Relationship between protein stability and functional activity in the presence of macromolecular crowding agents alone and in mixture: An insight into stability-activity trade-off

•Macromolecular crowding affects the stability and activity of lysozyme.•Excluded volume effect plays a significant role.•Crowding leads to stabilization of protein while its functional activity decreases.•Mixture exerts more stabilization than the individual crowding agents.•Results show consistency with the hypothesis of stability-activity trade-off.

The cellular environment is crowded with different kinds of molecules with varying sizes, shapes and compositions. Most of the experiments studying the nature and behaviour of a protein have been done on the isolated protein in dilute buffer solutions which actually do not imitate the in vivo situation. To understand the consequences of such crowded environment, we investigated the effect of macromolecular crowding on the stability and activity of hen egg white lysozyme. Two crowding agents, dextran 70 and ficoll 70 which have different shapes and composition, have been employed in this study. To mimic the cellular condition from physiological point of view, the effect of mixtures of both the crowding agents has been also studied. The results indicate that owing to volume exclusion, lysozyme is stabilized while its activity decays with the increasing concentration of both the crowders elucidating the hypothesis of stability-activity trade-off. Mixed macromolecular crowding exerts greater effect than the sum of constituent crowding agents (dextran 70 and ficoll 70).