Masatoshi Watabe

Preparation of platinum(II) complexes with L-serine using KI. X-ray crystal structure, HPLC and 195Pt NMR spectra

The preparation of platinum(II) complexes containing L-serine using K(2)[PtCl(4)] and KI as raw materials was undertaken. The cis-trans isomer ratio of the complexes in the reaction mixture differed significantly depending on whether KI was present or absent in the reaction mixture. One of the two [Pt(L-ser-N,O)(2)] complexes (L-ser=L-serinate anion) prepared using KI crystallizes in the monoclinic space group P2(1)2(1)2(1) with unit cell dimensions a=8.710(2) A, b=9.773(3) A, c=11.355(3) A, Z=4. The crystal data revealed that this complex has a cis configuration. The other [Pt(L-ser-N,O)(2)] complex also crystallizes in the monoclinic space group P2(1)2(1)2(1) with unit cell dimensions a=7.0190(9) A, b=7.7445(6) A, c=20.946(2) A, Z=4. The crystal data revealed that this complex has a trans configuration. The 195Pt NMR chemical shifts of trans-[Pt(L-ser-N,O)(2)] and cis-[Pt(L-ser-N,O)(2)] complexes are -1632 and -1832 ppm, respectively. 195Pt NMR and HPLC measurements were conducted to monitor the reactions of the two [Pt(L-ser-N,O)(2)] complexes with HCl. Both 195Pt NMR and HPLC showed that the reactivities of cis- and trans-[Pt(L-ser-N,O)(2)] toward HCl are different: coordinated carboxyl oxygen atoms of trans-[Pt(L-ser-N,O)(2)] were detached faster than those for cis-[Pt(L-ser-N,O)(2)].

Preparation, 195Pt NMR spectra and biological activity of platinum(IV) complexes with dipeptides

Three dipeptide complexes of the form K[Pt(IV) (dipep) Cl(OH)2] and four dipeptide complexes of the form K[Pt(IV)-(Hdipep)Cl2(OH)2] were newly prepared. The 195 Pt NMR peak of the K[Pt(IV) (dipep)Cl(OH)2] complexes appeared at about 1200 ppm and these chemical shifts were about 3150 ppm downfield compared with those of the K[Pt(II) (dipep) Cl] complexes. The chemical shifts of the K[Pt(IV) (Hdipep) Cl2 (OH)2] complexes were at about 900 ppm, i.e., about 3050 ppm downfield compared with those of the K[Pt(II) (Hdipep)Cl] complexes. The H[Pt(IV) (Hdigly) Cl2(OH)2] and K[Pt(IV) (Hdigly) Cl2(OH)2] complexes inhibited the growth of C. albicans at a more diluted concentration than cisplatin at 1 microgram/ml, but the platinum complexes only weakly inhibited the growth of these cells compared with the cisplatin-inhibited growth of Meth-A and Hep-2 cells at 10 micrograms/ml. These results suggested that the platinum complexes selectively inhibited the growth of fungal cells.

Preparation, X-ray crystal structure, and 195Pt NMR spectra of platinum(II) with dipeptides and dipeptide methyl esters.

Three dipeptide complexes of the form K[M(dipeptide)Cl] (H2dipeptide=glycylbeta-alanine, beta-alanylglycine, beta-alanylbeta-alanine) and four dipeptide methyl ester complexes of the form K[M(dipeptideOMe)Cl2] (HdipeptideOMe=glycylalpha-alanine methyl ester, alpha-alanylglycine methyl ester, dialpha-alanine methyl ester) were newly prepared. The K[Pt(glybeta-ala)Cl] complex crystallizes in the monoclinic space group C2/c with unit cell dimensions of a=25.77(1) A, b=4.09(2) A, c= 16.432(9) A, beta=103.74(4) degrees, and Z=8. The K[Pt(glyalpha-alaOMe)Cl2] complex crystallizes in the monoclinic space group P1 with unit cell dimensions of a=7.195(2) A, b=7.977(5) A, c=10.326(3) A, alpha=72.49(3) degrees, beta=103.74(4) degrees, gamma=88.27(4) degrees and Z=2. The 195Pt NMR peaks of the complexes containing the beta-alanine moiety appeared significantly more upfield than those of the complexes containing diglycine. The ratios of the species of the platinum complexes containing the dipeptide ester in neutral solution were significantly different from those in alkaline solution at 40 degrees C for a short time.