The Farnesyl Protein Transferase Inhibition Activity of Chalcone Derivatives

Chalcone 유도체의 Farnesyl Protein Transferase 저해활성

Inhibition activities$(pI_{50})$ of chalcone derivatives as substrate with farnesyl protein transferase(FPTase) were determined in vitro. The structure activity relationships(SAR) between the activity and physicochemical parameters of X & Y-substituents on the phenyl groups were analyzed by Free-Wilson and Hansch method. X-substituents on the benzoyl group have the more important role to inhibition activity than Y-substituents on the styryl group. Among them, none substituent, 8 showed the highest FPTase inhibition activity$(pI_{50}=4.30)$. Particularly, the SAR equation could be formulated, showing a parabolic relationship between the activity and hydrophobicity(logP) where the optimal value$({\Sigma}logP)_{opt}$ was 3.915. And also the activity depends on the steric effect(Es > 0) with X-substituent and the resonance effect(R < 0) with electron donating Y-substituents. Based on the results of SAR analyses, the interactions between substrates and receptor, FPTase, could be assumed.

Chalcones 유도체들을 합성하고 farnesyl protein transferase(FPTase) 저해활성을 측정하여, 기질분자의 치환기 변화에 따른 구조와 활성과의관계(SAR)를 Free-Wilson법과 Hansch법으로 검토하였다. Benzoyl group 중 X-치환기가 styryl중 Y-치환기보다 활성에 더욱 큰 영향을 미쳤으며 meta- > ortho-, para-치환기의 순으로 활성을 나타내었다. 또한, X및 Y-치환기의 소수성이 적정값$(({\Sigma}logP)_{opt}\;=\;3.915)$에 근접할수록 활성이 증가 하였으며, X-치환기의 입체효과와(Es > O) 전자밀게 Y-치환기에 의한 공명효과(R < O)가 활성에 미치는 중요한 요소로 인식되었다. 다루어진 화합물중에서 비 치환체, 8은 가장 높은 FPTase저해활성$(pl_{50}\;=\;4.30)$을 나타내었다. 그리고 기질 수용체간의 상호작용을 가정하여 제안하였다.