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  • Title: The benefits of being β-crystallin heteromers: βB1-crystallin protects βA3-crystallin against aggregation during co-refolding.
    Author: Wang S, Leng XY, Yan YB.
    Journal: Biochemistry; 2011 Dec 06; 50(48):10451-61. PubMed ID: 22032798.
    Abstract:
    β-Crystallins are the major structural proteins in mammalian lens, and their stability is critical in maintaining the transparency and refraction index of the lens. Among the seven β-crystallins, βA3-crystallin and βB1-crystallin, an acidic and a basic β-crystallin, respectively, can form heteromers in vivo. However, the physiological roles of the heteromer have not been fully elucidated. In this research, we studied whether the basic β-crystallin facilitates the folding of acidic β-crystallin. Equilibrium folding studies revealed that the βA3-crystallin and βB1-crystallin homomers and the βA3/βB1-crystallin heteromer all undergo similar five-state folding pathways which include one dimeric and two monomeric intermediates. βA3-Crystallin was found to be the most unstable among the three proteins, and the transition curve of βA3/βB1-crystallin was close to that of βB1-crystallin. The dimeric intermediate may be a critical determinant in the aggregation process and thus is crucial to the lifelong stability of the β-crystallins. A comparison of the Gibbs free energy of the equilibrium folding suggested that the formation of heteromer contributed to the stabilization of the dimer interface. On the other hand, βA3-crystallin, the only protein whose refolding is challenged by serious aggregation, can be protected by βB1-crystallin in a dose-dependent manner during the kinetic co-refolding. However, the protection is not observed in the presence of the pre-existed well-folded βB1-crystallin. These findings suggested that the formation of β-crystallin heteromers not only stabilizes the unstable acidic β-crystallin but also protects them against aggregation during refolding from the stress-denatured states.
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