21072-22-0

Upstream product

• 2627-86-3 (S)-1-phenyl-ethylamine 
• 87-42-3 6-chloropurine 

Relevant academic research and scientific papers

S(+)-4-(1-phenylethylamino)quinazolines as inhibitors of human immunoglobuline E synthesis: Potency is dictated by stereochemistry and atomic point charges at N-1

Since the pathogenesis of allergic diseases is associated with elevated levels of immunoglobulin E (IgE), we developed a high throughput reporter gene assay in a human B-cell line to screen for low molecular weight IgE inhibitory compounds. Monitoring the IL-4 driven IgE-germline promoter activity (IgE-GLP), we discovered 4-(1-phenylethylamino)qinazolines as potent inhibitors of IgE-germline gene expression. Testing of the individual enantiomers (1, 2) revealed that only the S(+) enantiomer 1 was active. A cell viability assay done in the same cell line in parallel discriminated the dose-dependent inhibition from a general antiproliferative effect. The observed correlation of the inhibitory potencies found in the reporter gene assay with those measured by IgE-ELISA in primary human splenocytes provided evidence that the blockade of IgE synthesis is the direct consequence of IgE-germline gene inhibition, thereby validating the reporter gene assay. Parallel synthesis in solution rapidly provided a series of analogues of compound I with modifications in the phenethylamine side chain and the quinazoline core for SAR studies. Increasing the lipophilicity of the arylalkylamine moiety yielded S(+)-4-(1-(2-naphthyl)ethylamino)quinazoline (6) as the most potent inhibitor (IC50 of 14 nM) while the R(-) enantiomer was again found to be inactive. Within the set of S enantiomers, quantum mechanical calculations revealed that the IgE inhibitory activity can be quantitatively described by the charge at N-1 of the heterocyclic core and to a lesser extent by the molar refractivity. These results demonstrate the importance of electron-deficient fused 4-aminopyrimidines and lipophilic side chains for biological activity. The strong preference for the S configuration of the phenethylamine side chain is remarkable insofar as biological activity for fused 4-(1-phenylethylamino)pyrimidines has been published for the R enantiomers only (EGFR tyrosine kinase inhibition).

APPLICATIONS OF N6-SUBSTITUTED ADENOSINE DERIVATIVE AND N6-SUBSTITUTED ADENINE DERIVATIVE TO CALMING, HYPNOSES, CONVULSION RESISTANCE, EPILEPTIC RESISTANCE, PARKINSON DISEASE RESISTANCE, AND DEMENTIA PREVENTION AND TREATMENT

PROBLEM TO BE SOLVED: To prepare analgesics, hypnotic agents, anticonvulsant agents, antiepileptics, antiparkinson drugs, dementia prophylactics, and health care food. SOLUTION: The present invention relates to an N6-substituted adenosine derivative and an N6-substituted adenine derivative selected from the group consisting of specific compounds. The present invention also relates to a pharmaceutical composition at least comprising a therapeutically effective amount of the compounds and a pharmaceutically acceptable carrier. The invention further relates to the compounds used in preparation of analgesics, hypnotic agents, anticonvulsant agents, antiepileptics, antiparkinson drugs, dementia prophylactics, and health care food. COPYRIGHT: (C)2016,JPO&INPIT

N6-SUBSTITUTED ADENOSINE DERIVATIVES AND N6-SUBSTITUTED ADENINE DERIVATIVES AND USES THEREOF

The present invention provides N6-substituted adenosine derivatives and N6-substituted adenine derivatives, manufacturing methods thereof, a pharmaceutical composition comprising the said compounds above, and uses of these compounds in manufacturing medicaments and health-care products for treating insomnia, convulsion, epilepsy, and Parkinson's diseases, and preventing and treating dementia.

N6-SUBSTITUTED ADENOSINE DERIVATIVES, N6-SUBSTITUTED ADENINE DERIVATIVES AND USES THEREOF

The present invention provides N6-substituted adenosine derivatives and N6-substituted adenine derivatives, manufacturing methods thereof, a pharmaceutical composition comprising the said compounds above, and uses of of these compounds in manufacturing medicaments and health-care products for treating insomnia, convulsion, epilepsy, and Parkinson's diseases, and preventing and treating dementia.