuous exposure. That would really be a funny phenomenon. Besides if somebees would read at least the abstracts of the papers Rhodium cited they would already find the answer. It does seam that the 5-HT2A R gets desensitized also at short exposures, but trough a different mechanism (which is obviously only short lived). However they do not get internalized. There are other much more temporary desensitization mechanisms known. For example, if I remember correctly, the nicotinic receptors can be temporarily desensitized by phosphorylation on the intracellular side if too much of the agonist sticks around for more than just a moment. This is from the abstract of the first ref in the first post of this thread! Mechanisms of Ligand-Induced Desensitization of the 5-HT2A Receptor. JPET 300 (2002) 468-477. ( http://jpet.aspetjournals.org/cgi/conten 5-HT-induced desensitization of the 5-HT2A receptor involved receptor internalization through a clathrin- and dynamin-dependent process because it was prevented by concanavalin A, monodansylcadaverine, and by expression of the dominant negative mutants betta-arrestin (319–418) and dynamin K44A. Although short-term (i.e., 10 min) 5-HT and ketanserin exposure resulted in the same degree of desensitization, ketanserin-induced desensitization was not prevented by these agents and did not involve receptor internalization. In contrast, prolonged ketanserin exposure (i.e., 2 h) resulted in 5-HT2A receptor internalization through a clathrinand dynamin-dependent process, as was observed after agonist treatment. “The real drug-problem is that we need more and better drugs.” – J. Ott |
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longimanus (Stranger) 04-10-04 10:08 No 500026 |
desensitization -> tolerance | |||||||
OK, I was really wrong when mixed the terms "desensitization" and "internalization" - it`s a mistake that should be avoided. So, it`s obvious that DMT doesn`t activate the process of internalization because it`s too short acting. But its exposure should produce very similar degree of desensitization as should the 2h exposure of ketanserin: ...short term (i.e., 10 min) 5-HT and ketanserin exposure resulted in the same degree desensitization..." (from Mechanisms of Ligand-Induced Desensitization of the 5-HT2A Receptor.JPET 300 (2002) 468-477. (http://jpet.aspetjournals.org/cgi/conte And if some of the 5-HT2A R-s are desensitized it will be very hard for the same dose of DMT to activate the same number of receptors. That means that we need additional quantities of DMT to activate the same number of receptors. That means we have suceeded to produce tolerance, haven`t we? And, why do you, Nicodem, think that the constant psychoactivity is enough to proove that the receptors are not affected? The effects of a certain drug on one`s psyche is not determined only by the effects of this drug on the receptors he/she has in his/her body. z.B., look at the poor little rats - both, male and female, have the same set of receptors but... DOI:10.1016/S0376-8716(01)00185-5 DOI:10.1016/S0091-3057(02)00853-5 |
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Nicodem (Hive Bee) 04-10-04 10:49 No 500028 |
And, why do you, Nicodem, think that the ... | |||||||
And, why do you, Nicodem, think that the constant psychoactivity is enough to proove that the receptors are not affected? I was reffering to the R. Strassman paper on DMT discused before. It is quite obvious that if taking close spaced DMT doses the first would have the higher psychological impact (the most traumatic I mean), but if tolerance would develop after a few hits you would have big difficulties to trip out. So it seams obvious to me that the dessensitization that develops on 10 minute DMT trips is short lived (I compared it to the nicotinic receptor phosphorylation dessensitization). You also have to include the possibility that the 5-HT1A autoreceptors could dessensitize as well, meaning that it would compensate for the 5-HT2A dessensitization (5-HT1A agonism inhibit 5-HT release). “The real drug-problem is that we need more and better drugs.” – J. Ott |
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