Department of Bioengineering, University of California, Los Angeles, 90095, United States.
Biomacromolecules. 2013 Aug 12;14(8):2822-9. doi: 10.1021/bm400643p. Epub 2013 Jul 19.
Disulfide exchange is an important bioconjugation tool, enabling chemical modification of peptides and proteins containing free cysteines. We previously reported the synthesis of a macromer bearing an activated disulfide and its incorporation into hydrogels. Despite their ability to diffuse freely into hydrogels, larger proteins were unable to undergo in-gel disulfide exchange. In order to understand this phenomenon, we synthesized four different activated disulfide-bearing model compounds (Mn = 300 Da to 10 kDa) and quantified their rate of disulfide exchange with a small peptide (glutathione), a moderate-sized protein (β-lactoglobulin), and a large protein (bovine serum albumin) in four different pH solutions (6.0, 7.0, 7.4, and 8.0) to mimic biological systems. Rate constants of exchange depend significantly on the size and accessibility of the thiolate. pH also significantly affects the rate of reaction, with the faster reactions occurring at higher pH. Surprisingly, little difference in exchange rates is seen between macromolecular disulfides of varying size (Mn = 2 kDa - 10 kDa), although all undergo exchange more slowly than their small molecule analogue (MW = 300 g/mol). The maximum exchange efficiencies (% disulfides exchanged after 24 h) are not siginificantly affected by thiol size or pH, but somewhat affected by disulfide size. Therefore, while all three factors investigated (pH, disulfide size, and thiolate size) can influence the exchange kinetics and extent of reaction, the size of the thiolate and its accessibility plays the most significant role.
二硫键交换是一种重要的生物偶联工具,可实现含有游离半胱氨酸的肽和蛋白质的化学修饰。我们之前报道了一种含有活化二硫键的大分子单体的合成及其在水凝胶中的掺入。尽管它们能够自由扩散到水凝胶中,但较大的蛋白质无法在凝胶中进行二硫键交换。为了理解这一现象,我们合成了四种不同的含有活化二硫键的模型化合物(Mn = 300 Da 至 10 kDa),并在四种不同的 pH 值溶液(6.0、7.0、7.4 和 8.0)中定量研究了它们与小肽(谷胱甘肽)、中等大小的蛋白质(β-乳球蛋白)和大蛋白质(牛血清白蛋白)的二硫键交换速率,以模拟生物体系。交换速率常数显著取决于硫醇盐的大小和可及性。pH 值也显著影响反应速率,较高的 pH 值下反应更快。令人惊讶的是,不同大小的大分子二硫键(Mn = 2 kDa-10 kDa)之间的交换速率差异很小,尽管它们的交换速度都比小分子类似物(MW = 300 g/mol)慢。最大交换效率(24 小时后交换的二硫键百分比)不受硫醇大小或 pH 值的显著影响,但受二硫键大小的影响稍大。因此,虽然所研究的三个因素(pH 值、二硫键大小和硫醇盐大小)都会影响交换动力学和反应程度,但硫醇盐的大小和可及性起着最重要的作用。