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2,3-Dichlorophenylpiperazine (2,3-DCPP or DCPP) is a chemical compound from the phenylpiperazine family. It is both a precursor in the synthesis of aripiprazole and one of its metabolites.^[1]^[2] It is unclear whether 2,3-DCPP is pharmacologically active as a serotonin receptor agonist similar to its close analogue 3-chlorophenylpiperazine (mCPP), though it has been shown to act as a partial agonist of the dopamine D₂ and D₃ receptors.^[3]

Legality

2,3-DCPP has been made illegal in Japan and Hungary after having been identified in seized designer drug samples.^[4]^[5]

List of derivatives

Aripiprazole
Cariprazine
BAK 2-66
Brilaroxazine (formally RP5063)
FAUC-365 [474432-66-1]
CJB-090 2xHCl [595584-40-0]
NGB 2849 [189061-11-8]
NGB 2904 Fb: [189061-11-8] HCl: [189060-98-8]
PG-01037 2xHCl: [675599-62-9]
PG648
Aripiptranyl (Abilifarnate)^[6]
^[7]
PGX-2000001 U.S. patent 20,070,142,399
So-called R-22^[3]
So-called JJC 7−065^[3]
R-PG-648

Positional Isomer

The positional isomer 3,4-dichlorophenylpiperazine (3,4-DCPP) is also known, and acts as both a serotonin releaser via the serotonin transporter,^[8] and a β₁-adrenergic receptor blocker,^[9] though with relatively low affinity at both targets.

Triple Substituted

The 3,4,5-Trichlorophenylpiperazine [67305-64-0] ("3 stripes") is also a highly regarded arrangement & has been awarded the Beecham patent of U.S. patent 4,139,621. Such 3,4,5-Trisubstituted aromatic entities is already known from clenbuterol. Leading to CID:151687078 WO 1993021179 (Ex 6 is a concrete example of this) i.e. 1-(4-Amino-3,5-dichlorophenyl)-4-(4-phthalimido-1- butyl)piperazine.

References

^ Leś A, Badowska-Rosłonek K, Łaszcz M, Kamieńska-Duda A, Baran P, Kaczmarek Ł (2010). "Optimization of aripiprazole synthesis". Acta Poloniae Pharmaceutica. 67 (2): 151–7. PMID 20369792.
^ Caccia S (August 2007). "N-dealkylation of arylpiperazine derivatives: disposition and metabolism of the 1-aryl-piperazines formed". Current Drug Metabolism. 8 (6): 612–22. doi:10.2174/138920007781368908. PMID 17691920.
^ ^a ^b ^c Newman AH, Beuming T, Banala AK, Donthamsetti P, Pongetti K, LaBounty A, et al. (August 2012). "Molecular determinants of selectivity and efficacy at the dopamine D3 receptor". Journal of Medicinal Chemistry. 55 (15): 6689–99. doi:10.1021/jm300482h. PMC 3415572. PMID 22632094.
^ "指定薬物名称・構造式一覧（平成27年9月16日現在）" (PDF) (in Japanese). 厚生労働省. 16 September 2015. Retrieved 6 January 2015.
^ A Magyarországon megjelent, a Kábítószer és Kábítószer-függőség Európai Megfigyelő Központjának Korai Jelzőrendszerébe (EMCDDA EWS) 2005 óta bejelentett ellenőrzött anyagok büntetőjogi vonatkozású besorolása
^ Zhang X, Hodgetts K, Rachwal S, Zhao H, Wasley JW, Craven K, et al. (October 2000). "trans-1-[(2-Phenylcyclopropyl)methyl]-4-arylpiperazines: mixed dopamine D(2)/D(4) receptor antagonists as potential antipsychotic agents". Journal of Medicinal Chemistry. 43 (21): 3923–32. doi:10.1021/jm990562x. PMID 11052797.
^ Michino M, Boateng CA, Donthamsetti P, Yano H, Bakare OM, Bonifazi A, et al. (January 2017). "Toward Understanding the Structural Basis of Partial Agonism at the Dopamine D₃ Receptor". Journal of Medicinal Chemistry. 60 (2): 580–593. doi:10.1021/acs.jmedchem.6b01148. PMC 5563258. PMID 27983845.
^ Walline CC, Nichols DE, Carroll FI, Barker EL (June 2008). "Comparative molecular field analysis using selectivity fields reveals residues in the third transmembrane helix of the serotonin transporter associated with substrate and antagonist recognition". The Journal of Pharmacology and Experimental Therapeutics. 325 (3): 791–800. doi:10.1124/jpet.108.136200. PMC 2637348. PMID 18354055.
^ Christopher JA, Brown J, Doré AS, Errey JC, Koglin M, Marshall FH, et al. (May 2013). "Biophysical fragment screening of the β1-adrenergic receptor: identification of high affinity arylpiperazine leads using structure-based drug design". Journal of Medicinal Chemistry. 56 (9): 3446–55. doi:10.1021/jm400140q. PMC 3654563. PMID 23517028.

External links

Media related to 2,3-Dichlorophenylpiperazines at Wikimedia Commons

[pmid20369792-1] Leś A, Badowska-Rosłonek K, Łaszcz M, Kamieńska-Duda A, Baran P, Kaczmarek Ł (2010). "Optimization of aripiprazole synthesis". Acta Poloniae Pharmaceutica. 67 (2): 151–7. PMID 20369792.

[pmid17691920-2] Caccia S (August 2007). "N-dealkylation of arylpiperazine derivatives: disposition and metabolism of the 1-aryl-piperazines formed". Current Drug Metabolism. 8 (6): 612–22. doi:10.2174/138920007781368908. PMID 17691920.

[pmid22632094-3] Newman AH, Beuming T, Banala AK, Donthamsetti P, Pongetti K, LaBounty A, et al. (August 2012). "Molecular determinants of selectivity and efficacy at the dopamine D3 receptor". Journal of Medicinal Chemistry. 55 (15): 6689–99. doi:10.1021/jm300482h. PMC 3415572. PMID 22632094.

[4] "指定薬物名称・構造式一覧（平成27年9月16日現在）" (PDF) (in Japanese). 厚生労働省. 16 September 2015. Retrieved 6 January 2015.

[5] A Magyarországon megjelent, a Kábítószer és Kábítószer-függőség Európai Megfigyelő Központjának Korai Jelzőrendszerébe (EMCDDA EWS) 2005 óta bejelentett ellenőrzött anyagok büntetőjogi vonatkozású besorolása

[ZhangHodgetts2000-6] Zhang X, Hodgetts K, Rachwal S, Zhao H, Wasley JW, Craven K, et al. (October 2000). "trans-1-[(2-Phenylcyclopropyl)methyl]-4-arylpiperazines: mixed dopamine D(2)/D(4) receptor antagonists as potential antipsychotic agents". Journal of Medicinal Chemistry. 43 (21): 3923–32. doi:10.1021/jm990562x. PMID 11052797.

[MichinoBoateng2017-7] Michino M, Boateng CA, Donthamsetti P, Yano H, Bakare OM, Bonifazi A, et al. (January 2017). "Toward Understanding the Structural Basis of Partial Agonism at the Dopamine D₃ Receptor". Journal of Medicinal Chemistry. 60 (2): 580–593. doi:10.1021/acs.jmedchem.6b01148. PMC 5563258. PMID 27983845.

[pmid18354055-8] Walline CC, Nichols DE, Carroll FI, Barker EL (June 2008). "Comparative molecular field analysis using selectivity fields reveals residues in the third transmembrane helix of the serotonin transporter associated with substrate and antagonist recognition". The Journal of Pharmacology and Experimental Therapeutics. 325 (3): 791–800. doi:10.1124/jpet.108.136200. PMC 2637348. PMID 18354055.

[pmid23517028-9] Christopher JA, Brown J, Doré AS, Errey JC, Koglin M, Marshall FH, et al. (May 2013). "Biophysical fragment screening of the β1-adrenergic receptor: identification of high affinity arylpiperazine leads using structure-based drug design". Journal of Medicinal Chemistry. 56 (9): 3446–55. doi:10.1021/jm400140q. PMC 3654563. PMID 23517028.

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Piperazines
Simple piperazines (no additional rings)	Aminoethylpiperazine Diethylcarbamazine HEPPS Midafotel Piperazine PIPES
Phenylpiperazines	2C-B-PP 3,4-CFP Acaprazine Antrafenine Aripiprazole Batoprazine Bifeprunox BRL-15,572 Ciprofloxacin CSP-2503 Dapiprazole DCPP DMPP Diphenylpiperazine Dropropizine EGIS-12,233 Elopiprazole Eltoprazine Enpiprazole Ensaculin Etoperidone Flesinoxan Fluanisone Flibanserin Fluprazine Itraconazole Ketoconazole Levodropropizine Lorpiprazole mCPP Mefway MeOPP Mepiprazole Naftopidil Naluzotan Naphthylpiperazine Nefazodone Niaprazine Oxypertine Pardoprunox pCPP pFPP Posaconazole S-14,506 S-14,671 S-15,535 SB-258,585 SB-271,046 SB-357,134 SB-399,885 Sonepiprazole TFMPP Tolpiprazole Trazodone Urapidil Vesnarinone Vilazodone Vortioxetine WAY-100,135 WAY-100,635
Benzylpiperazines	2C-B-BZP 3-Methylbenzylpiperazine Befuraline Bifeprunox Buclizine BZP Chlorbenzoxamine DBZP Fipexide Imatinib MBZP MDBZP Meclozine Methoxypiperamide NSI-189 Piberaline Piribedil RN-1747 Sunifiram Trimetazidine Vesnarinone
Diphenylalkylpiperazines (benzhydrylalkylpiperazines)	AD-1211 Almitrine Amperozide BRL-15,572 Buclizine BW373U86 Cetirizine Chlorbenzoxamine Chlorcyclizine Cinnarizine Clocinizine Cyclizine DBL-583 Diphenpipenol Diphenylmethylpiperazine Dotarizine DPI-221 DPI-287 DPI-3290 GBR-12,783 GBR-12,935 GBR-13,069 GBR-13,098 GBR-13,119 Hydroxyzine Lidoflazine Manidipine Meclozine MT-45 Oxatomide SNC-80 Vanoxerine
Pyrimidinylpiperazines	Buspirone Dasatinib Eptapirone Gepirone Ipsapirone Piribedil Prazitone Pyrimidinylpiperazine Revospirone Tandospirone Tirilazad Trimazosin Umespirone Zalospirone
Pyridinylpiperazines	Atevirdine Azaperone Delavirdine Mirtazapine ORG-12962 Pyridinylpiperazine
Benzo(iso)thiazolyl piperazines	Lurasidone Perospirone Revospirone Tiospirone Ziprasidone
Tricyclics (piperazine attached via side chain)	Amoxapine Clopenthixol Clorotepine Clozapine Cyanothepin Doclothepin Docloxythepin Flupentixol Fluphenazine Isofloxythepin Loxapine Meperathiepin Metitepine Octomethothepin Olanzapine Opipramol Oxyclothepin Oxyprothepin Peradithiepin Perathiepin Perazine Perphenazine Pirenzepine Prochlorperazine Thiethylperazine Thiothixene Trifluoperazine Trifluthepin Zuclopenthixol
Others/Uncategorized	6-Nitroquipazine AP-238 Azimilide Bucinnazine Cinepazet Cinepazic acid Cinepazide CPD-1 Cyclohexylpiperazine EGIS-7625 Hexocyclium Indinavir JNJ-7777120 Lodenafil MK-212 Mirodenafil PB-28 Quipazine Ranolazine SA-4503 Sildenafil Tadalafil Vardenafil VUF-6002 WY-46824 Zipeprol