α5IA

α₅IA

Systematic (IUPAC) name
3-(5-methylisoxazol-3-yl)-6-[(1-methyl-1H-1,2,3-triazol-4-yl)methoxy][1,2,4]triazolo[3,4-a]phthalazine
Clinical data
Pregnancy cat.	?
Legal status	?
Identifiers
CAS number	215874-86-5
ATC code	None
PubChem	CID 6918451
Chemical data
Formula	C₁₇H₁₄N₈O₂
Mol. mass	362.345 g/mol
SMILES	eMolecules & PubChem

α₅IA (LS-193,268) is a nootropic drug invented in 2004 by a team working for Merck, Sharp and Dohme, which acts as a subtype-selective inverse agonist at the benzodiazepine binding site on the GABA_A receptor. It binds to the α₁, α₂, α₃ and α₅ subtypes, but shows much higher efficacy at the α₅ subtype, and acts either as a weak partial agonist or inverse agonist at the other subtypes, with its partial agonist effect at α₂ likely to be responsible for the lack of anxiety produced by this drug when compared to older α₅-preferring inverse agonists such as L-655,708.^[1]^[2]

The α₅ subtype is expressed predominantly in the hippocampus, an area of the brain involved with learning and memory, and activation of this subtype is thought to be largely responsible for producing the cognitive side effects displayed by many benzodiazepine and nonbenzodiazepine drugs, such as amnesia and difficulties with learning and memory. This led researchers to conclude that a drug acting as an inverse agonist at this subtype should have the opposite effect and enhance learning and memory.^[3]^[4]

Older non-selective inverse agonists at the benzodiazepine site such as DMCM are associated with a range of other effects including anxiety and convulsions, but because α₅IA acts specifically at the α₅ subtype it produces nootropic effects in animal studies, yet without any significant anxiogenic or pro-convulsant effects. This gives α₅IA the potential to be a useful drug either to be used alongside benzodiazepines to counteract their cognitive side effects, or by itself as a nootropic with possible applications in the treatment of Alzheimer's disease and other forms of dementia.^[5]^[6]

References

^ Sternfeld, F; Carling, RW; Jelley, RA; Ladduwahetty, T; Merchant, KJ; Moore, KW; Reeve, AJ; Street, LJ et al. (2004). "Selective, orally active gamma-aminobutyric acidA alpha5 receptor inverse agonists as cognition enhancers". Journal of medicinal chemistry 47 (9): 2176–9. doi:10.1021/jm031076j. PMID 15084116.
^ Street, LJ; Sternfeld, F; Jelley, RA; Reeve, AJ; Carling, RW; Moore, KW; McKernan, RM; Sohal, B et al. (2004). "Synthesis and biological evaluation of 3-heterocyclyl-7,8,9,10-tetrahydro-(7,10-ethano)-1,2,4-triazolo3,4-aphthalazines and analogues as subtype-selective inverse agonists for the GABA(A)alpha5 benzodiazepine binding site". Journal of medicinal chemistry 47 (14): 3642–57. doi:10.1021/jm0407613. PMID 15214791.
^ Chambers, MS; Atack, JR; Broughton, HB; Collinson, N; Cook, S; Dawson, GR; Hobbs, SC; Marshall, G et al. (2003). "Identification of a novel, selective GABA(A) alpha5 receptor inverse agonist which enhances cognition". Journal of medicinal chemistry 46 (11): 2227–40. doi:10.1021/jm020582q. PMID 12747794.
^ Chambers, MS; Atack, JR; Carling, RW; Collinson, N; Cook, SM; Dawson, GR; Ferris, P; Hobbs, SC et al. (2004). "An orally bioavailable, functionally selective inverse agonist at the benzodiazepine site of GABAA alpha5 receptors with cognition enhancing properties". Journal of medicinal chemistry 47 (24): 5829–32. doi:10.1021/jm040863t. PMID 15537339.
^ Dawson, GR; Maubach, KA; Collinson, N; Cobain, M; Everitt, BJ; MacLeod, AM; Choudhury, HI; McDonald, LM et al. (2006). "An inverse agonist selective for alpha5 subunit-containing GABAA receptors enhances cognition". The Journal of pharmacology and experimental therapeutics 316 (3): 1335–45. doi:10.1124/jpet.105.092320. PMID 16326923.
^ Collinson, N; Atack, JR; Laughton, P; Dawson, GR; Stephens, DN (2006). "An inverse agonist selective for alpha5 subunit-containing GABAA receptors improves encoding and recall but not consolidation in the Morris water maze". Psychopharmacology 188 (4): 619–28. doi:10.1007/s00213-006-0361-z. PMID 16633803.

Nootropics (N06B)

Acetylcholinesterases	Donepezil • Galantamine • Huperzine A (Huperzia Serrata) • Ladostigil • Rivastigmine • Tacrine

Ampakines	CX-516 • CX-546 • CX-614 • CX-691 • CX-717 • IDRA-21 • LY-404,187 • LY-503,430 • PEPA • Sunifiram • Unifiram

D₁ Agonists	6-Br-APB • A-77636 • Dihydrexidine • Dinapsoline • Doxanthrine • SKF-81297

Eugeroics	Adrafinil • Armodafinil • Modafinil

GABA_A α₅ Inverse Agonists	α5IA • L-655,708 • PWZ-029 • Suritozole • TB-21007 • ZK-93426

H₃ Antagonists	A-349,821 • ABT-239 • Ciproxifan • GSK-189,254

mACh Agonists	Alvameline • Arecoline • Cevimeline • CI-1017 • Milameline • Sabcomeline • Talsaclidine • Tazomeline • Xanomeline

nACh Agonists	AR-R17779 • Ispronicline • Nicotine • PNU-282,987 • SSR-180,711 • WAY-317,538

Racetams	Aniracetam • Brivaracetam • Coluracetam • Etiracetam • Fasoracetam • Levetiracetam • Nebracetam • Nefiracetam • Oxiracetam • Phenylpiracetam • Piracetam • Pramiracetam • Rolziracetam • Seletracetam

Others	Acetylcarnitine • Adafenoxate • Bifemelane • Bilobalide (Ginkgo Biloba) • Carbenoxolone • Cerlapirdine • Choline (Lecithin) • Citicoline • Cyprodenate • Dimethylethanolamine • Ensaculin • Fipexide • Idebenone • Indeloxazine • Latrepirdine • Leteprinim • Linopirdine • Meclofenoxate • Nizofenone • Pirisudanol • Pyritinol • S-17092 • Sulbutiamine • Taltirelin • Teniloxazine • Tricyanoaminopropene • Vinpocetine

GABAergics

Receptor
ligands

GABA_A	Agonists: Main site: Bamaluzole • Gaboxadol • Ibotenic acid • Isoguvacine • Isonipecotic acid • Muscimol (Amanita Muscaria) • Progabide • SL 75102 • Thiomuscimol • Tolgabide; Positive allosteric modulators: Barbiturates • Benzodiazepines • Carbamates • Chlormezanone • Clomethiazole • Ethanol (Alcohol) • Etomidate • Kavalactones (Kava) • Loreclezole • Metomidate • Neuroactive steroids • Nonbenzodiazepines (β-Carbolines, Cyclopyrrolones, Imidazopyridines, Pyrazolopyrimidines, etc.) • Phenols • Piperidinediones • Propanidid • Pyrazolopyridines • Quinazolinones • ROD-188 • Skullcap • Stiripentol • Valerenic acid (Valerian) * See Template:GABAAergics for a full list of GABA_A positive allosteric modulators. Antagonists: Main site: Bicuculline • Gabazine • Pitrazepin • Quisqualamine; Negative allosteric modulators: α5IA • Bilobalide • Cicutoxin • Cyclothiazide • DMCM • Flumazenil • Flurothyl • Furosemide • L-655,708 • Oenanthotoxin • Penicillin • Pentylenetetrazol • Picrotoxin • PWZ-029 • Ro15-4513 • Sarmazenil • Suritozole • Thujone (Absinthe) • Thiocolchicoside • ZK-93426

GABA_B	Agonists: Main site: 1,4-Butanediol • Baclofen • GBL • GHB • GHV • GVL • Lesogaberan • Phenibut • Progabide • SKF-97,541 • Tolgabide; Positive allosteric modulators: BHF-177 • BHFF • BSPP • CGP-7930 • GS-39783 Antagonists: Main site: CGP-35348 • Phaclofen • Saclofen • SCH-50911

GABA_C	Agonists: Main site: CACA • CAMP • GABOB • N(4)-chloroacetylcytosine arabinoside • Progabide • Tolgabide Antagonists: Main site: Bilobalide • TPMPA

Reuptake
inhibitors

Plasmalemmal

GAT inhibitors	CI-966 • Deramciclane • EF-1502 • Gabaculine • Guvacine • Nipecotic acid • NNC 05-2090 • SKF-89976A • SNAP-5114 • Tiagabine

Enzyme
inhibitors

Anabolism

GAD inhibitors	Allylglycine

Catabolism

GABA-T inhibitors	3-Hydrazinopropionic acid • Aminooxyacetic acid • Gabaculine • Isoniazid • Phenelzine • Phenylethylidenehydrazine • Sodium valproate • Valnoctamide • Valproate pivoxil • Valproate semisodium (Divalproex sodium) • Valproic acid • Valpromide • Vigabatrin

Others

Precursors	Glutamate • Glutamine

Cofactors	Vitamin B6 (pyridoxine, pyridoxamine, pyridoxal phosphate)

Others	Gabapentin • L-Theanine • Picamilon • Pregabalin

α5IA

See also

References