2C-I: Difference between revisions

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| NIAID_ChemDB =  
| NIAID_ChemDB =  
| PDB_ligand =  
| PDB_ligand =  
| synonyms =  
| synonyms = 4-Iodo-2,5-dimethoxyphenethylamine; 2,5-Dimethoxy-4-iodophenethylamine; 25I; Cimbi-88


<!-- Chemical data -->
<!-- Chemical data -->
Line 102: Line 102:
! [[Biological target|Target]] !! [[Affinity (pharmacology)|Affinity]] (K<sub>i</sub>, nM)
! [[Biological target|Target]] !! [[Affinity (pharmacology)|Affinity]] (K<sub>i</sub>, nM)
|-
|-
| [[5-HT1A receptor|5-HT<sub>1A</sub>]] || 180–970 (K<sub>i</sub>)<br />4,900 ({{Abbrlink|EC<sub>50</sub>|half-maximal effective concentration}})<br />102% ({{Abbrlink|E<sub>max</sub>|maximal efficacy}})
| [[5-HT1A receptor|5-HT<sub>1A</sub>]] || 107–970 (K<sub>i</sub>)<br />4,900 ({{Abbrlink|EC<sub>50</sub>|half-maximal effective concentration}})<br />102% ({{Abbrlink|E<sub>max</sub>|maximal efficacy}})
|-
|-
| [[5-HT1B receptor|5-HT<sub>1B</sub>]] || {{Abbr|ND|No data}}
| [[5-HT1B receptor|5-HT<sub>1B</sub>]] || 56
|-
|-
| [[5-HT1D receptor|5-HT<sub>1D</sub>]] || {{Abbr|ND|No data}}
| [[5-HT1D receptor|5-HT<sub>1D</sub>]] || 40
|-
|-
| [[5-HT1E receptor|5-HT<sub>1E</sub>]] || {{Abbr|ND|No data}}
| [[5-HT1E receptor|5-HT<sub>1E</sub>]] || 131
|-
|-
| [[5-HT1F receptor|5-HT<sub>1F</sub>]] || {{Abbr|ND|No data}}
| [[5-HT1F receptor|5-HT<sub>1F</sub>]] || {{Abbr|ND|No data}}
Line 114: Line 114:
| [[5-HT2A receptor|5-HT<sub>2A</sub>]] || 3.5–9.3 (K<sub>i</sub>)<br />1.48–513 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />17–93% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
| [[5-HT2A receptor|5-HT<sub>2A</sub>]] || 3.5–9.3 (K<sub>i</sub>)<br />1.48–513 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />17–93% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
|-
|-
| [[5-HT2B receptor|5-HT<sub>2B</sub>]] || 19.1–150 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />70–101% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
| [[5-HT2B receptor|5-HT<sub>2B</sub>]] || 9.3 (K<sub>i</sub>)<br />19.1–150 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />70–101% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
|-
|-
| [[5-HT2C receptor|5-HT<sub>2C</sub>]] || 10–40 (K<sub>i</sub>)<br />0.46–537 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />44–107% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
| [[5-HT2C receptor|5-HT<sub>2C</sub>]] || 9.3–40 (K<sub>i</sub>)<br />0.46–537 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}})<br />44–107% ({{Abbr|E<sub>max</sub>|maximal efficacy}})
|-
|-
| [[5-HT3 receptor|5-HT<sub>3</sub>]] || {{Abbr|ND|No data}}
| [[5-HT3 receptor|5-HT<sub>3</sub>]] || >10,000
|-
|-
| [[5-HT4 receptor|5-HT<sub>4</sub>]] || {{Abbr|ND|No data}}
| [[5-HT4 receptor|5-HT<sub>4</sub>]] || {{Abbr|ND|No data}}
|-
|-
| [[5-HT5A receptor|5-HT<sub>5A</sub>]] || {{Abbr|ND|No data}}
| [[5-HT5A receptor|5-HT<sub>5A</sub>]] || >10,000
|-
|-
| [[5-HT6 receptor|5-HT<sub>6</sub>]] || {{Abbr|ND|No data}}
| [[5-HT6 receptor|5-HT<sub>6</sub>]] || {{Abbr|ND|No data}}
|-
|-
| [[5-HT7 receptor|5-HT<sub>7</sub>]] || {{Abbr|ND|No data}}
| [[5-HT7 receptor|5-HT<sub>7</sub>]] || 1,316
|-
|-
| [[Alpha-1A adrenergic receptor|α<sub>1A</sub>]] || 5,100
| [[Alpha-1A adrenergic receptor|α<sub>1A</sub>]] || 5,100–>10,000
|-
|-
| [[Alpha-1B adrenergic receptor|α<sub>1B</sub>]], [[Alpha-1D adrenergic receptor|α<sub>1D</sub>]] || {{Abbr|ND|No data}}
| [[Alpha-1B adrenergic receptor|α<sub>1B</sub>]] || >10,000
|-
|-
| [[Alpha-2A adrenergic receptor|α<sub>2A</sub>]] || 70
| [[Alpha-1D adrenergic receptor|α<sub>1D</sub>]] || >10,000
|-
|-
| [[Alpha-2B adrenergic receptor|α<sub>2B</sub>]], [[Alpha-2C adrenergic receptor|α<sub>2C</sub>]] || {{Abbr|ND|No data}}
| [[Alpha-2A adrenergic receptor|α<sub>2A</sub>]] || 70–305
|-
|-
| [[Beta-1 adrenergic receptor|β<sub>1</sub>]][[Beta-3 adrenergic receptor|β<sub>3</sub>]] || {{Abbr|ND|No data}}
| [[Alpha-2B adrenergic receptor|α<sub>2B</sub>]] || 608
|-
| [[Alpha-2C adrenergic receptor|α<sub>2C</sub>]] || 315
|-
| [[Beta-1 adrenergic receptor|β<sub>1</sub>]] || 4,512
|-
| [[Beta-2 adrenergic receptor|β<sub>2</sub>]] || >10,000
|-
| [[Beta-3 adrenergic receptor|β<sub>3</sub>]] || {{Abbr|ND|No data}}
|-
|-
| [[D1 receptor|D<sub>1</sub>]] || 13,000
| [[D1 receptor|D<sub>1</sub>]] || 13,000
|-
|-
| [[D2 receptor|D<sub>2</sub>]] || 2,700
| [[D2 receptor|D<sub>2</sub>]] || 1,013–2,700
|-
|-
| [[D3 receptor|D<sub>3</sub>]] || 5,000
| [[D3 receptor|D<sub>3</sub>]] || 989–5,000
|-
|-
| [[D4 receptor|D<sub>4</sub>]], [[D5 receptor|D<sub>5</sub>]] || {{Abbr|ND|No data}}
| [[D4 receptor|D<sub>4</sub>]] || 2,788
|-
| [[D5 receptor|D<sub>5</sub>]] || >10,000
|-
|-
| [[H1 receptor|H<sub>1</sub>]] || 6,100
| [[H1 receptor|H<sub>1</sub>]] || 6,100
|-
| [[H2 receptor|H<sub>2</sub>]] || >10,000
|-
| [[H3 receptor|H<sub>3</sub>]] || >10,000
|-
| [[Muscarinic acetylcholine M1 receptor|M<sub>1</sub>]] || >10,000
|-
| [[Muscarinic acetylcholine M2 receptor|M<sub>2</sub>]] || 1,429
|-
| [[Muscarinic acetylcholine M3 receptor|M<sub>3</sub>]] || 950
|-
| [[Muscarinic acetylcholine M4 receptor|M<sub>4</sub>]] || 1,129
|-
| [[Muscarinic acetylcholine M5 receptor|M<sub>5</sub>]] || 2,151
|-
| [[I1 receptor|I<sub>1</sub>]] || {{Abbr|ND|No data}}
|-
| [[Sigma-1 receptor|σ<sub>1</sub>]] || >10,000
|-
| [[Sigma-2 receptor|σ<sub>2</sub>]] || 5,470
|-
| [[μ-Opioid receptor|MOR]] || 2,522
|-
| [[δ-Opioid receptor|DOR]] || {{Abbr|ND|No data}}
|-
| [[κ-Opioid receptor|KOR]] || >10,000
|-
|-
| {{Abbrlink|TAAR1|Trace amine-associated receptor 1}} || 3,300 (K<sub>i</sub>) (mouse)<br />120 (K<sub>i</sub>) (rat)<br />2,400 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (mouse)<br />190 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (rat)<br />>10,000 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (human)<br />51% ({{Abbr|E<sub>max</sub>|maximal efficacy}}) (mouse)<br />50% ({{Abbr|E<sub>max</sub>|maximal efficacy}}) (rat)
| {{Abbrlink|TAAR1|Trace amine-associated receptor 1}} || 3,300 (K<sub>i</sub>) (mouse)<br />120 (K<sub>i</sub>) (rat)<br />2,400 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (mouse)<br />190 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (rat)<br />>10,000 ({{Abbr|EC<sub>50</sub>|half-maximal effective concentration}}) (human)<br />51% ({{Abbr|E<sub>max</sub>|maximal efficacy}}) (mouse)<br />50% ({{Abbr|E<sub>max</sub>|maximal efficacy}}) (rat)
Line 160: Line 196:
| {{Abbrlink|MAO-B|Monoamine oxidase B}} || 55,000 ({{Abbr|IC<sub>50</sub>|half-maximal inhibitory concentration}})
| {{Abbrlink|MAO-B|Monoamine oxidase B}} || 55,000 ({{Abbr|IC<sub>50</sub>|half-maximal inhibitory concentration}})
|- class="sortbottom"
|- class="sortbottom"
| colspan="2" style="width: 1px; background-color:#eaecf0; text-align: center;" | '''Notes:''' The smaller the value, the more avidly the drug binds to the site. All proteins are human unless otherwise specified. '''Refs:''' <ref name="PDSPKiDatabase">{{cite web | title=Kᵢ Database | website=PDSP | date=16 March 2025 | url=https://pdsp.unc.edu/kidb2/kidb/web/kis-results/index?KisResultsSearch%5Binput_receptors%5D=&KisResultsSearch%5Binput_sources%5D=&KisResultsSearch%5Binput_species%5D=&KisResultsSearch%5Binput_hot_ligands%5D=&KisResultsSearch%5Binput_test_ligands%5D=&KisResultsSearch%5Binput_test_ligands%5D%5B%5D=12953&KisResultsSearch%5Binput_test_ligands%5D%5B%5D=14673&KisResultsSearch%5Binput_citations%5D=&KisResultsSearch%5BsearchType%5D=&KisResultsSearch%5Bki_val_from%5D=&KisResultsSearch%5Bki_val_to%5D=&KisResultsSearch%5Bcustom_ki_val%5D= | access-date=16 March 2025}}</ref><ref name="RickliLuethiReinisch2015">{{cite journal | vauthors = Rickli A, Luethi D, Reinisch J, Buchy D, Hoener MC, Liechti ME | title = Receptor interaction profiles of novel N-2-methoxybenzyl (NBOMe) derivatives of 2,5-dimethoxy-substituted phenethylamines (2C drugs) | journal = Neuropharmacology | volume = 99 | issue = | pages = 546–553 | date = December 2015 | pmid = 26318099 | doi = 10.1016/j.neuropharm.2015.08.034 | url = https://psilosybiini.info/paperit/Receptor%20interaction%20profiles%20of%20novel%20N-2-methoxybenzyl%20(NBOMe)%20derivatives%20of%202,5-dimethoxy-substituted%20phenethylamines%20(2C%20drugs)%20(Rickli%20et%20al.,%202015).pdf}}</ref><ref name="EshlemanForsterWolfrum2014">{{cite journal | vauthors = Eshleman AJ, Forster MJ, Wolfrum KM, Johnson RA, Janowsky A, Gatch MB | title = Behavioral and neurochemical pharmacology of six psychoactive substituted phenethylamines: mouse locomotion, rat drug discrimination and in vitro receptor and transporter binding and function | journal = Psychopharmacology (Berl) | volume = 231 | issue = 5 | pages = 875–888 | date = March 2014 | pmid = 24142203 | pmc = 3945162 | doi = 10.1007/s00213-013-3303-6 | url = https://www.researchgate.net/publication/258061356}}</ref><ref name="RudinLuethiHoener2022">{{cite journal | vauthors = Rudin D, Luethi D, Hoener MC, Liechti ME | title=Structure-activity Relation of Halogenated 2,5-Dimethoxyamphetamines Compared to their α‑Desmethyl (2C) Analogues | journal=The FASEB Journal | volume=36 | issue=S1 | date=2022 | issn=0892-6638 | doi=10.1096/fasebj.2022.36.S1.R2121 | doi-access=free | url=https://www.researchgate.net/publication/360423277}}</ref><ref name="PottieCannaertStove2020">{{cite journal | vauthors = Pottie E, Cannaert A, Stove CP | title = In vitro structure-activity relationship determination of 30 psychedelic new psychoactive substances by means of β-arrestin 2 recruitment to the serotonin 2A receptor | journal = Arch Toxicol | volume = 94 | issue = 10 | pages = 3449–3460 | date = October 2020 | pmid = 32627074 | doi = 10.1007/s00204-020-02836-w | bibcode = 2020ArTox..94.3449P | url = | hdl = 1854/LU-8687071 | hdl-access = free }}</ref><br /><ref name="WallachCaoCalkins2023">{{cite journal | vauthors = Wallach J, Cao AB, Calkins MM, Heim AJ, Lanham JK, Bonniwell EM, Hennessey JJ, Bock HA, Anderson EI, Sherwood AM, Morris H, de Klein R, Klein AK, Cuccurazzu B, Gamrat J, Fannana T, Zauhar R, Halberstadt AL, McCorvy JD | title = Identification of 5-HT2A receptor signaling pathways associated with psychedelic potential | journal = Nat Commun | volume = 14 | issue = 1 | pages = 8221 | date = December 2023 | pmid = 38102107 | pmc = 10724237 | doi = 10.1038/s41467-023-44016-1 }}</ref><ref name="Acuña-CastilloVillalobosMoya2002">{{cite journal | vauthors = Acuña-Castillo C, Villalobos C, Moya PR, Sáez P, Cassels BK, Huidobro-Toro JP | title = Differences in potency and efficacy of a series of phenylisopropylamine/phenylethylamine pairs at 5-HT(2A) and 5-HT(2C) receptors | journal = Br J Pharmacol | volume = 136 | issue = 4 | pages = 510–519 | date = June 2002 | pmid = 12055129 | pmc = 1573376 | doi = 10.1038/sj.bjp.0704747 | url = }}</ref><ref name="MoyaBergGutiérrez-Hernandez2007">{{cite journal | vauthors = Moya PR, Berg KA, Gutiérrez-Hernandez MA, Sáez-Briones P, Reyes-Parada M, Cassels BK, Clarke WP | title = Functional selectivity of hallucinogenic phenethylamine and phenylisopropylamine derivatives at human 5-hydroxytryptamine (5-HT)2A and 5-HT2C receptors | journal = J Pharmacol Exp Ther | volume = 321 | issue = 3 | pages = 1054–1061 | date = June 2007 | pmid = 17337633 | doi = 10.1124/jpet.106.117507 | url = https://repositorio.uchile.cl/bitstream/handle/2250/119461/Moya_Pablo_R.pdf}}</ref><ref name="FlanaganBillacLandry2021" /><ref name="WagmannBrandtStratford2019">{{cite journal | vauthors = Wagmann L, Brandt SD, Stratford A, Maurer HH, Meyer MR | title = Interactions of phenethylamine-derived psychoactive substances of the 2C-series with human monoamine oxidases | journal = Drug Test Anal | volume = 11 | issue = 2 | pages = 318–324 | date = February 2019 | pmid = 30188017 | doi = 10.1002/dta.2494 | url = }}</ref><ref name="SimmlerBuchyChaboz2016">{{cite journal | vauthors = Simmler LD, Buchy D, Chaboz S, Hoener MC, Liechti ME | title = In Vitro Characterization of Psychoactive Substances at Rat, Mouse, and Human Trace Amine-Associated Receptor 1 | journal = J Pharmacol Exp Ther | volume = 357 | issue = 1 | pages = 134–144 | date = April 2016 | pmid = 26791601 | doi = 10.1124/jpet.115.229765 | url = https://d1wqtxts1xzle7.cloudfront.net/74120533/eae6c6e62565b82d46b4d111bbea0f77b9c2-libre.pdf?1635931703=&response-content-disposition=inline%3B+filename%3DIn_Vitro_Characterization_of_Psychoactiv.pdf&Expires=1746838268&Signature=Sy4fJ90yUhxs68314NxYsW5PAaNrBGePRu35WRR4PIF-3YC7Z~sLdnCn5wfqqbLg9bDEGdt~oW55ugMP3D3jgA0BoRI~~GOb0NQOwrtfUEQK1PQs1uuN9qg5Y1ct8z5NsABm44RgtukkwRMdU6fO7OlfIsQ68hOiFk129Ll7UYqldxD2f1xhE2fTTfsxSpb8cMCJzHn7-ItqLdwnAUPFK7WggDIjmY1kCnaHLwIxMwdJCAq8L6DYzSTg7pZkbR8qlou~GXbTPQt~gYpyZTJp5hgW-7V6K5wLlQ7Z2xE7B0f9wEfuc1W1QNafg125Tr-vvAe4LEGKXV58bnn1bpfWKw__&Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA| archive-url = https://web.archive.org/web/20250509235235/https://d1wqtxts1xzle7.cloudfront.net/74120533/eae6c6e62565b82d46b4d111bbea0f77b9c2-libre.pdf?1635931703=&response-content-disposition=inline%3B+filename%3DIn_Vitro_Characterization_of_Psychoactiv.pdf&Expires=1746838268&Signature=Sy4fJ90yUhxs68314NxYsW5PAaNrBGePRu35WRR4PIF-3YC7Z~sLdnCn5wfqqbLg9bDEGdt~oW55ugMP3D3jgA0BoRI~~GOb0NQOwrtfUEQK1PQs1uuN9qg5Y1ct8z5NsABm44RgtukkwRMdU6fO7OlfIsQ68hOiFk129Ll7UYqldxD2f1xhE2fTTfsxSpb8cMCJzHn7-ItqLdwnAUPFK7WggDIjmY1kCnaHLwIxMwdJCAq8L6DYzSTg7pZkbR8qlou~GXbTPQt~gYpyZTJp5hgW-7V6K5wLlQ7Z2xE7B0f9wEfuc1W1QNafg125Tr-vvAe4LEGKXV58bnn1bpfWKw__&Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA | archive-date = 9 May 2025 }}</ref>
| colspan="2" style="width: 1px; background-color:#eaecf0; text-align: center;" | '''Notes:''' The smaller the value, the more avidly the drug binds to the site. All proteins are human unless otherwise specified. '''Refs:''' <ref name="PDSPKiDatabase">{{cite web | title=Kᵢ Database | website=PDSP | date=16 March 2025 | url=https://pdsp.unc.edu/kidb2/kidb/web/kis-results/index?KisResultsSearch%5Binput_receptors%5D=&KisResultsSearch%5Binput_sources%5D=&KisResultsSearch%5Binput_species%5D=&KisResultsSearch%5Binput_hot_ligands%5D=&KisResultsSearch%5Binput_test_ligands%5D=&KisResultsSearch%5Binput_test_ligands%5D%5B%5D=12953&KisResultsSearch%5Binput_test_ligands%5D%5B%5D=14673&KisResultsSearch%5Binput_citations%5D=&KisResultsSearch%5BsearchType%5D=&KisResultsSearch%5Bki_val_from%5D=&KisResultsSearch%5Bki_val_to%5D=&KisResultsSearch%5Bcustom_ki_val%5D= | access-date=16 March 2025}}</ref><ref name="RickliLuethiReinisch2015">{{cite journal | vauthors = Rickli A, Luethi D, Reinisch J, Buchy D, Hoener MC, Liechti ME | title = Receptor interaction profiles of novel N-2-methoxybenzyl (NBOMe) derivatives of 2,5-dimethoxy-substituted phenethylamines (2C drugs) | journal = Neuropharmacology | volume = 99 | issue = | pages = 546–553 | date = December 2015 | pmid = 26318099 | doi = 10.1016/j.neuropharm.2015.08.034 | url = https://psilosybiini.info/paperit/Receptor%20interaction%20profiles%20of%20novel%20N-2-methoxybenzyl%20(NBOMe)%20derivatives%20of%202,5-dimethoxy-substituted%20phenethylamines%20(2C%20drugs)%20(Rickli%20et%20al.,%202015).pdf}}</ref><ref name="EshlemanForsterWolfrum2014">{{cite journal | vauthors = Eshleman AJ, Forster MJ, Wolfrum KM, Johnson RA, Janowsky A, Gatch MB | title = Behavioral and neurochemical pharmacology of six psychoactive substituted phenethylamines: mouse locomotion, rat drug discrimination and in vitro receptor and transporter binding and function | journal = Psychopharmacology (Berl) | volume = 231 | issue = 5 | pages = 875–888 | date = March 2014 | pmid = 24142203 | pmc = 3945162 | doi = 10.1007/s00213-013-3303-6 | url = https://www.researchgate.net/publication/258061356}}</ref><ref name="EttrupHansenSantini2011">{{cite journal | vauthors = Ettrup A, Hansen M, Santini MA, Paine J, Gillings N, Palner M, Lehel S, Herth MM, Madsen J, Kristensen J, Begtrup M, Knudsen GM | title = Radiosynthesis and in vivo evaluation of a series of substituted 11C-phenethylamines as 5-HT (2A) agonist PET tracers | journal = Eur J Nucl Med Mol Imaging | volume = 38 | issue = 4 | pages = 681–693 | date = April 2011 | pmid = 21174090 | doi = 10.1007/s00259-010-1686-8 | url = }}</ref><ref name="RudinLuethiHoener2022">{{cite journal | vauthors = Rudin D, Luethi D, Hoener MC, Liechti ME | title=Structure-activity Relation of Halogenated 2,5-Dimethoxyamphetamines Compared to their α‑Desmethyl (2C) Analogues | journal=The FASEB Journal | volume=36 | issue=S1 | date=2022 | issn=0892-6638 | doi=10.1096/fasebj.2022.36.S1.R2121 | doi-access=free | url=https://www.researchgate.net/publication/360423277}}</ref><ref name="PottieCannaertStove2020">{{cite journal | vauthors = Pottie E, Cannaert A, Stove CP | title = In vitro structure-activity relationship determination of 30 psychedelic new psychoactive substances by means of β-arrestin 2 recruitment to the serotonin 2A receptor | journal = Arch Toxicol | volume = 94 | issue = 10 | pages = 3449–3460 | date = October 2020 | pmid = 32627074 | doi = 10.1007/s00204-020-02836-w | bibcode = 2020ArTox..94.3449P | url = | hdl = 1854/LU-8687071 | hdl-access = free }}</ref><br /><ref name="WallachCaoCalkins2023">{{cite journal | vauthors = Wallach J, Cao AB, Calkins MM, Heim AJ, Lanham JK, Bonniwell EM, Hennessey JJ, Bock HA, Anderson EI, Sherwood AM, Morris H, de Klein R, Klein AK, Cuccurazzu B, Gamrat J, Fannana T, Zauhar R, Halberstadt AL, McCorvy JD | title = Identification of 5-HT2A receptor signaling pathways associated with psychedelic potential | journal = Nat Commun | volume = 14 | issue = 1 | pages = 8221 | date = December 2023 | pmid = 38102107 | pmc = 10724237 | doi = 10.1038/s41467-023-44016-1 }}</ref><ref name="Acuña-CastilloVillalobosMoya2002">{{cite journal | vauthors = Acuña-Castillo C, Villalobos C, Moya PR, Sáez P, Cassels BK, Huidobro-Toro JP | title = Differences in potency and efficacy of a series of phenylisopropylamine/phenylethylamine pairs at 5-HT(2A) and 5-HT(2C) receptors | journal = Br J Pharmacol | volume = 136 | issue = 4 | pages = 510–519 | date = June 2002 | pmid = 12055129 | pmc = 1573376 | doi = 10.1038/sj.bjp.0704747 | url = }}</ref><ref name="MoyaBergGutiérrez-Hernandez2007">{{cite journal | vauthors = Moya PR, Berg KA, Gutiérrez-Hernandez MA, Sáez-Briones P, Reyes-Parada M, Cassels BK, Clarke WP | title = Functional selectivity of hallucinogenic phenethylamine and phenylisopropylamine derivatives at human 5-hydroxytryptamine (5-HT)2A and 5-HT2C receptors | journal = J Pharmacol Exp Ther | volume = 321 | issue = 3 | pages = 1054–1061 | date = June 2007 | pmid = 17337633 | doi = 10.1124/jpet.106.117507 | url = https://repositorio.uchile.cl/bitstream/handle/2250/119461/Moya_Pablo_R.pdf}}</ref><ref name="FlanaganBillacLandry2021" /><ref name="WagmannBrandtStratford2019">{{cite journal | vauthors = Wagmann L, Brandt SD, Stratford A, Maurer HH, Meyer MR | title = Interactions of phenethylamine-derived psychoactive substances of the 2C-series with human monoamine oxidases | journal = Drug Test Anal | volume = 11 | issue = 2 | pages = 318–324 | date = February 2019 | pmid = 30188017 | doi = 10.1002/dta.2494 | url = }}</ref><ref name="SimmlerBuchyChaboz2016">{{cite journal | vauthors = Simmler LD, Buchy D, Chaboz S, Hoener MC, Liechti ME | title = In Vitro Characterization of Psychoactive Substances at Rat, Mouse, and Human Trace Amine-Associated Receptor 1 | journal = J Pharmacol Exp Ther | volume = 357 | issue = 1 | pages = 134–144 | date = April 2016 | pmid = 26791601 | doi = 10.1124/jpet.115.229765 | url = https://d1wqtxts1xzle7.cloudfront.net/74120533/eae6c6e62565b82d46b4d111bbea0f77b9c2-libre.pdf?1635931703=&response-content-disposition=inline%3B+filename%3DIn_Vitro_Characterization_of_Psychoactiv.pdf&Expires=1746838268&Signature=Sy4fJ90yUhxs68314NxYsW5PAaNrBGePRu35WRR4PIF-3YC7Z~sLdnCn5wfqqbLg9bDEGdt~oW55ugMP3D3jgA0BoRI~~GOb0NQOwrtfUEQK1PQs1uuN9qg5Y1ct8z5NsABm44RgtukkwRMdU6fO7OlfIsQ68hOiFk129Ll7UYqldxD2f1xhE2fTTfsxSpb8cMCJzHn7-ItqLdwnAUPFK7WggDIjmY1kCnaHLwIxMwdJCAq8L6DYzSTg7pZkbR8qlou~GXbTPQt~gYpyZTJp5hgW-7V6K5wLlQ7Z2xE7B0f9wEfuc1W1QNafg125Tr-vvAe4LEGKXV58bnn1bpfWKw__&Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA| archive-url = https://web.archive.org/web/20250509235235/https://d1wqtxts1xzle7.cloudfront.net/74120533/eae6c6e62565b82d46b4d111bbea0f77b9c2-libre.pdf?1635931703=&response-content-disposition=inline%3B+filename%3DIn_Vitro_Characterization_of_Psychoactiv.pdf&Expires=1746838268&Signature=Sy4fJ90yUhxs68314NxYsW5PAaNrBGePRu35WRR4PIF-3YC7Z~sLdnCn5wfqqbLg9bDEGdt~oW55ugMP3D3jgA0BoRI~~GOb0NQOwrtfUEQK1PQs1uuN9qg5Y1ct8z5NsABm44RgtukkwRMdU6fO7OlfIsQ68hOiFk129Ll7UYqldxD2f1xhE2fTTfsxSpb8cMCJzHn7-ItqLdwnAUPFK7WggDIjmY1kCnaHLwIxMwdJCAq8L6DYzSTg7pZkbR8qlou~GXbTPQt~gYpyZTJp5hgW-7V6K5wLlQ7Z2xE7B0f9wEfuc1W1QNafg125Tr-vvAe4LEGKXV58bnn1bpfWKw__&Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA | archive-date = 9 May 2025 }}</ref>
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Latest revision as of 03:13, 10 June 2025

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| _other_data=2-(4-iodo-2,5-dimethoxyphenyl)ethan-1-amine

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2C-I, also known as 2,5-dimethoxy-4-iodophenethylamine, is a phenethylamine of the 2C family with psychedelic effects.[1] It was first synthesized by Alexander Shulgin, and is described in Shulgin's book PiHKAL (1991).

The substance is consumed as a recreational drug, and is circulated in the drug market in a powder form. 2C-I is sometimes confused with other related chemical substances such as 25I-NBOMe (2C-I-NBOMe), nicknamed "Smiles" and "N-bomb" in the media.[2][3][4]

Use

In the early 2000s, 2C-I was sold in Dutch smart shops as a recreational drug after the drug 2C-B was banned.[5]

According to the US Drug Enforcement Administration, 2C-I is taken orally or snorted in a powder form.[6]

Interactions

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2C-I is metabolized by the monoamine oxidase (MAO) enzymes MAO-A and MAO-B.[7][8] Monoamine oxidase inhibitors (MAOIs) such as phenelzine, tranylcypromine, moclobemide, and selegiline may potentiate the effects of 2C-I.[7][8][9] This may result in overdose and serious toxicity.[9][7]

Pharmacology

Pharmacodynamics

2C-I activities
Target Affinity (Ki, nM)
5-HT1A 107–970 (Ki)
4,900 (Template:Abbrlink)
102% (Template:Abbrlink)
5-HT1B 56
5-HT1D 40
5-HT1E 131
5-HT1F ND
5-HT2A 3.5–9.3 (Ki)
1.48–513 (EC50)
17–93% (Emax)
5-HT2B 9.3 (Ki)
19.1–150 (EC50)
70–101% (Emax)
5-HT2C 9.3–40 (Ki)
0.46–537 (EC50)
44–107% (Emax)
5-HT3 >10,000
5-HT4 ND
5-HT5A >10,000
5-HT6 ND
5-HT7 1,316
α1A 5,100–>10,000
α1B >10,000
α1D >10,000
α2A 70–305
α2B 608
α2C 315
β1 4,512
β2 >10,000
β3 ND
D1 13,000
D2 1,013–2,700
D3 989–5,000
D4 2,788
D5 >10,000
H1 6,100
H2 >10,000
H3 >10,000
M1 >10,000
M2 1,429
M3 950
M4 1,129
M5 2,151
I1 ND
σ1 >10,000
σ2 5,470
MOR 2,522
DOR ND
KOR >10,000
Template:Abbrlink 3,300 (Ki) (mouse)
120 (Ki) (rat)
2,400 (EC50) (mouse)
190 (EC50) (rat)
>10,000 (EC50) (human)
51% (Emax) (mouse)
50% (Emax) (rat)
Template:Abbrlink 950–4,900 (Ki)
5,600–13,000 (Template:Abbrlink)
IA (EC50)
Template:Abbrlink 15,000 (Ki)
22,000 (IC50)
IA (EC50)
Template:Abbrlink >30,000 (Ki)
126,000 (IC50)
IA (EC50)
Template:Abbrlink 125,000 (IC50)
Template:Abbrlink 55,000 (IC50)
Notes: The smaller the value, the more avidly the drug binds to the site. All proteins are human unless otherwise specified. Refs: [10][11][12][13][14][15]
[16][17][18][19][20][21]

2C-I acts as a serotonin receptor agonist. It produces psychedelic effects via serotonin 5-HT2A receptor activation.

It is inactive as a monoamine releasing agent and shows negligible activity as a monoamine reuptake inhibitor.[12][11]

2C-I is a highly potent anti-inflammatory drug similarly to various other serotonergic psychedelics.[19] However, 2C-I showed the highest anti-inflammatory potency of any other assessed drug in a large series in one study.[19] It was more potent than (R)-DOI in terms of anti-inflammatory activity.[19]

Chemistry

Analogues and derivatives

Template:2C-I analogues and derivatives

Society and culture

Legal status

File:2C-I Powder.jpg
2C-I in powder form.

Australia

2C-I is a schedule 9 prohibited substance in Australia under the Poisons Standard (October 2015).[22] A schedule 9 drug is outlined in the Poisons Act 1964 as "Substances which may be abused or misused, the manufacture, possession, sale or use of which should be prohibited by law except when required for medical or scientific research, or for analytical, teaching or training purposes with approval of the CEO".[23]

Canada

As of October 31, 2016, 2C-I is a controlled substance (Schedule III) in Canada.[24]

European Union

In December 2003, the European Council issued a binding order compelling all European Union member states to ban 2C-I within three months.[25]

Finland

Illegal: scheduled in the "government decree on substances, preparations and plants considered to be narcotic drugs".[26]

Sweden

Sveriges riksdag added 2C-I to schedule I ("substances, plant materials and fungi which normally do not have medical use") as a narcotic on March 16, 2004, published by the Medical Products Agency in their regulation LVFS 2004:3.[27]

United Kingdom

In the United Kingdom, 2C-I is controlled as a Class A substance.[25]

United States

As of July 9, 2012, in the United States 2C-I is a Schedule I substance under the Synthetic Drug Abuse Prevention Act of 2012, making possession, distribution and manufacture illegal.[25] A previous bill, introduced in March 2011, that would have done the same passed the House of Representatives, but was not passed by the Senate.[28]

See also

References

Template:Reflist

External links

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  1. Script error: No such module "Citation/CS1".
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  3. Weiss, Piper (September 20, 2012). 2C-I or 'Smiles': The New Killer Drug Every Parent Should Know About. Yahoo! News
  4. Script error: No such module "citation/CS1". WISH-TV
  5. Script error: No such module "Citation/CS1".
  6. Reuters (March 20, 2011). Synthetic drug, subject of proposed bans, kill teen.
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  22. Poisons Standard October 2015
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  24. Regulations Amending the Food and Drug Regulations (Part J — 2C-phenethylamines)
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