molecular formula C14H21N3O3 B1677833 Oxamniquine CAS No. 21738-42-1

Oxamniquine

Numéro de catalogue: B1677833
Numéro CAS: 21738-42-1
Poids moléculaire: 279.33 g/mol
Clé InChI: XCGYUJZMCCFSRP-UHFFFAOYSA-N
Attention: Uniquement pour un usage de recherche. Non destiné à un usage humain ou vétérinaire.
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Méthodes De Préparation

Voies de Synthèse et Conditions de Réaction : La synthèse de l'oxamniquine commence avec une molécule contenant une structure quinoléine. Le processus implique plusieurs réactions clés, notamment la substitution et la réduction . Initialement, la molécule de départ subit une réaction de substitution activée par le carbonate de sodium pour former une structure intermédiaire. Ce composé intermédiaire subit ensuite une réaction de substitution nucléophile bimoléculaire (SN2), suivie d'une hydrogénation avec du nickel comme catalyseur . Les dernières étapes impliquent une nitration utilisant des acides nitrique et sulfurique concentrés, suivie d'une oxydation microbienne pour donner l'this compound .

Méthodes de Production Industrielle : La production industrielle de l'this compound suit des voies de synthèse similaires mais à plus grande échelle. Le processus est optimisé pour le rendement et la pureté, garantissant que le produit final répond aux normes pharmaceutiques. L'utilisation de réacteurs automatisés et des mesures rigoureuses de contrôle de la qualité sont essentielles à la synthèse industrielle de l'this compound .

Analyse Des Réactions Chimiques

Types de Réactions : L'oxamniquine subit diverses réactions chimiques, notamment :

Réactifs et Conditions Communes :

Principaux Produits Formés : Le principal produit formé à partir de ces réactions est l'this compound lui-même, les composés intermédiaires étant convertis par des étapes ultérieures .

4. Applications de la Recherche Scientifique

L'this compound a plusieurs applications de recherche scientifique, notamment :

5. Mécanisme d'Action

L'this compound exerce ses effets en ciblant le métabolisme des acides nucléiques de Schistosoma mansoni . Le médicament est activé par une enzyme sulfotransférase de schistosome, qui convertit l'this compound en un ester (probablement acétate, phosphate ou sulfate) . Cet ester se dissocie ensuite, produisant un réactif électrophile capable d'alkyler l'ADN de schistosome, entraînant la paralysie et la mort des vers .

Composés Similaires :

Unicité de l'this compound : L'this compound est unique dans son activité spécifique contre Schistosoma mansoni et sa capacité à provoquer la paralysie des vers, entraînant leur détachement et leur mort . Contrairement au praziquantel, l'this compound n'est pas efficace contre d'autres espèces de Schistosoma, ce qui en fait une option de traitement plus ciblée .

Propriétés

IUPAC Name

[7-nitro-2-[(propan-2-ylamino)methyl]-1,2,3,4-tetrahydroquinolin-6-yl]methanol
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI

InChI=1S/C14H21N3O3/c1-9(2)15-7-12-4-3-10-5-11(8-18)14(17(19)20)6-13(10)16-12/h5-6,9,12,15-16,18H,3-4,7-8H2,1-2H3
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI Key

XCGYUJZMCCFSRP-UHFFFAOYSA-N
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Canonical SMILES

CC(C)NCC1CCC2=CC(=C(C=C2N1)[N+](=O)[O-])CO
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Molecular Formula

C14H21N3O3
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

DSSTOX Substance ID

DTXSID3023398
Record name Oxamniquine
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Molecular Weight

279.33 g/mol
Source PubChem
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Physical Description

Solid
Record name Oxamniquine
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Solubility

1 part in about 3300 parts of water at 27 °C, 1.24e-01 g/L
Record name Oxamniquine
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Mechanism of Action

Oxamniquine may associate with an irreversible inhibition of the nucleic acid metabolism of the parasites. A hypothesis has been put forth that the drug is activated by a single step, in which a schistosome sulfotransferase enzyme converts oxamniquine into an ester (probably acetate, phosphate, or sulfate). Subsequently, the ester spontaneously dissociates, the resulting electrophilic reactant is capable of alkylation of schistosome DNA., Causes the worms to be dislodged from their usual site of residence in the mesenteric veins to the liver where they are retained and subsequently killed by host tissue reactions (eg, phagocytosis). The dislodgment of worms appears to result principally from contraction and paralysis of their musculature and subsequent immobilization of their suckers, which causes the worms to detach from the blood vessel wall, thereby allowing passive dislodgement by normal blood flow., Hycanthone-sensitive and hycanthone-resistant schistosomes (which are also sensitive and resistant to oxamniquine) were exposed in vitro to tritium-labelled oxamniquine. The initial uptake of the drug into the schistosomes was essentially the same for the 2 strains. The homogenate of worms incubated with tritiated oxamniquine was fractionated and a purified DNA fraction was obtained by ethanol precipitation, RNAase and protease digestion, repeated phenolchloroform extractions, cesium chloride gradient centrifugation and extensive dialysis. The DNA fraction from sensitive worms contained radioactive oxamniquine at a level corresponding to about 1 drug molecule per 50,000 base pairs, while the DNA from resistant worms contained essentially no drug. The results support the hypothesis that oxamniquine, like hycanthone, exerts its activity by alkylating macromolecules of sensitive schistosomes.
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Color/Form

Pale yellow crystals from isopropanol, Yellow-orange, crystalline solid

CAS No.

21738-42-1, 40247-39-0, 119678-90-9
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Melting Point

147-149 °C, 147 - 149 °C
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Record name Oxamniquine
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Retrosynthesis Analysis

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Strategy Settings

Precursor scoring Relevance Heuristic
Min. plausibility 0.01
Model Template_relevance
Template Set Pistachio/Bkms_metabolic/Pistachio_ringbreaker/Reaxys/Reaxys_biocatalysis
Top-N result to add to graph 6

Feasible Synthetic Routes

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