Resistance of cysts of amoebae to microbial decomposition

Abstract

Cyst walls of Acanthamoeba rhysodes, A. palestinensis, A. castellanii, and one other strain of Acanthamoeba contain 36 to 45% protein and 20 to 34% carbohydrate. More than half of the protein in the walls of A. palestinensis, A. castellanii and Acanthamoeba sp. is accessible to and hydrolyzed by protease, and 67 to 69% of the carbohydrate of A. palestinensis and A. rhysodes walls is hydrolyzed by cellulase. The extent of hydrolysis of walls of the other amoebae by these enzymes is appreciably less, and chitinase and β-1,3-glucanase have no detectable effect. Protease solubilizes 10% or less of the weight of intact cysts, and no solubilization is observed with cellulase. Walls of A. palestinensis are extensively degraded in soil, the activity is less with A. rhysodes, and little attack on the other amoebae occurs. When added to soil, the protozoa excyst and grow for short periods, the trophozoites then die, and chiefly cysts persist thereafter.