葡萄糖诱导的假性缺氧和晚期糖基化终末产物解释了长期腹膜透析的腹膜损伤。

IF 2.7 3区 医学 Q2 UROLOGY & NEPHROLOGY Peritoneal Dialysis International Pub Date : 2024-01-01 Epub Date: 2023-09-18 DOI:10.1177/08968608231196033
Raymond T Krediet, Alena Parikova
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引用次数: 0

摘要

长期腹膜透析与腹膜形态和功能的改变有关。超滤功能受损是最重要的功能性改变,腹膜纤维化则是主要的形态学改变。两者都是由于持续暴露在透析液中造成的,透析液中的缓冲物质和极高浓度的葡萄糖不同于血浆水。葡萄糖被认为是腹膜长期变化的主要原因,但其确切机制尚未确定。我们认为,葡萄糖通过腹膜假缺氧和晚期糖基化终产物(AGEs)的形成导致膜改变。在总结了超滤动力学,包括葡萄糖转运体(GLUT)的作用,讨论了形态学改变、功能与形态学之间的关系以及超滤衰竭(UFF)的发病机理之后,我们将论证超滤功能受损的部分原因是 AGE 相关血管病变导致的小孔液体转运减少,更重要的原因是腹膜细胞表达的 GLUT-1 增加导致假缺氧引起的自由水转运减少。我们将回顾细胞内葡萄糖的代谢过程。这发生在糖酵解和多元醇/山梨醇途径中,后者在大量供应的情况下被激活。在这两种途径中,还原型和氧化型烟酰胺二核苷酸的比率(NADH/NAD+比率)都会增加,特别是因为正常的代偿机制可能会受损,并激活缺氧诱导因子-1(HIF-1)的表达。HIF-1 基因会激活各种组织坏死因子和 GLUT-1。除了替代葡萄糖作为渗透剂外,目前医学治疗/预防仅限于他莫昔芬和可能的肾素/血管紧张素/醛固酮(RAA)抑制剂。
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Glucose-induced pseudohypoxia and advanced glycosylation end products explain peritoneal damage in long-term peritoneal dialysis.

Long-term peritoneal dialysis is associated with the development of peritoneal membrane alterations, both in morphology and function. Impaired ultrafiltration (UF) is the most important functional change, and peritoneal fibrosis is the major morphological alteration. Both are caused by the continuous exposure to dialysis solutions that are different from plasma water with regard to the buffer substance and the extremely high-glucose concentrations. Glucose has been incriminated as the major cause of long-term peritoneal membrane changes, but the precise mechanism has not been identified. We argue that glucose causes the membrane alterations by peritoneal pseudohypoxia and by the formation of advanced glycosylation end products (AGEs). After a summary of UF kinetics including the role of glucose transporters (GLUT), and a discussion on morphologic alterations, relationships between function and morphology and a survey of the pathogenesis of UF failure (UFF), it will be argued that impaired UF is partly caused by a reduction in small pore fluid transport as a consequence of AGE-related vasculopathy and - more importantly - in diminished free water transport due to pseudohypoxia, caused by increased peritoneal cellular expression of GLUT-1. The metabolism of intracellular glucose will be reviewed. This occurs in the glycolysis and in the polyol/sorbitol pathway, the latter is activated in case of a large supply. In both pathways the ratio between the reduced and oxidised form of nicotinamide dinucleotide (NADH/NAD+ ratio) will increase, especially because normal compensatory mechanisms may be impaired, and activate expression of hypoxia-inducible factor-1 (HIF-1). The latter gene activates various profibrotic factors and GLUT-1. Besides replacement of glucose as an osmotic agent, medical treatment/prevention is currently limited to tamoxifen and possibly Renin/angiotensis/aldosteron (RAA) inhibitors.

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来源期刊
Peritoneal Dialysis International
Peritoneal Dialysis International 医学-泌尿学与肾脏学
CiteScore
6.00
自引率
17.90%
发文量
69
审稿时长
6-12 weeks
期刊介绍: Peritoneal Dialysis International (PDI) is an international publication dedicated to peritoneal dialysis. PDI welcomes original contributions dealing with all aspects of peritoneal dialysis from scientists working in the peritoneal dialysis field around the world. Peritoneal Dialysis International is included in Index Medicus and indexed in Current Contents/Clinical Practice, the Science Citation Index, and Excerpta Medica (Nephrology/Urology Core Journal). It is also abstracted and indexed in Chemical Abstracts (CA), as well as being indexed in Embase as a priority journal.
期刊最新文献
Iodine starch test in a peritoneal dialysis-related hydrothorax. Pulsed peritoneal dialysis in an experimental rat model: A first experience. Severe uterovaginal prolapse and start of peritoneal dialysis: Role of colpocleisis surgery. Report of two cases. Colostomy formation in a peritoneal dialysis patient. Establishing a peritoneal dialysis technique survival core outcome measure: A standardised outcomes in nephrology-peritoneal dialysis consensus workshop report.
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