N-Acetylputrescine
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| Names
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| IUPAC name
N-(4-aminobutyl)acetamide
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| Other names
Acetylputrescine; Monoacetylputrescine; NacPut
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| Identifiers
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CAS Number
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3D model (JSmol)
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| ChEBI
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| ChEMBL
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| ChemSpider
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| ECHA InfoCard
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100.219.140
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| EC Number
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| KEGG
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| UNII
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InChI=1S/C6H14N2O/c1-6(9)8-5-3-2-4-7/h2-5,7H2,1H3,(H,8,9) Key: KLZGKIDSEJWEDW-UHFFFAOYSA-N
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| Properties
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Chemical formula
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C6H14N2O
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| Molar mass
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130.19 g/mol
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Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Infobox references
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N-Acetylputrescine (NacPut), also known as monoacetylputrescine, is an endogenous metabolite of putrescine and a precursor and metabolic intermediate in the biosynthesis of γ-aminobutyric acid (GABA) from putrescine.[1][2][3]
The metabolic pathway is specifically putrescine into N-acetylputrescine by putrescine acetyltransferase (PAT), N-acetylputrescine into N-acetyl-γ-aminobutyraldehyde (N-acetyl-GABAL or N-acetyl-GABA aldehyde) by monoamine oxidase B (MAO-B), N-acetyl-GABAL into N-acetyl-γ-aminobutyric acid (N-acetyl-GABA) by aldehyde dehydrogenase (ALDH), and N-acetyl-GABA into GABA by an unknown deacetylase enzyme.[1][2][3] This pathway is a minor alternative pathway to the major and primary pathway in which GABA is synthesized from glutamate.[1] There is also another alternative pathway in which putrescine is converted into GABA with γ-aminobutyraldehyde (GABAL or GABA aldehyde) as an intermediate instead.[1] It has been estimated that about 2 to 3% of GABA is synthesized from putrescine in the mouse brain, whereas in the case of the rat brain, the amount was negligible.[1]
In 2021, it was discovered that MAO-B does not mediate dopamine catabolism in the rodent striatum but instead participates in striatal GABA synthesis and that synthesized GABA in turn inhibits dopaminergic neurons in this brain area.[4][3] It has been found that MAO-B, via the putrescine pathway, importantly mediates GABA synthesis in astrocytes in various brain areas, including in the hippocampus, cerebellum, striatum, cerebral cortex, and substantia nigra pars compacta (SNpc).[4][3] These findings may warrant a rethinking of the actions of MAO-B inhibitors in the treatment of Parkinson's disease.[4][3]
References
- ^ a b c d e Watanabe M, Maemura K, Kanbara K, Tamayama T, Hayasaki H (2002). "GABA and GABA Receptors in the Central Nervous System and Other Organs". A Survey of Cell Biology. International Review of Cytology. Vol. 213. pp. 1–47. doi:10.1016/s0074-7696(02)13011-7. ISBN 978-0-12-364617-0. PMID 11837891.
- ^ a b Seiler N (June 2004). "Catabolism of polyamines". Amino Acids. 26 (3): 217–233. doi:10.1007/s00726-004-0070-z. PMID 15221502.
- ^ a b c d e Cho HU, Kim S, Sim J, Yang S, An H, Nam MH, Jang DP, Lee CJ (July 2021). "Redefining differential roles of MAO-A in dopamine degradation and MAO-B in tonic GABA synthesis". Exp Mol Med. 53 (7): 1148–1158. doi:10.1038/s12276-021-00646-3. PMC 8333267. PMID 34244591.
- ^ a b c Nam MH, Sa M, Ju YH, Park MG, Lee CJ (April 2022). "Revisiting the Role of Astrocytic MAOB in Parkinson's Disease". Int J Mol Sci. 23 (8): 4453. doi:10.3390/ijms23084453. PMC 9028367. PMID 35457272.
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| K→acetyl-CoA | | lysine→ |
- Saccharopine
- Allysine
- α-Aminoadipic acid
- 2-Oxoadipic acid
- Glutaryl-CoA
- Glutaconyl-CoA
- Crotonyl-CoA
- β-Hydroxybutyryl-CoA
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| leucine→ |
- β-Hydroxy β-methylbutyric acid
- β-Hydroxy β-methylbutyryl-CoA
- Isovaleryl-CoA
- α-Ketoisocaproic acid
- β-Ketoisocaproic acid
- β-Ketoisocaproyl-CoA
- β-Leucine
- β-Methylcrotonyl-CoA
- β-Methylglutaconyl-CoA
- β-Hydroxy β-methylglutaryl-CoA
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| tryptophan→alanine→ |
- N′-Formylkynurenine
- Kynurenine
- Anthranilic acid
- 3-Hydroxykynurenine
- 3-Hydroxyanthranilic acid
- 2-Amino-3-carboxymuconic semialdehyde
- 2-Aminomuconic semialdehyde
- 2-Aminomuconic acid
- Glutaryl-CoA
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| G | G→pyruvate→
citrate | |
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G→glutamate→
α-ketoglutarate | | histidine→ |
- Urocanic acid
- Imidazol-4-one-5-propionic acid
- Formiminoglutamic acid
- Glutamate-1-semialdehyde
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| proline→ |
- 1-Pyrroline-5-carboxylic acid
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| arginine→ | |
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| other | |
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G→propionyl-CoA→
succinyl-CoA | | valine→ |
- α-Ketoisovaleric acid
- Isobutyryl-CoA
- Methacrylyl-CoA
- 3-Hydroxyisobutyryl-CoA
- 3-Hydroxyisobutyric acid
- 2-Methyl-3-oxopropanoic acid
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| isoleucine→ |
- 2,3-Dihydroxy-3-methylpentanoic acid
- 2-Methylbutyryl-CoA
- Tiglyl-CoA
- 2-Methylacetoacetyl-CoA
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| methionine→ | |
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| threonine→ | |
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| propionyl-CoA→ | |
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| G→fumarate | | phenylalanine→tyrosine→ |
- 4-Hydroxyphenylpyruvic acid
- Homogentisic acid
- 4-Maleylacetoacetic acid
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| G→oxaloacetate | |
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| Other | |
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| Ionotropic | | GABAATooltip γ-Aminobutyric acid A receptor |
- Positive modulators (abridged; see here for a full list): α-EMTBL
- Alcohols (e.g., drinking alcohol, 2M2B)
- Anabolic steroids
- Avermectins (e.g., ivermectin)
- Barbiturates (e.g., phenobarbital)
- Benzodiazepines (e.g., diazepam)
- Bromide compounds (e.g., potassium bromide)
- Carbamates (e.g., meprobamate)
- Carbamazepine
- Chloralose
- Chlormezanone
- Clomethiazole
- Dihydroergolines (e.g., ergoloid (dihydroergotoxine))
- Etazepine
- Etifoxine
- Fenamates (e.g., mefenamic acid)
- Flavonoids (e.g., apigenin, hispidulin)
- Fluoxetine
- Flupirtine
- Imidazoles (e.g., etomidate)
- Kava constituents (e.g., kavain)
- Lanthanum
- Loreclezole
- Monastrol
- Neuroactive steroids (e.g., allopregnanolone, cholesterol, THDOC)
- Niacin
- Niacinamide
- Nonbenzodiazepines (e.g., β-carbolines (e.g., abecarnil), cyclopyrrolones (e.g., zopiclone), imidazopyridines (e.g., zolpidem), pyrazolopyrimidines (e.g., zaleplon))
- Norfluoxetine
- Petrichloral
- Phenols (e.g., propofol)
- Phenytoin
- Piperidinediones (e.g., glutethimide)
- Propanidid
- Pyrazolopyridines (e.g., etazolate)
- Quinazolinones (e.g., methaqualone)
- Retigabine (ezogabine)
- ROD-188
- Skullcap constituents (e.g., baicalin)
- Stiripentol
- Sulfonylalkanes (e.g., sulfonmethane (sulfonal))
- Topiramate
- Valerian constituents (e.g., valerenic acid)
- Volatiles/gases (e.g., chloral hydrate, chloroform, diethyl ether, paraldehyde, sevoflurane)
- Negative modulators: 1,3M1B
- 3M2B
- 11-Ketoprogesterone
- 17-Phenylandrostenol
- α3IA
- α5IA (LS-193,268)
- β-CCB
- β-CCE
- β-CCM
- β-CCP
- β-EMGBL
- Anabolic steroids
- Amiloride
- Anisatin
- β-Lactams (e.g., penicillins, cephalosporins, carbapenems)
- Basmisanil
- Bemegride
- Bicyclic phosphates (TBPS, TBPO, IPTBO)
- BIDN
- Bilobalide
- Bupropion
- CHEB
- Chlorophenylsilatrane
- Cicutoxin
- Cloflubicyne
- Cyclothiazide
- DHEA
- DHEA-S
- Dieldrin
- (+)-DMBB
- DMCM
- DMPC
- EBOB
- Etbicyphat
- FG-7142 (ZK-31906)
- Fiproles (e.g., fipronil)
- Flavonoids (e.g., amentoflavone, oroxylin A)
- Flumazenil
- Fluoroquinolones (e.g., ciprofloxacin)
- Flurothyl
- Furosemide
- Golexanolone
- Iomazenil (123I)
- IPTBO
- Isopregnanolone (sepranolone)
- L-655,708
- Laudanosine
- Lindane
- MaxiPost
- Morphine
- Morphine-3-glucuronide
- MRK-016
- Naloxone
- Naltrexone
- Nicardipine
- Nonsteroidal antiandrogens (e.g., apalutamide, bicalutamide, enzalutamide, flutamide, nilutamide)
- Oenanthotoxin
- Pentylenetetrazol (pentetrazol)
- Phenylsilatrane
- Picrotoxin (i.e., picrotin, picrotoxinin and dihydropicrotoxinin)
- Pregnenolone sulfate
- Propybicyphat
- PWZ-029
- Radequinil
- Ro 15-4513
- Ro 19-4603
- RO4882224
- RO4938581
- Sarmazenil
- SCS
- Suritozole
- TB-21007
- TBOB
- TBPS
- TCS-1105
- Terbequinil
- TETS
- Thujone
- U-93631
- Zinc
- ZK-93426
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| GABAA-ρTooltip γ-Aminobutyric acid A-rho receptor | |
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| Metabotropic | | GABABTooltip γ-Aminobutyric acid B receptor |
- Negative modulators: Compound 14
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- See also
- Receptor/signaling modulators
- GABAA receptor positive modulators
- GABA metabolism/transport modulators
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