Uptake of advanced glycation end products by proximal tubule epithelial cells via macropinocytosis

Chronic hyperglycaemia during diabetes leads to non-enzymatic glycation of proteins to form advanced glycation end products (AGEs) that contribute to nephropathy. We describe AGE uptake in LLC-PK1 and HK2 proximal tubule cell lines by macropinocytosis, a non-specific, endocytic mechanism. AGE–BSA induced dorsal circular actin ruffles and amiloride-sensitive dextran–TRITC uptake, significantly increased AGE–BSA–FITC uptake (167 ± 20% vs BSA control, p < 0.01) and was ezrin-dependent. AGE–BSA–FITC uptake was significantly inhibited by amiloride and inhibitors of Arf6, Rac1, racGEF Tiam1, PAK1 and actin polymerisation. AGE–BSA–FITC, Arf6 and PIP2 co-localised within dorsal circular actin ruffles. AGE–BSA increased PAK1 kinase activity (212 ± 41% vs control, p < 0.05) and protein levels of Tiam1, a Rac1 activator. AGE–BSA significantly increased TGF-β₁ protein levels (160 ± 6%, p < 0.001 vs BSA), which were significantly inhibited by inhibitors of Arf6 (82 ± 19%, p < 0.001 vs AGE) and actin polymerisation (107 ± 11%, p < 0.001 vs AGE), suggesting AGEs partially exert their profibrotic effects via macropinocytosis. PAK1 and PIP5Kγ siRNA significantly decreased AGE–BSA–FITC uptake (81 ± 6% and 64 ± 7%, respectively, p < 0.05 vs control for both), and AGE-stimulated TGF-β₁ protein release (99 ± 15% and 49 ± 8% of control, p < 0.05 and p < 0.001, respectively). Inhibition of AGE uptake by macropinocytosis inhibitors and a neutralising TGF-β antibody, reversed the AGE-induced decrease in surface Na⁺K⁺ATPase, suggesting AGE uptake by macropinocytosis may contribute to diabetic kidney fibrosis and/or EMT by modulating this pump. Understanding methods of cellular uptake and signalling by AGEs may lead to novel therapies for diabetic nephropathy.     

Effect of dietary advanced glycation end products on mouse liver

The exact pathophysiology of non-alcoholic steatohepatitis (NASH) is not known. Previous studies suggest that dietary advanced glycation end products (AGEs) can cause oxidative stress in liver. We aim to study the effects of dietary AGEs on liver health and their possible role in the pathogenesis of NASH. METHODS: Two groups of mice were fed the same diet except the AGE content varied. One group was fed a high AGE diet and the second group was fed a regular AGE diet. Liver histology, alanine aminotransferase, aspartate aminotransferase, fasting glucose, fasting insulin, insulin resistance and glucose tolerance were assessed. RESULTS: Histology revealed that neutrophil infiltration occurred in the livers of the high AGE group at week 26; steatosis did not accompany liver inflammation. At week 39 livers from both groups exhibited macro- or micro-steatosis, yet no inflammation was detected. Higher insulin levels were detected in the regular AGE group at week 26 (P = 0.034), compared to the high AGE group. At week 39, the regular AGE group showed higher levels of alanine aminotransferase (P<0.01) and aspartate aminotransferase (P = 0.02) than those of the high AGE group. CONCLUSIONS: We demonstrate that a high AGE diet can cause liver inflammation in the absence of steatosis. Our results show that dietary AGEs could play a role in initiating liver inflammation contributing to the disease progression of NASH. Our observation that the inflammation caused by high AGE alone did not persist suggests interesting future directions to investigate how AGEs contribute to pro-oxidative and anti-oxidative pathways in the liver.     

Effect of collagen turnover on the accumulation of advanced glycation end products

Collagen molecules in articular cartilage have an exceptionally long lifetime, which makes them susceptible to the accumulation of advanced glycation end products (AGEs). In fact, in comparison to other collagen-rich tissues, articular cartilage contains relatively high amounts of the AGE pentosidine. To test the hypothesis that this higher AGE accumulation is primarily the result of the slow turnover of cartilage collagen, AGE levels in cartilage and skin collagen were compared with the degree of racemization of aspartic acid (% d-Asp, a measure of the residence time of a protein). AGE (N(epsilon)-(carboxymethyl)lysine, N(epsilon)-(carboxyethyl)lysine, and pentosidine) and % d-Asp concentrations increased linearly with age in both cartilage and skin collagen (p < 0.0001). The rate of increase in AGEs was greater in cartilage collagen than in skin collagen (p < 0.0001). % d-Asp was also higher in cartilage collagen than in skin collagen (p < 0.0001), indicating that cartilage collagen has a longer residence time in the tissue, and thus a slower turnover, than skin collagen. In both types of collagen, AGE concentrations increased linearly with % d-Asp (p < 0.0005). Interestingly, the slopes of the curves of AGEs versus % d-Asp, i.e. the rates of accumulation of AGEs corrected for turnover, were identical for cartilage and skin collagen. The present study thus provides the first experimental evidence that protein turnover is a major determinant in AGE accumulation in different collagen types. From the age-related increases in % d-Asp the half-life of cartilage collagen was calculated to be 117 years and that of skin collagen 15 years, thereby providing the first reasonable estimates of the half-lives of these collagens.     

渐进性糖化终产物与糖尿病肾病

高级糖化终末产物(advanced glycation end product,AGE)参与了糖尿病、动脉粥样硬化、癌症等多种疾病的发生和发展,尤其是其导致的糖尿病肾病(diabetic nephropathy,DN)是终末期肾衰竭的主要病因,因此探索以AGEs为靶点的DN治疗手段成为了国内外研究的热点。本文概述了国内外关于AGE参与DN的发病机制,靶向AGE的DN治疗策略,以及天然中药基于AGE为靶点干预DN的研究进展,初步探讨了靶向AGE的DN天然药物的筛选模型。     

Inhibition of nitric oxide synthase activity by early and advanced glycation end products in cultured rabbit proximal tubular epithelial cells

Nitric oxide (NO) is important in the regulation of renal tubular function. We have investigated whether glycated proteins could impair the NO production by examining the effects of Amadori products (AP-BSA) and advanced glycation end products (AGE-BSA) on primary cultures of rabbit proximal tubular epithelial (PTE) cells. Nitric oxide synthase activity was assessed by measurement of the conversion of L-arginine to L-citrulline and by production of NO, after short-term (30 min) or long-term (1 or 3 days) incubation. Short incubations of PTE cells with either 200 microg/ml AP-BSA or 40 microg/ml AGE-BSA significantly decreased NO production. AP-BSA (3000 microg/ml) inhibited the Ca(2+)-dependent NOS activity even though above 50 microg/ml it increased Ca(2+)-independent NOS activity. In contrast, 40 microg/ml AGE-BSA inhibited both isoforms of NOS. Longer incubations with 200 microg/ml AP-BSA or 250 microg/ml AGE-BSA decreased NO release and inhibited Ca(2+)-dependent and -independent NOS activities. APs did not affect NO release by S-nitroso-N-acetyl-penicillamine (SNAP), while 250 microg/ml AGEs decreased it. After 3 days incubation, glycation products had no effect on the NOS cell content. Cell viability and proliferation were not modified under these experimental conditions, suggesting that the fall in NO production was not due to there being fewer cells. These data indicate that APs and AGEs directly inhibit NOS activity, and additionally that AGEs quench released NO. Thus, both types of glycated proteins alter the production of NO by PTE cells and could participate in the renal tubule dysfunction associated with aging and diabetes.     

Regulation of heparanase by albumin and advanced glycation end products in proximal tubular cells

Diabetic nephropathy is one of the main causes of end-stage renal disease, in which the development of tubular damage depends on factors such as high glucose levels, albuminuria and advanced glycation end-product. In this study, we analyzed the involvement of heparanase, a heparan sulfate glycosidase, in the homeostasis of proximal tubular epithelial cells in the diabetic milieu. In vitro studies were performed on a wild-type and stably heparanase-silenced adult tubular line (HK2) and HEK293. Gene and protein expression analyses were performed in the presence and absence of diabetic mediators. Albumin and advanced glycation end-product, but not high glucose levels, increased heparanase expression in adult tubular cells via the AKT/PI3K signaling pathway. This over-expression of heparanase is then responsible for heparan sulfate reduction via its endoglycosidase activity and its capacity to regulate the heparan sulfate-proteoglycans core protein. In fact, heparanase regulates the gene expression of syndecan-1, the most abundant heparan sulfate-proteoglycans in tubular cells. We showed that heparanase is a target gene of the diabetic nephropathy mediators albumin and advanced glycation end-product, so it may be relevant to the progression of diabetic nephropathy. It could take part in several processes, e.g. extracellular-matrix remodeling and cell-cell crosstalk, via its heparan sulfate endoglycosidase activity and capacity to regulate the expression of the heparan sulfate-proteoglycan syndecan-1.     

Studies on advanced glycation end products by recent mass spectrometric techniques

Summary The results obtained by different mass spectrometric approaches in the field of advanced glycation of proteins are reported and discussed in detail in comparison with those obtained by other analytical methodologies (fluorescence and absorbance spectroscopies, radioimmunoassay, enzyme-linked immunosorbent assay). They have been subdivided in three main groups: analysis on degraded glycated proteins, direct analysis of glycated proteins and studies on the reaction between protected lysine and glucose. The general overview so achieved indicate mass spectrometry as a particularly valid analytical method in this field of research.     

Participation of the receptor for advanced glycation end products in efferocytosis

Clearance of apoptotic cells by macrophages and other phagocytic cells, called efferocytosis, is a central process in the resolution of inflammation. Although the receptor for advanced glycation end products (RAGE) has been shown to participate in a variety of acute and chronic inflammatory processes in the lungs and other organs, a role for RAGE in efferocytosis has not been reported. In the present studies, we examined the potential involvement of RAGE in efferocytosis. Macrophages from transgenic RAGE(-/-) mice showed a decreased ability to engulf apoptotic neutrophils and thymocytes. Pretreatment of RAGE(+/+) macrophages with advanced glycation end products, which competitively bind to RAGE, or Abs against RAGE diminished phagocytosis of apoptotic cells. Overexpression of RAGE in human embryonic kidney 293 cells resulted in an increased ability to engulf apoptotic cells. Furthermore, we found that incubation with soluble RAGE enhances phagocytosis of apoptotic cells by both RAGE(+/+) and RAGE(-/-) macrophages. Direct binding of RAGE to phosphatidylserine (PS), an "eat me" signal highly expressed on apoptotic cells, was shown by using solid-phase ELISA. The ability of RAGE to bind to PS on apoptotic cells was confirmed in an adhesion assay. Decreased uptake of apoptotic neutrophils by macrophages was found under in vivo conditions in the lungs and peritoneal cavity of RAGE(-/-) mice. These results demonstrate a novel role for RAGE in which it is able to enhance efferocytosis through binding to PS on apoptotic cells.     

晚期糖基化终产物在糖尿病肾病中的病理作用

高糖环境下体内积聚的晚期糖基化终产物(advanced glycation end products,AGEs)是糖尿病慢性并发症的主要致病因素.AGEs可通过对蛋白的修饰直接作用于机体或通过受体介导的作用影响机体.本文就AGEs的来源、病理生理作用,尤其是在糖尿病肾病(diabetic nephropathy,DN)发生发展中的作用及治疗干预作一综述.     

Induction of aldose reductase in cultured human microvascular endothelial cells by advanced glycation end products

Accelerated formation and accumulation of advanced glycation end products, as well as increased flux of glucose through polyol pathway, have been implicated in the pathogenesis of diabetic vascular complications. We investigated effects of advanced glycation end products on the levels of aldose reductase mRNA, protein, and activity in human microvascular endothelial cells. When endothelial cells were cultured with highly glycated bovine serum albumin, aldose reductase mRNA in endothelial cells demonstrated concentration-dependent elevation. The increase in aldose reductase mRNA was accompanied by elevated protein expression and enzyme activity. Significant increase in the enzyme expression was also observed when endothelial cells were cultured with serum obtained from diabetic patients with end-stage renal disease. Pretreatment of the endothelial cells with probucol or vitamin E prevented the advanced glycation end products-induced increases in aldose reductase mRNA and protein. Electrophoretic mobility shift assays using the nuclear extracts of the endothelial cells treated with advanced glycation end products showed enhancement of specific DNA binding activity for AP-1 consensus sequence. These results indicate that accelerated formation of advanced glycation end products in vivo may elicit activation of the polyol pathway, possibly via augmented oxidative stress, and amplify endothelial cell damage leading to diabetic microvascular dysfunction.     

Incadronate disodium inhibits advanced glycation end products-induced angiogenesis in vitro

We report here a genetic assay suitable for detecting site-specific proteolysis in secretory pathways. The yeast enzyme invertase is linked to the truncated lumenal region of the yeast Golgi membrane protein STE13 via a protease substrate domain in a Saccharomyces cerevisiae strain lacking invertase. When the substrate is cleaved by a specific protease, the invertase moiety is released into the periplasmic space where it degrades sucrose to glucose and fructose. Therefore, site-specific proteolysis can be detected by monitoring the growth of yeast cells on selective media containing sucrose as the sole carbon source. We confirmed the validity of this assay with yeast Kex2 and human TMPRSS2 proteases. Our data suggest that this in vivo assay is an efficient method for the determination of substrate specificity and mutational analysis of secreted or membrane proteases.     

In vitro glycoxidation of insoluble fibrous type I collagen: solubilization and advanced glycation end products

The deleterious effects of glycoxidation are dependent on the half-life of proteins. Collagen, the main component of extracellular matrices, is a long live protein and thus may be sensitive to the glycoxidation process. We incubated calf skin fibrous type I collagen in PBS at 37 degrees C with glucose. The fibrous type I collagen was solubilized and an increase in the amount of advanced glycation end products of the solubilized fraction was observed. As there was no bacterial contamination and no proteolytic activities in the incubation medium, the solubilization of fibrous type I collagen is probably due to the speculative production of the free radicals in our experimental conditions. To test this hypothesis, fibrous type I collagen was incubated in PBS with AAPH (2,2'azo-bis 2-aminodinopropane) a free radicals generator. AAPH induced a dramatic and dose dependent solubilization of fibrous type I collagen.     

Receptor for advanced glycation end products expression on T cells contributes to antigen-specific cellular expansion in vivo

Receptor for advanced glycation end products (RAGE) is an activation receptor triggered by inflammatory S100/calgranulins and high mobility group box-1 ligands. We have investigated the importance of RAGE on Ag priming of T cells in murine models in vivo. RAGE is inducibly up-regulated during T cell activation. Transfer of RAGE-deficient OT II T cells into OVA-immunized hosts resulted in reduced proliferative responses that were further diminished in RAGE-deficient recipients. Examination of RAGE-deficient dendritic cells did not reveal functional impairment in Ag presentation, maturation, or migratory capacities. However, RAGE-deficient T cells showed markedly impaired proliferative responses in vitro to nominal and alloantigens, in parallel with decreased production of IFN-gamma and IL-2. These data indicate that RAGE expressed on T cells is required for efficient priming of T cells and elucidate critical roles for RAGE engagement during cognate dendritic cell-T cell interactions.     

Reduced cell replication and induction of apoptosis by advanced glycation end products in rat Schwann cells

We investigated the effects of advanced glycation end products (AGEs) derived from glucose, glyceraldehyde, and glycolaldehyde (designated as AGE-1, -2, and -3, respectively) on the viability, replication rate, and cytokine production of cultured Schwann cells. AGE-2 and -3, but not AGE-1, induced apoptosis, and significantly decreased the viability measured by MTT assay. The decrease was prevented completely by antioxidant alpha-lipoic acid and was prevented partially by p38 mitogen-activated protein kinase inhibitor SB202190. The decrease in mitochondrial membrane potential by AGE-2 and -3 was also observed. In addition, AGE-2 and -3 significantly suppressed the replication rate as shown by reduced bromodeoxyuridine uptake, whereas they enhanced the release of TNF-alpha and IL-1beta into the medium and activated nuclear factor-kappaB. The effects of AGE-1 on these measures were equivocal. The series of events elicited by AGE-2 and -3 may be responsible for some of the aspects of pathogenetic mechanisms in patients with diabetic neuropathy.     

The role of advanced glycation end products in retinal ageing and disease

The retina is exposed to a lifetime of potentially damaging environmental and physiological factors that make the component cells exquisitely sensitive to age-related processes. Retinal ageing is complex and a raft of abnormalities can accumulate in all layers of the retina. Some of this pathology serves as a sinister preamble to serious conditions such as age-related macular degeneration (AMD) which remains the leading cause of irreversible blindness in the Western world.     

Rutin metabolites: Novel inhibitors of nonoxidative advanced glycation end products

Glycation is a nonenzymatic condensation reaction between reducing sugars and amino groups of proteins that undergo rearrangements to stable ketoamines, leading to the formation of advanced glycation end products (AGEs) including fluorescent (argpyrimidine) and nonfluorescent (N^ε-carboxymethyllysine; CML) protein adducts and protein cross-links. AGEs are formed via protein glycation and correlate with processes resulting in aging and diabetes complications. Reactive carbonyl species such as glyoxal and methylglyoxal are ubiquitous by-products of cell metabolism that potently induce the formation of AGEs by nonenzymatic protein glycation and may achieve plasma concentrations of 0.3–1.5 μmol/L. In this in vitro study histone H1 glycation by glyoxal, methylglyoxal, or ADP-ribose was used to model nonoxidative protein glycation, permitting us to distinguish specific AGE inhibition from general antioxidant action. Rutin derivatives were tested as AGE inhibitors because rutin, a common dietary flavonoid that is consumed in fruits, vegetables, and plant-derived beverages, is metabolized by gut microflora to a range of phenolic compounds that are devoid of significant antioxidant activity and achieve blood concentrations in the μmol/L range. Our data show that in a 1:1 stoichiometry with glyoxal or methylglyoxal, 3,4-dihydroxyphenylacetic acid (DHPAA) and 3,4-dihydroxytoluene (DHT) are powerful inhibitors of CML and argpyrimidine histone H1 adduct formation, respectively. Furthermore, when DHPAA and DHT were tested as inhibitors of histone H1 glycation by the powerful glycating agent ADP-ribose, they inhibited glycation as effectively as aminoguanidine. These results suggest that dietary flavonoids may serve as effective AGE inhibitors and suggest mechanisms whereby fruit- and vegetable-rich diets contribute to the prevention of processes resulting in aging and diabetes complications.     

晚期糖化终产物诱导内皮细胞通透性增高

本文探讨了晚期糖化终产物(advanrced glycation end products,AGEs)修饰蛋白对内皮细胞通透性及细胞骨架肌动蛋白的形态学影响,以及特异的AGEs受体(receptors for AGEs,RAGE)、氧化应激和p38 MAPK通路在此病理过程中的作用。用不同浓度的AGEs修饰人血清白蛋白(AGE-HSA)与人脐静脉内皮细胞株ECV304在体外共同培养不同时间,并设立对照组进行比较,采用TRITC荧光标记白蛋白漏出法测定单层内皮细胞的通透系数Pa值,荧光染色法示细胞骨架的形态学改变。与对照组相比,AGE-HSA以时间和剂量依赖的方式引起单层内皮细胞通透性的升高及细胞骨架肌动蛋白F-actin形态的改变;可溶性RAGE的抗体(anti-RAGE IgG)、NADPH氧化酶抑制剂(apocynin)及p38抑制剂SB203580均可减轻AGEs对内皮细胞屏障功能和形态的影响。结果提示,AGEs修饰蛋白对单层内皮细胞通透性及骨架重排的作用可能通过与内皮细胞上的RAGE结合,引起细胞内的氧化应激,并激活p38 MAPK通路所介导。     

Rat lens epithelial cells in vitro

Summary Lens epithelial cells from rats aged 5 days were grown in long-term cultures. These cells age, differentiate and transform spontaneously. Morphological observations indicate five different stages (A-E). The epithelial character is lost after the first two passages. Elongated cells appearing afterwards are considered as cells that have started differentiation to fiberlike cells. Big flattened cells are considered as senescent cells that have lost their proliferative capacity. Data from population kinetics also reflect these five stages. Chromosome analysis shows that three of the five stages are no longer diploid. Two alternative modes of spontaneous transformation are possible. The proliferative capacity of rat lens epithelial cells is higher than that of rat embryonic fibroblast systems. The investigations were supported by the Deutsche Forschungsgemeinschaft (Biology of Aging, Grants Ri 285/2 and Ri 285/3).