A novel technique of enzyme immobilization is developed for making the immobilized enzymes capable of further releasing for homogeneous reaction. Water-soluble poly(vinyl alcohol) was used to prepare enzyme-loaded membranes with immobilized acetylcholinesterase (AChE). When used, a piece of enzymecontaining membrane is put into the solution and dissolves quickly. The released AChE is mixed and interacts with substrates and carbaryl inhibitors. The catalytical activity and inhibition sensitivity of released enzyme are comparable to those of free AChE. The values of Michaelis constant and maximum reaction rate for released AChE are also very close to those for free AChE. The experimental conditions such as the concentrations of PVA and acetone, the time of enzymatic reaction and that of AChE inhibition by carbaryl pesticide were optimized. The relative inhibition of AChE activity increased with the carbaryl concentration ranging from 0.1 μg/L to 100 mg/L. When compared to free AChE in solution or solid powder, the prepared PVA-AChE membranes are advantageous with respect to storage and handling. The suggested technique of enzyme immobilization is suitable for the variety of applications, when the enzyme catalysed reactions allows for single-using of the active material and does not require further enzyme recovering.