25D-NM-NDEAOP

25D-NM-NDEAOP
Clinical data
Other names	25D-NM-NDECE; 25D-NM-NDEPA; N-Methyl-N-(3-diethylamino-3-oxopropyl)-2,5-dimethoxy-4-methylphenethylamine; N-Methyl-N-(3-diethylamino-3-oxopropyl)-2C-D; N-Methyl-N-(2-diethylcarbamoylethyl)-2,5-dimethoxy-4-methylphenethylamine; N-Methyl-N-(2-diethylcarbamoylethyl)-2C-D; NM-NDEAOP-2C-D; NM-NDECE-2C-D; "Compound 4"
Identifiers
	IUPAC name 3-[2-(2,5-dimethoxy-4-methylphenyl)ethyl-methylamino]-N,N-diethylpropanamide;
PubChem CID	90678176;
ChemSpider	34249793;
ChEMBL	ChEMBL3273532;
Chemical and physical data
Formula	C19H32N2O3
Molar mass	336.476 g·mol−1
3D model (JSmol)	Interactive image;
	SMILES CCN(CC)C(=O)CCN(C)CCC1=C(C=C(C(=C1)OC)C)OC;
	InChI InChI=1S/C19H32N2O3/c1-7-21(8-2)19(22)10-12-20(4)11-9-16-14-17(23-5)15(3)13-18(16)24-6/h13-14H,7-12H2,1-6H3; Key:GEVSOPBAZVTJIF-UHFFFAOYSA-N;

25D-NM-NDEAOP, or 25D-NM-NDEPA, is a chemical compound of the phenethylamine and 2C families.^[1]^[2]^[3] It is a simplified or partial lysergamide and is a derivative of 2C-D with a lysergic acid diethylamide (LSD)-like N-(3-diethylamino-3-oxopropyl)- substitution.^[1]^[2]^[3]

The compound was assessed and found to inhibit prolactin secretion in rat pituitary glands in vitro at high concentrations, suggesting that it may possess weak dopamine receptor agonist activity.^[2]^[1] However, it was subsequently assessed in rats in vivo and, in contrast to LSD, was found to not significantly inhibit prolactin secretion.^[1] Other possible activities of 25D-NM-NDEAOP, such as serotonin receptor interactions and associated effects, were not evaluated or reported.^[1]^[2]^[3]

25D-NDEAOP was first described in the scientific literature in 1974.^[2]^[1]

The compound is a "PEA-NDEPA" and is similar in structure to other PEA-NDEPA compounds such as DOM-NDEPA and TMA-2-NDEPA, as well as DOB-NDEPA, DOI-NDEPA, and DOTFM-NDEPA.^[4] The latter three compounds have been predicted via QSAR modeling to be potent serotonin 5-HT_2A receptor agonists.^[4] A parent compound of 25D-NM-NEAOP is N-(3-diethylamino-3-oxopropyl)-N-methylphenethylamine (N-DEAOP-NMPEA or PEA-NM-NDEPA), which showed weak oxytocic activity in preclinical research.^[5]

References

^ ^a ^b ^c ^d ^e ^f Rusterholz DB, Barfknecht CF, Clemens JA (January 1976). "Ergoline congeners as potential inhibitors of prolactin release. 2". Journal of Medicinal Chemistry. 19 (1): 99–102. doi:10.1021/jm00223a016. PMID 1246056.
^ ^a ^b ^c ^d ^e Barfknecht CF, Rusterholz DB (March 1974). "Inhibition of prolactin by ergoline congeners". Journal of Medicinal Chemistry. 17 (3): 308–312. doi:10.1021/jm00249a010. PMID 4811226.
^ ^a ^b ^c "3-[2-(2,5-dimethoxy-4-methylphenyl)ethyl-methylamino]-N,N-diethylpropanamide". PubChem. U.S. National Library of Medicine. Retrieved 30 March 2025.
^ ^a ^b Schulze-Alexandru M, Kovar KA, Vedani A (1999). "Quasi-atomistic Receptor Surrogates for the 5-HT2A Receptor: A 3D-QSAR Study on Hallucinogenic Substances" (PDF). Quantitative Structure-Activity Relationships. 18 (6): 548–560. doi:10.1002/(SICI)1521-3838(199912)18:6<548::AID-QSAR548>3.0.CO;2-B. ISSN 0931-8771. Retrieved 1 April 2025. Table 3. New phenylalkylamine and tryptamine congeners. Cf. also Figure 5. [...] Figure 5. Molecular structures of the new 5-HT2A congeneric ligands. Cf. also Table 3. [...] Table 4. Predicted binding af®nities of new compounds, index by substance classes. [...]
^ Norris PE, Blicke FF (December 1952). "Potential ergot substitutes: esters and amides of beta-amino acids". Journal of the American Pharmaceutical Association. American Pharmaceutical Association. 41 (12): 637–639. doi:10.1002/jps.3030411204. PMID 13022416. Six esters and amides of derivatives of β-alanine which are related to lysergic acid have been prepared and tested for oxytocic activity. None of these products possess a significant oxytocic activity. [...] The purpose of this investigation was to synthesize amides and also esters of compounds (II–V) which represent fragments of the lysergic acid molecule in the hope that some of these products might possess oxytocic activity. Various modified fragments of the lysergic acid molecule have been synthesized previously; it was claimed that some of the compounds are active oxytocics (1—7). [...] Pharmacologic data indicated that none of the esters or amides of compounds II—V which were prepared possess a significant oxytocic action when compared to the clinically used oxytocics. However, the diethylamide of N-methyl-N-[β′-(3-indolyl)-ethyl]-β-alanine (IIIc) appeared to have an oxytocic activity approximately ten times stronger than that of the diethylamide of N-methyl-N-(β′-phenethyl)-β-alanine (IIc).

External links

Obscure and Unknown: PEA-NDEPA's (TMA-2-NDEPA, DMPEA-NDEPA, M-NDEPA, DOM-NDEPA) - Nervewing - Blogspot

This psychoactive drug-related article is a stub. You can help Wikipedia by expanding it.

[RusterholzBarfknechtClemens1976-1] ^ ^a ^b ^c ^d ^e ^f Rusterholz DB, Barfknecht CF, Clemens JA (January 1976). "Ergoline congeners as potential inhibitors of prolactin release. 2". Journal of Medicinal Chemistry. 19 (1): 99–102. doi:10.1021/jm00223a016. PMID 1246056.

[BarfknechtRusterholz1974-2] Barfknecht CF, Rusterholz DB (March 1974). "Inhibition of prolactin by ergoline congeners". Journal of Medicinal Chemistry. 17 (3): 308–312. doi:10.1021/jm00249a010. PMID 4811226.

[PubChem-3] "3-[2-(2,5-dimethoxy-4-methylphenyl)ethyl-methylamino]-N,N-diethylpropanamide". PubChem. U.S. National Library of Medicine. Retrieved 30 March 2025.

[Schulze-AlexandruKovarVedani1999-4] Schulze-Alexandru M, Kovar KA, Vedani A (1999). "Quasi-atomistic Receptor Surrogates for the 5-HT2A Receptor: A 3D-QSAR Study on Hallucinogenic Substances" (PDF). Quantitative Structure-Activity Relationships. 18 (6): 548–560. doi:10.1002/(SICI)1521-3838(199912)18:6<548::AID-QSAR548>3.0.CO;2-B. ISSN 0931-8771. Retrieved 1 April 2025. Table 3. New phenylalkylamine and tryptamine congeners. Cf. also Figure 5. [...] Figure 5. Molecular structures of the new 5-HT2A congeneric ligands. Cf. also Table 3. [...] Table 4. Predicted binding af®nities of new compounds, index by substance classes. [...]

[NorrisBlicke1952-5] Norris PE, Blicke FF (December 1952). "Potential ergot substitutes: esters and amides of beta-amino acids". Journal of the American Pharmaceutical Association. American Pharmaceutical Association. 41 (12): 637–639. doi:10.1002/jps.3030411204. PMID 13022416. Six esters and amides of derivatives of β-alanine which are related to lysergic acid have been prepared and tested for oxytocic activity. None of these products possess a significant oxytocic activity. [...] The purpose of this investigation was to synthesize amides and also esters of compounds (II–V) which represent fragments of the lysergic acid molecule in the hope that some of these products might possess oxytocic activity. Various modified fragments of the lysergic acid molecule have been synthesized previously; it was claimed that some of the compounds are active oxytocics (1—7). [...] Pharmacologic data indicated that none of the esters or amides of compounds II—V which were prepared possess a significant oxytocic action when compared to the clinically used oxytocics. However, the diethylamide of N-methyl-N-[β′-(3-indolyl)-ethyl]-β-alanine (IIIc) appeared to have an oxytocic activity approximately ten times stronger than that of the diethylamide of N-methyl-N-(β′-phenethyl)-β-alanine (IIc).

[1]

[2]

[3]

[4]

[5]

v t e Ergolines
Ergolines (incl. lysergines)	13-Fluorolysergol Acetergamine Brazergoline Bromerguride (2-bromolisuride) Cianergoline Delergotrile Descarboxylysergic acid Dihydrolysergic acid Disulergine Dosergoside Ergolene Ergoline Etisulergine Lergotrile Lisuride Lysergic acid Lysergic acid methyl ester Lysergine Lysergol Mesulergine Metergoline Nicergoline Pergolide Pibocin B Proterguride Romergoline Sergolexole Terguride Tiomergine
Clavines (6,8-dimethylergolines)	6,8-Dimethylergoline (clavine) 9-Deacetoxyfumigaclavine C Agroclavine Costaclavin Elymoclavine Epoxyagroclavine Festuclavine Fumigaclavine A Fumigaclavine B Fumigaclavine C Penniclavine Setoclavine Partial ergolines and related: Chanoclavine Chanoclavine II Cycloclavine Paliclavine
Lysergamides (lysergic acid amides)	Non-hallucinogenic lysergamides: 1P-BOL-148 2-Bromo-LSD (bromolysergide; BOL-148) 2-Iodo-LSD 12-Hydroxy-LSD 12-Methoxy-LSD Amesergide Cabergoline Ergometrinine isoLSD LY-215,840 Lysergic acid cyclobutylamide (LAcB) Lysergic acid cyclopentylamide (cepentil; LCyP) MBL-61 (2-bromo-1-methyl-LSD) Psychedelic lysergamides: 1B-LSD 1cP-AL-LAD 1cP-LSD 1D-LSD 1DD-LSD 1H-LSD 1P-AL-LAD 1P-ETH-LAD 1P-LSD 1P-MIPLA 1S-LSD 1T-AL-LAD 1T-LSD 1V-LSD AL-LAD ALA-10 (1-acetyl-LAE) ALD-52 (1-acetyl-LSD) BU-LAD CYP-LAD Diallyllysergamide (DAL) Dimethyllysergamide (DAM-57) Dipropyllysergamide (DPL) Ergine (lysergic acid amide; LSA; LA-111; lysergamide) Ergometrine (ergonovine, ergobasine) ETH-LAD Ethylcyclopropyllysergamide (ECPLA) Ethylisopropyllysergamide (EIPLA) Ethylpropyllysergamide (EPLA; LEP-57) Ethyltrifluoroethyllysergamide (ETFELA) IP-LAD Isoergine (isolysergic acid amide; iso-LSA; iso-LA; isolysergamide) Methylpropyllysergamide (LAMPA) Lysergic acid diethylamide (LSD; lysergide) Lysergic acid ethylamide (LAE-32, LAE) Lysergic acid hydroxyethylamide (LSH) Lysergic acid morpholide (LSM-775) Lysergic acid pyrrolidine (LPD-824) Lysergic acid 2-butylamide (LSB) Lysergic acid 2,4-dimethylazetidide (LA-SS-Az, LSZ) Lysergic acid 3-pentylamide (LSP) Methylergometrine (methylergonovine, methylergobasine; Methergine) Methylisopropyllysergamide (MIPLA) Methysergide (1-methylmethylergonovine; UML-491) MLA-74 (1-methyl-LAE) MLD-41 (1-methyl-LSD) MPD-75 (1-methyllysergic acid pyrrolidide) OML-632 (1-hydroxymethyl-LSD) PARGY-LAD PRO-LAD Unsorted lysergamides: 13-Fluoro-LSD 13-Hydroxy-LSD 14-Hydroxy-LSD CE-LAD Dihydroergometrine (dihydroergonovine, dihydroergobasine) FLUORETH-LAD Lysergic acid azepane (LSD-Azepane) Lysergic acid ethyl-2-hydroxyethylamide (LEO) Lysergic acid isopropylamide (LAiP) Lysergic acid piperidine (LSD-Pip) Lysergic acid tert-butylamide (LAtB) Propisergide (1-methylergonovine)
Ergopeptines (peptide ergolines)	Bromocriptine Dihydroergocornine Dihydroergocristine Dihydroergocryptine Dihydroergosine Dihydroergotamine Epicriptine Ergocornine Ergocristine Ergocryptine Ergoloid (dihydroergotoxine; Hydergine) Ergonine Ergosine Ergostine Ergotamine Ergotoxine Ergovaline Fludihydroergotamine Mergocriptine Metergotamine
Partial ergolines	2-Aminotetralins (e.g., 8-OH-DPAT) 3,4-DMPEA-NDEPA 5-MeO-N-DEAOP-NET 5-MeO-N-DEAOP-NMT 10,11-Secoergoline (α,N-Pip-T) 10,11-Seco-LSD 25B-NAcPip 25D-NM-NDEAOP (25D-NM-NDEPA) Bay R 1531 (LY-197206) CT-5252 DEIMDHPCA DEMMPDHPCA DEMNDHPCA DEMPDHPCA DEMTMPDHPCA DOB-NDEPA DOI-NDEPA DOM-NDEPA DOTFM-NDEPA LY-178210 LY-293284 M-NDEPA N-DEAOP-NMPEA (PEA-NM-NDEPA) N-DEAOP-NMT NDTDI Phenethylamines RU-27251 RU-27849 RU-28251 RU-28306 TMA-2-NDEPA Tryptamines WXVL_BT0793LQ2118
Related compounds	A-86929 Adrogolide CY-208,243 JRT Naxagolide Quinagolide SDZ SER-082 Voxergolide
Natural sources	Fungi: Clavicipitaceae Claviceps spp. (ergot) Epichloë spp. Periglandula spp. Plants (infected/symbiotic with the above fungi): Achnatherum robustum (sleepy grass) Convolvulaceae (morning glory) Argyreia nervosa (Hawaiian baby woodrose) Ipomoea corymbosa (coaxihuitl, ololiúqui) Ipomoea tricolor (tlitliltzin, badoh negro)
See also: Tryptamines Phenethylamines Psychedelics

25D-NM-NDEAOP

See also

References

External links