Division of Integrative Physiology, Department of Medical Cell Biology, Uppsala University, Uppsala, Sweden.
Matrix Biol. 2009 Sep;28(7):390-5. doi: 10.1016/j.matbio.2009.07.002. Epub 2009 Jul 25.
Hyaluronan is a large glycosaminoglycan that is abundant in the interstitium of the renal medulla/papilla. Papillary hyaluronan increases during hydration and decreases during dehydration. Due to its gel properties and ability to retain large volumes of water, hyaluronan plays a role in renal water handling by affecting the permeability characteristics of the papillary interstitium. The focus of the present investigation was the regulation of hyaluronan metabolism in the kidney, especially during variations in hydration status. In control papillas, HAS 2 mRNA was heavily expressed and HAS 1 and 3 mRNA were weakly distributed. HYALs 1-3 mRNA were found at high expression and HYAL 4 was only weakly expressed. In hydrated animals, the diuretic response (12-fold) was followed by a 58% elevation in papillary hyaluronan and a 45% reduction in the excreted urinary hyaluronidase activity. No difference was determined in HAS 1-3 mRNA or HYAL 1, 3-4 mRNA expression, suggesting a change in activity rather than amount of protein. In dehydrated animals, antidiuresis was followed by a 22% reduction in papillary hyaluronan and a 62% elevation in excreted urinary hyaluronidase activity. Plasma vasopressin was 2.8-fold higher in dehydrated vs. hydrated rats. In conclusion, HAS 2 appears a major contributor to the baseline levels of hyaluronan. Reduced HAS 2 gene expression and increased excreted urinary hyaluronidase activity during dehydration contribute to the reduced amount of hyaluronan and to antidiuretic response.
透明质酸是一种大量的糖胺聚糖,在肾髓质/乳头的间质中丰富存在。乳头透明质酸在水合作用期间增加,在脱水期间减少。由于其凝胶特性和保留大量水分的能力,透明质酸通过影响乳头间质的通透性特征在肾脏水管理中发挥作用。本研究的重点是调节肾脏中的透明质酸代谢,特别是在水合状态变化期间。在对照乳头中,HAS 2 mRNA 大量表达,HAS 1 和 3 mRNA 分布较弱。HYALs 1-3 mRNA 表达水平高,HYAL 4 表达水平较弱。在水合动物中,利尿反应(12 倍)后,乳头透明质酸增加 58%,尿液透明质酸酶活性降低 45%。HAS 1-3 mRNA 或 HYAL 1、3-4 mRNA 表达没有差异,表明是酶活性而不是蛋白量的变化。在脱水动物中,抗利尿作用后,乳头透明质酸减少 22%,尿液透明质酸酶活性增加 62%。脱水大鼠的血浆血管加压素比水合大鼠高 2.8 倍。总之,HAS 2 似乎是透明质酸基线水平的主要贡献者。脱水时 HAS 2 基因表达降低和尿液中透明质酸酶活性增加导致透明质酸含量减少和抗利尿反应。
