SOLID-PHASE SYNTHESIS OF PROTECTED PEPTIDES USING NEW COBALT(III) AMMINE LINKERS

Cobalt(III) ammine complexes of the type cis-[CoL4(4-AMB)O-AA-Boc](CF3 SO3)2, where L4 = bis-ethylenediamine (en)2 or tetraammine (NH3)4, and 4-AMB = 4-(aminomethyl)benzoic acid, have been synthesized and used a s linkers to polystyrene resins for solid-phase synthesis of protected peptides. Boc/t-Bu-protected [Leu5]enkephalin was assembled on the tw o different Co(III) resins, and then cleaved from the resins by reduct ion of the Co(III) center in 93-96% yield. HPLC-purified protected [Le u5]enkephalin was obtained in 67-69 % overall yield and characterized by amino acid analysis and H-1 NMR. Stepwise synthesis on the Co(en)2- resin was also used in the assembly of Arg(Mts)-Gly-Asp(OcHex)-Ala-Pro -Lys(2Cl-Z)-Gly-OH, a sequence from collagen alpha1 Type 1. The protec ted peptide was cleaved from the Co(III) resin in 74% yield, and the H PLC-purified nonapeptide was characterized by amino acid analysis, H-1 NMR and liquid secondary-ion mass spectrometry (LSIMS). New routes ar e described for the synthesis of isomerically pure Co(III) anchor comp lexes. The Co(III) resins were found to be compatible with both the te rt-butyloxycarbonyl (Boc) and the 9-fluorenylmethoxycarbonyl (Fmoc) N( alpha)-protecting group strategies used in solid-phase peptide synthes is. (C) Munksgaard 1993.