초록
본 연구에서는 백금착물, $[PtA_2Cl_2]\;(A:\;NH_3$ 및 en과 그 유도체)형의 항암성 메카니즘의 첫 단계에서 두 개의 염소 원자가 분리된다고 가정하고 이 분리의 용이성을 Extended Huckel법에 의해서 양자화학적 양을 조사하였다. 백금착물의 전체에너지가 높을수록, Pt의 d-전자의 전이가 용이할수록, Cl의 net charge의 (-)값이 클수록, Pt-Cl사이의 Cl의 이탈이 용이하여진다고 생각된다. 그리고 실험적으로 항암성이 있다고 보고된 Pt(II)착물에서 Cl의 이탈용이도가 컸다. 따라서 $PtLCl_2$형 항암제(L:NH$_3$, en)$에서 항암작용의 첫 단계로서 Cl의 해리과정이 중요하다고 예측된다.
Extended Huckel Calculation of cis-and trans-dichloro diammine platinum(II), dichloroethylene diamine platinum(II) and their N-mono, di, tri and tetra-methylated or ethylated ones were carried out to investigate their anticancer activity. It was found that the net charge of two chlorine atoms in cis-isomers are greater than those in trans-ones and Pt-Cl bond energies of the former are less than that of the latter, indicating that Pt-Cl bond in cis-isomers has greater ionic character than that in trans-ones and Cl atoms in the former are easier to dissociated as Cl- than those in the latter. Also, the values of $b_{2g}-b_{1g}$ energy difference, ${\Delta}_1$ were found to be greater in cis-isomers than in trans-one without exceptions. For the substitution of methyl for H atom in ammine and ethylenediamine Pt-Cl bond strength shows the tendency to increase with increasing in number of methyl group. Accordingly, We believe that two Cl atoms in $PtLCl_2$-complexes (L: NH$_3$, en) are dissociated in the first step of the action of anticancer.