The chiral title compounds 2--11 were assessed for their potential anti-Parkinsonian, antipsychotic, and anticonvulsant properties. The most striking differences in the biological activity of enantiomeric pairs were noted for D-(R)-2-amino-N-(3,4-methylenedioxyphenyl)succinimide hydrochloride (2) vs. L-(S)-3 and D-(R)-2-amino-N-(3,4-isopropylidenedioxyphenyl)succinimide (4) vs. L-(S)-5. D-(R)-2-partially attenuated amphetamine-induced stereotyped behavior, whereas D-(R)-4 antagonized oxotremorine-induced tremors. Their respective enantiomorphs were inactive in these tests. No differences in anticonvulsant potency of enantiomeric pairs were observed. The stereoselective actions of D-(R)-2 and 4 were rationalized on the basis of the presence or absence of gem-dimethyl functions in isopropylidenedioxy vs. methylenedioxy groups; the data seem to indicate that these methyl groups influence selective receptor site interaction in the D-(R) series.
For purposes of carrying out structure-activity studies on a series of pure R and S enantiomorphs of various para-substituted N-acetyl-alpha-amino-N-phenylglutarimides, we synthesized the p-acetyl, iodo, cyano, ethyl, and n-butyl analogues. These compounds complimented previous R and S isomers (unsubstituted and the p-chloro, methyl, nitro, and methoxyl analogues) synthesized in our laboratories from amino acids of known absolute configuration. The neurotoxic doses (TD50's), anticonvulsant potencies [maximal electroshock seizures (MES) and subcutaneous metrazole (sc Met) ED50's], protective indices (PI = TD50/ED50), and effects on minimal seizure threshold (iv Met) were compared with similar values concomitantly determined for clinically employed anticonvulsants. A parallel relationship was shown between neutotoxicity (TD50) and potency (ED50) for the R and S analogues. In most cases R isomers had a more rapid onset of action and possessed greater neurotoxicity and greater anticonvulsant potency.
Durch die Umsetzung von Diphenylhalogenboran (I) mit Dimethylamin (II) wird das Dimethylaminoboran (III) gebildet, das mit 2‐, 3‐ oder 4‐Aminopyridin (IV) unter Transaminierung zu den Pyridinaminoboranen (V) reagiert.
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