Substituted piperazine
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(Redirected from Substituted phenylpiperazine)
Class of chemical compounds
Substituted piperazines are a class of chemical compounds based on a piperazine core.[1] Some are used as recreational drugs and some are used in scientific research.[2]
List of substituted piperazines
[edit ]Benzylpiperazines
[edit ]See also: Benzylpiperazine § Chemical derivatives
Chemical structures of selected benzylpiperazines
-
1-Benzylpiperazine (BZP)
-
1-Methyl-4-benzylpiperazine (MBZP)
-
1,4-Dibenzylpiperazine (DBZP)
-
4-Bromo-2,5-dimethoxy-1-benzylpiperazine (2C-B-BZP)
-
Methoxypiperamide (MeOP, MEXP) ((4-methoxyphenyl)(4-methylpiperazin-1-yl)methanone)
-
Sunifiram (1-benzoyl-4-propanoylpiperazine)
-
3-Methylbenzylpiperazine (3-MeBZP)
-
Befuraline
(also produces benzylpiperazine as a metabolite) -
Fipexide
(also produces substituted benzylpiperazine as a metabolite) -
Piberaline
(also produces benzylpiperazine as a metabolite)
Phenylpiperazines
[edit ]See also: Phenylpiperazine
ortho-Substituted
[edit ]- 2-Chlorophenylpiperazine (oCPP)
- 2-Methylphenylpiperazine (oMPP)
- 2-Methoxyphenylpiperazine (oMeOPP)
- Mefeclorazine
- Vortioxetine
Enpiprazole is known to produce oCPP as a metabolite. It was initially anticipated to produce oMeOPP as a metabolite, but this proved not to be the case.
meta-Substituted
[edit ]- 3-Chlorophenylpiperazine (mCPP)
- 3-Methoxyphenylpiperazine (mMeOPP)
- 3-Trifluoromethylphenylpiperazine (TFMPP)
- 1-(3-Chlorophenyl)-4-(2-phenylethyl)piperazine (3C-PEP)
Trazodone, nefazodone, etoperidone, mepiprazole, and others produce mCPP as a metabolite.[3]
para-Substituted
[edit ]- 4-Chlorophenylpiperazine (pCPP)
- 4-Fluorophenylpiperazine (pFPP)
- 4-Methylphenylpiperazine (pMPP)
- 4-Methoxyphenylpiperazine (pMeOPP, MeOPP)
- 4-Nitrophenylpiperazine (pNPP; PAL-175) – selective partial serotonin releasing agent[4]
- 4-Trifluoromethylphenylpiperazine (pTFMPP)
Multiple substitutions
[edit ]- 2,3-Dichlorophenylpiperazine (2,3-DCPP)
- 3,4-Dichlorophenylpiperazine (3,4-DCPP)
- 2,3-Dimethylphenylpiperazine (DMPP)
- 3-Trifluoromethyl-4-chlorophenylpiperazine (TFMCPP; PAL-179) – selective partial serotonin releasing agent[4]
Others
[edit ]- 1-Phenylpiperazine (PP)
Other arylpiperazines
[edit ]- 1-(1-Naphthyl)piperazine (1-NP)
- 1-(2-Pyrimidinyl)piperazine (1-PP)
- ORG-12962 (1-(5-trifluoromethyl-6-chloropyridin-2-yl)piperazine)
- Quipazine (2-piperazin-1-ylquinoline)
Many azapirones such as buspirone, gepirone, and tandospirone produce 1-PP as a metabolite.
By drug class
[edit ]- Amoxapine
- Befuraline
- Buspirone
- Flesinoxan
- Gepirone
- Ipsapirone
- Nefazodone
- Piberaline
- Tandospirone
- Trazodone
- Vilazodone
- Vortioxetine
- Zalospirone
- 4-Bromo-2,5-dimethoxy-1-benzylpiperazine (2C-B-BZP)
- 1-Benzylpiperazine (BZP)
- 2,3-Dichlorophenylpiperazine (DCPP)
- 1,4-Dibenzylpiperazine (DBZP)
- 4-Methyl-1-benzylpiperazine (MBZP)
- 3-Chlorophenylpiperazine (mCPP)
- 3,4-Methylenedioxy-1-benzylpiperazine (MDBZP)
- 4-Methoxyphenylpiperazine (MeOPP)
- Methoxypiperamide (MeOP or MEXP)
- 4-Chlorophenylpiperazine (pCPP)
- 4-Fluorophenylpiperazine (pFPP)
- 3-Trifluoromethylphenylpiperazine (TFMPP)
Others
- 6-Nitroquipazine
- Antrafenine
- Diethylcarbamazine
- Diphenazine
- Fipexide
- Imatinib
- NSI-189
- Pipobroman (antineoplastic agent)
- Quipazine
- Sunifiram (nootropic)
- Tolpiprazole (tranquilizer)
Activities
[edit ]| Compound | PAL # | Serotonin | Norepinephrine | Dopamine | Type | Ref | ||
|---|---|---|---|---|---|---|---|---|
| 1-Benzylpiperazine (BZP) | ND | 6050–>100000 | 62.2–68 | 175–600 | NDRA | [5] [6] [7] [8] [9] [10] | ||
| 1-Phenylpiperazine (PP) | ND | 880 | 186 | 2530 | SNRA | [11] | ||
| 2-Me-PP (oMPP) | PAL-169 | 175 | 39.1 | 296–542 | SNDRA | [11] [12] [10] | ||
| 2-OMe-PP (oMeOPP) | ND | ND | ND | ND | ND | ND | ||
| 2-TFM-PP (oTFMPP) | ND | 570 | 350 | 11200 | SNRA | [11] | ||
| 2-SMe-PP (oMTPP) | ND | 270 | >10000 | >10000 | SRA | [11] | ||
| 2-Et-PP (oEtPP) | ND | 290 | 830 | >10000 | SNRA | [11] | ||
| 2-Chloro-PP (oCPP) | ND | 310 | 26 | >3000 | NRA | [11] | ||
| 2-Bromo-PP (oBPP) | ND | 132 | 33 | 250 | SNDRA | [11] | ||
| 2-Nitro-PP (oNPP) | ND | 1870 | 770 | >10000 | SNRA | [11] | ||
| 3-Chloro-PP (mCPP) | ND | 28–39 | 1400–>10000 | >10000–63000 | SRA | [6] [13] [14] [15] | ||
| 3-Fluoro-PP (mFPP) | ND | 115 | 340 | 2400 | SNRA | [11] | ||
| 3-Me-PP (mMPP) | ND | 110 | >20000 | >20000 | SRA | [11] | ||
| 3-OMe-PP (mMeOPP) | ND | 650 | >10000 | >10000 | SRA | [11] | ||
| 3-OH-PP (mOHPP) | ND | 230 | 174 | 2500 | SNRA | [11] | ||
| 3-TFM-PP (TFMPP) | ND | 121 | >10000 | >10000 | SRA | [8] [7] [9] | ||
| 4-Chloro-PP (pCPP) | ND | ND | ND | ND | ND | ND | ||
| 4-Fluoro-PP (pFPP) | ND | 230 | 3200 | >10000 | SRA | [11] | ||
| 4-Me-PP (pMPP) | PAL-233 | 220 | >10000 | >20000 | SRA | [11] [10] | ||
| 4-OMe-PP (pMeOPP) | ND | 3200 | 440–1500 | 6300–11000 | SNDRA | [11] [6] | ||
| 4-TFM-PP (pTFMPP) | ND | ND | ND | ND | ND | ND | ||
| 4-Ac-PP (pAcPP) | ND | 50 | 150 | 3000 | SNRA | [11] | ||
| 4-CN-PP (pCNPP) | ND | 36 | 6300 | >10000 | SRA | [11] | ||
| 4-Phenyl-PP (pPhPP) | ND | >10000 | 1520 | 5200 | NDRA | [11] | ||
| 4-OH-PP (pOHPP) | ND | >10000 | 230 | 850 | NDRA | [11] | ||
| 4-Nitro-PP (pNPP) | PAL-175 | 19–43 | >10000 | >10000 | SRA | [11] [4] | ||
| 2,3-Dichloro-PP (2,3-DCPP) | ND | 10 | 36 | 108 | SNDRA | [11] | ||
| 2,3-DiMe-PP (2,3-DMPP) | PAL-218 | 24–26 | 13.7–56 | 1207–1320 | SNRA | [11] [4] [10] | ||
| 2,4-Difluoro-PP (2,4-DFPP) | ND | 470 | 2300 | >10000 | SNRA | [11] | ||
| 3,4-Dichloro-PP (3,4-DCPP) | ND | ND | ND | ND | ND | ND | ||
| 3,4-Difluoro-PP (3,4-DFPP) | ND | 76 | 9200 | >10000 | SRA | [11] | ||
| 3-TFM-4-Cl-PP (TFMCPP) | PAL-179 | 33 | >10000 | >10000 | SRA | [4] | ||
| Notes: Assays were done using rat brain synaptosomes. | ||||||||
See also
[edit ]- Substituted α-alkyltryptamine
- Substituted amphetamine
- Substituted cathinone
- Substituted methylenedioxyphenethylamine
- Substituted phenethylamine
- Substituted phenylmorpholine
- Substituted tryptamine
References
[edit ]- ^ Laras, Y.; Garino, C.; Dessolin, J.; Weck, C.; Moret, V.; Rolland, A.; Kraus, J.-L. (2009年02月01日). "New N4-substituted piperazine naphthamide derivatives as BACE-1 inhibitors" . Journal of Enzyme Inhibition and Medicinal Chemistry. 24 (1): 181–187. doi:10.1080/14756360802048939. ISSN 1475-6366. PMID 18770069. S2CID 85385527.
- ^ Alghamdi, Saad; Alshehri, Mohammed M.; Asif, Mohammad (2022). "The Neuropharmacological Potential of Piperazine Derivatives: A Mini- Review" . Mini-Reviews in Organic Chemistry. 19 (7): 798–810. doi:10.2174/1570193x19666220119120211.
- ^ Costa Alegre MD, Barbosa DJ, Dinis-Oliveira RJ (February 2025). "Metabolism of m-CPP, trazodone, nefazodone, and etoperidone: clinical and forensic aspects". Drug Metab Rev. 57 (2): 115–146. doi:10.1080/03602532.2025.2465482. PMID 39945551.
- ^ a b c d e Rothman RB, Partilla JS, Baumann MH, Lightfoot-Siordia C, Blough BE (April 2012). "Studies of the biogenic amine transporters. 14. Identification of low-efficacy "partial" substrates for the biogenic amine transporters". J Pharmacol Exp Ther. 341 (1): 251–262. doi:10.1124/jpet.111.188946. PMC 3364510 . PMID 22271821.
- ^ Rothman RB, Baumann MH (2006). "Therapeutic potential of monoamine transporter substrates". Curr Top Med Chem. 6 (17): 1845–1859. doi:10.2174/156802606778249766. PMID 17017961.
- ^ a b c Nagai F, Nonaka R, Satoh Hisashi Kamimura K (March 2007). "The effects of non-medically used psychoactive drugs on monoamine neurotransmission in rat brain" . Eur J Pharmacol. 559 (2–3): 132–137. doi:10.1016/j.ejphar.2006年11月07日5. PMID 17223101.
- ^ a b Baumann MH, Clark RD, Budzynski AG, Partilla JS, Blough BE, Rothman RB (October 2004). "Effects of "Legal X" piperazine analogs on dopamine and serotonin release in rat brain". Ann N Y Acad Sci. 1025: 189–197. Bibcode:2004NYASA1025..189B. doi:10.1196/annals.1316.024. PMID 15542717.
- ^ a b Baumann MH, Clark RD, Budzynski AG, Partilla JS, Blough BE, Rothman RB (March 2005). "N-substituted piperazines abused by humans mimic the molecular mechanism of 3,4-methylenedioxymethamphetamine (MDMA, or 'Ecstasy')". Neuropsychopharmacology. 30 (3): 550–560. doi:10.1038/sj.npp.1300585. PMID 15496938.
- ^ a b Blough B (July 2008). "Dopamine-releasing agents" (PDF). In Trudell ML, Izenwasser S (eds.). Dopamine Transporters: Chemistry, Biology and Pharmacology. Hoboken [NJ]: Wiley. pp. 305–320. ISBN 978-0-470-11790-3. OCLC 181862653. OL 18589888W.
- ^ a b c d Reith ME, Blough BE, Hong WC, Jones KT, Schmitt KC, Baumann MH, Partilla JS, Rothman RB, Katz JL (February 2015). "Behavioral, biological, and chemical perspectives on atypical agents targeting the dopamine transporter". Drug Alcohol Depend. 147: 1–19. doi:10.1016/j.drugalcdep.201412005. PMC 4297708 . PMID 25548026.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x Severinsen K, Kraft JF, Koldsø H, Vinberg KA, Rothman RB, Partilla JS, Wiborg O, Blough B, Schiøtt B, Sinning S (September 2012). "Binding of the amphetamine-like 1-phenyl-piperazine to monoamine transporters". ACS Chem Neurosci. 3 (9): 693–705. doi:10.1021/cn300040f. PMC 3447394 . PMID 23019496.
- ^ Kohut SJ, Jacobs DS, Rothman RB, Partilla JS, Bergman J, Blough BE (December 2017). "Cocaine-like discriminative stimulus effects of "norepinephrine-preferring" monoamine releasers: time course and interaction studies in rhesus monkeys". Psychopharmacology (Berl). 234 (23–24): 3455–3465. doi:10.1007/s00213-017-4731-5. PMC 5747253 . PMID 28889212.
- ^ Rothman RB, Baumann MH (July 2002). "Therapeutic and adverse actions of serotonin transporter substrates". Pharmacol Ther. 95 (1): 73–88. doi:10.1016/s0163-7258(02)00234-6. PMID 12163129.
- ^ Rothman RB, Baumann MH (April 2002). "Serotonin releasing agents. Neurochemical, therapeutic and adverse effects". Pharmacol Biochem Behav. 71 (4): 825–836. doi:10.1016/s0091-3057(01)00669-4. PMID 11888573.
- ^ Rothman RB, Baumann MH, Blough BE, Jacobson AE, Rice KC, Partilla JS (November 2010). "Evidence for noncompetitive modulation of substrate-induced serotonin release". Synapse. 64 (11): 862–869. doi:10.1002/syn.20804. PMC 2941209 . PMID 20842720.
External links
[edit ]- "BZP/piperazines". European Union Drugs Agency (EUDA).