Structural Effects of Terminal Groups on Nonenzymatic and Enzymatic Degradations of End-Capped Poly(L-lactide)

摘要

Poly(L-lactide) (PLLA) with various alkyl ester chain end groups were synthesized by ring-opening polymerization of L-lactide in the presence of zinc alkoxide as a catalyst.The structural effect of chain end groups on the rate of enzymatic and nonenzymatic degradations for amorphous films of PLLA were investigated at 37 °C in a Tris-HC1 buffer solution (pH 8.6) with proteinase K and at 60 °C in a phosphate buffer solution (pH 7.4),respectively.The rate of enzymatic degradation for PLLA films was dependent on the carbon numbers of alkyl ester chain end groups,and the rates of PLLA samples with dodecyl (C12),tridecyl (C13),and tetracocyl (C14) ester end groups were much lower than those of the other samples.The surface morphologies of PLLA films after enzymatic degradation were characterized by scanning electron microscopy.After the enzymatic degradation,non-end-capped PLLA,PLLA with methyl (Cl) and hexyl (G6) ester chain ends,were degraded homogeneously by proteinase K and the film surface was very smooth.In contrast,the PLLA with alkyl ester chain ends of carbon numbers over 12 were degraded heterogeneously by the enzyme,and the sponge-like network structure was formed on the film surface.These results indicated that the long alkyl ester groups at the chain ends of PLLA molecules aggregated in the amorphous films and the erosion rate was depressed due to the coverage of the aggregated terminal groups on the film surface.For the nonenzymatic degradation,the molecular weight of non-end-capped PLLA was remarkably decreased with progress of degradation.In contrast,the molecular weight of the end-capped PLLA gradually reduced at the initial stage of degradation and then the rate of degradation was accelerated.The decreases of molecular weight of PLLA by autocatalyzed degradation were retarded by the capping of carboxyl chain ends.