Reggio H, Dagorn J C
J Cell Biol. 1978 Sep;78(3):951-7. doi: 10.1083/jcb.78.3.951.
The formation of large aggregates by ionic interactions between acidic glucosaminoglycans and cationic secretory proteins has been proposed as one of the critical steps in the concentration process in the condensing vacuoles of secretory cells. In this paper, this hypothesis was tested by studies on the interactions between bovine chymotrypsinogen A and chondroitin sulfate as a simplified model. Small amounts of chondroitin sulfate were found able to induce chymotrypsinogen precipitation. Like zymogen granules, the resulting aggregates were moderately sensitive to ionic strength and insensitive to osmolality. Moreover, their pH dependence was similar to that of isolated zymogen granules. When sulfated glucosaminoglycans isolated from the zymogen granules of the guinea pig pancreas were used instead of chondroitin sulfate, the same kind of interactions with chymotrypsinogen were obtained. Our data support the hypothesis that the strong ionic interactions between those sulfated glucosaminoglycans and cationic proteins could be responsible for the concentration process.
酸性葡糖胺聚糖与阳离子分泌蛋白之间通过离子相互作用形成大聚集体,这被认为是分泌细胞浓缩泡中浓缩过程的关键步骤之一。在本文中,通过研究牛胰凝乳蛋白酶原A与硫酸软骨素之间的相互作用作为简化模型来检验这一假设。发现少量硫酸软骨素能够诱导胰凝乳蛋白酶原沉淀。与酶原颗粒一样,形成的聚集体对离子强度中度敏感,对渗透压不敏感。此外,它们对pH的依赖性与分离的酶原颗粒相似。当使用从豚鼠胰腺酶原颗粒中分离的硫酸化葡糖胺聚糖代替硫酸软骨素时,与胰凝乳蛋白酶原获得了相同类型的相互作用。我们的数据支持这样的假设,即那些硫酸化葡糖胺聚糖与阳离子蛋白之间的强离子相互作用可能是浓缩过程的原因。