RESPONSE OF RENAL CELLS TO OSMOTIC STRESS

肾细胞对渗透压的反应

• 批准号: 6290397
• 负责人: MAURICE BENJAM BURG
• 金额: --
• 依托单位: NATIONAL HEART, LUNG, AND BLOOD INSTITUTE
• 依托单位国家: 美国
• 资助国家: 美国
• 起止时间: 至
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/6290397
• 关键词: Animalia; betaine compound; blood osmolarity; cell morphology; cell osmotic pressure; glycerophosphorylcholine; inositol; kidney cell; kidney function; renal medulla; sorbitol; taurine; tissue /cell culture

The osmolality of the blood in the renal inner medulla is high and varies with the urinary concentration. Both NaCl and urea are elevated. The medullary cells evidently survive and function in this adverse environment. The present studies are concerned with understanding the mechanisms involved. When cells are stressed by a high salt environment, they generally accumulate osmotically active organic solutes (osmolytes) in order to maintain a favorable internal milieu, while regulating their volume. We identified the organic osmolytes in renal inner medullary cells as glycerophosphocholine (GPC), betaine, sorbitol, taurine, and inositol, and showed that the osmolyte levels varied with urine concentration (and, presumably, medullary salt and urea concentrations). We are now using renal cell cultures and living animals to study the mechanism and control of osmoregulatory accumulation of these organic osmolytes. In addition, the acute response to high osmolality may include cell cycle arrest and apoptosis in proliferating cultures of renal medullary cells. We are studying the mechanisms involved. - IMCD cells organic osmolytes apoptosis

肾内髓质血液渗透压高，随尿液浓度变化而变化。氯化钠和尿素都升高了。显然，骨髓细胞在这种不利的环境中存活并发挥作用。目前的研究关注的是了解其中涉及的机制。当细胞受到高盐环境的胁迫时，它们通常会积累具有渗透活性的有机溶质(渗透压物质)，以维持良好的内部环境，同时调节其体积。我们鉴定了肾内髓细胞中的有机渗透物质为甘油磷胆碱(GPC)、甜菜碱、山梨醇、牛磺酸和肌醇，并表明渗透物质水平随尿液浓度(可能还有髓盐和尿素浓度)而变化。我们现在正在使用肾细胞培养和活体动物来研究这些有机渗透调节物质的渗透调节积累的机制和控制。此外，对高渗透压的急性反应可能包括肾髓质细胞增殖培养中的细胞周期停滞和凋亡。我们正在研究涉及的机制。-IMCD细胞有机渗透膜细胞凋亡