The mechanism of PNIPAAm-assisted refolding of lysozyme denatured by urea

The molecular interaction of a temperature stimuli-responsive polymer, poly-N-isopropyl acrylamide (PNIPAAm), with lysozyme of different status was studied with an emphasis on the application of PNIPAAm for protein refolding. The refolding of lysozyme was performed by directly diluting denatured lysozyme into a refolding buffer containing PNIPAAm, in which PNIPAAm with the weight average molecular weight of 22,000, denoted as M-PNI, gave the best refolding yield in terms of the recovery of lysozyme activity. The interaction between M-PNI and lysozyme was investigated using non-reductive SDS-PAGE, circular dichroism (CD), fluorescence emission spectroscopy, and reverse phase HPLC. It was shown that the use of M-PNI increased the secondary structures of lysozyme and reduced the formation of protein aggregate. The correctly folded lysozyme has a weaker hydrophobicity compared to the denatured lysozyme. The PNIPAAm-lysozyme complex dissociates once lysozyme is correctly folded. The increase in the operational temperature leads to increases in both the refolding yield and the apparent rate of refolding. Based on above experimental results, a kinetic model of the refolding, both with and without PNIPAAm, was determined and a molecular view of lysozyme refolding using PNIPAAm was presented. © 2004 Elsevier B.V. All rights reserved.