Suppression of DTT-induced aggregation of abrin by αA- and αB-crystallins: a model aggregation assay for α-crystallin chaperone activity in vitro

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• 作者：Reddy ; G. Bhanuprakash ; Narayanan ; Sriram ; Reddy ; P. Yadagiri ; Surolia ; Ira
• 关键词：α ; -Crystallin ; Heat shock protein-26 ; Abrin ; Insulin ; Molecular chaperone ; Small heat shock protein ; Hydrophobicity ; Gel filtration ; DTT ; dithiothreitol ; PBS ; phosphate-buffered saline ; sHSP ; small heat shock protein
• 刊名：FEBS Letters
• 出版年：2002
• 出版时间：July 3, 2002
• 年：2002
• 卷：522
• 期：1-3
• 页码：59-64
• 全文大小：360 K

文摘

The eye lens small heat shock proteins (sHSP), αA- and αB-crystallins, have been shown to function like molecular chaperones, both in vitro and in vivo. It is essential to assess the protective effect of αA- and αB-crystallins under native conditions to extrapolate the results to in vivo conditions. Insulin and α-lactalbumin have widely been used to investigate the chaperone mechanism of α-crystallin under native conditions. Due to its smaller size, insulin B-chain may not represent the binding of putative physiological substrate proteins. As it stands, the aggregation of α-lactalbumin and binding of α-crystallin to it varies under different experimental conditions. Abrin, a ribosome inactivating protein isolated from the seeds of Abrus precatorius, consists of a 30 kDa A-chain and a lectin-like B-chain of 33 kDa joined by a single disulfide bond. Reduction of the disulfide link between the two chains of abrin leads to the aggregation of the B-chain. In this study, we demonstrate that dithiothreitol (DTT)-induced aggregation of abrin B-chain could be monitored by light scattering similar to that of insulin. Moreso, this process could be suppressed by recombinant human αA- and αB-crystallins in a concentration dependent manner, notably by binding to aggregation prone abrin B-chain. SDS–PAGE and HPLC gel filtration analysis indicate that there is a soluble complex formation between α-crystallin and abrin B-chain. Interestingly, in contrast to insulin, there is no significant difference between αA- and αB-crystallin in suppressing the aggregation of abrin B-chain at two different temperatures (25 and 37°C). HSP26, an another small heat shock/α-crystallin family protein, was also able to prevent the DTT-induced aggregation of abrin. These results suggest that due to relatively larger size of its B-chain (33 kDa), compared to insulin B-chain (about 3 kDa), abrin may serve as a better model substrate for in vitro chaperone studies of α-crystallin and as well as other sHSP.