Effect of crowding and chaperones on self-association, aggregation and reconstitution of apophosphorylase b

It was shown that the rate of reconstruction of muscle glycogen phosphorylase b (Phb) from apoenzyme and pyridoxal 5′-phosphate decreased under crowding conditions. The effect of crowding was counteracted by chaperones (α-crystallin and proline). Sedimentation analysis shows that crowding stimulates the formation of high-molecular-weight associates at 25 °C, whereas chaperones stabilize small oligomers. The study of the kinetics of apoPhb aggregation at 37 °C showed that the anti-aggregation activity of chaperones decreased under crowding conditions. When studying the sedimentation behavior of the mixture of apoPhb and α-crystallin, the complexes between unfolded apoPhb and dissociated forms of α-crystallin were observed. It is assumed that these complexes are responsible for realization of the chaperone-like activity of α-crystallin under crowding conditions.