Issue 47, 2023

Osmolyte induced protein stabilization: modulation of associated water dynamics might be a key factor

Abstract

The mechanism of protein stabilization by osmolytes remains one of the most important and long-standing puzzles. The traditional explanation of osmolyte-induced stability through the preferential exclusion of osmolytes from the protein surface has been seriously challenged by the observations like the concentration-dependent reversal of osmolyte-induced stabilization/destabilization. The more modern explanation of protein stabilization/destabilization by osmolytes considers an indirect effect due to osmolyte-induced distortion of the water structure. It provides a general mechanism, but there are numerous examples of protein-specific effects, i.e., a particular osmolyte might stabilize one protein, but destabilize the other, that could not be rationalized through such an explanation. Herein, we hypothesized that osmolyte-induced modulation of associated water might be a critical factor in controlling protein stability in such a medium. Taking different osmolytes and papain as a protein, we proved that our proposal could explain protein stability in osmolyte media. Stabilizing osmolytes rigidify associated water structures around the protein, whereas destabilizing osmolytes make them flexible. The strong correlation between the stability and the associated water dynamics, and the fact that such dynamics are very much protein specific, established the importance of considering the modulation of associated water structures in explaining the osmolyte-induced stabilization/destabilization of proteins. More interestingly, we took another protein, bromelain, for which a traditionally stabilizing osmolyte, sucrose, acts as a stabilizer at higher concentrations but as a destabilizer at lower concentrations. Our proposal successfully explains such observations, which is probably impossible by any known mechanisms. We believe this report will trigger much research in this area.

Graphical abstract: Osmolyte induced protein stabilization: modulation of associated water dynamics might be a key factor

Supplementary files

Article information

Article type
Paper
Submitted
15 Jul 2023
Accepted
13 Nov 2023
First published
27 Nov 2023

Phys. Chem. Chem. Phys., 2023,25, 32602-32612

Osmolyte induced protein stabilization: modulation of associated water dynamics might be a key factor

K. S. Negi, N. Das, T. Khan and P. Sen, Phys. Chem. Chem. Phys., 2023, 25, 32602 DOI: 10.1039/D3CP03357K

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