Pro- and Anti-Inflammatory Prostaglandins and Cytokines in Humans: A Mini Review

Inflammation has been described for two millennia, but cellular aspects and the paradigm involving different mediators have been identified in the recent century. Two main groups of molecules, the prostaglandins (PG) and the cytokines, have been discovered and play a major role in inflammatory processes. The activation of prostaglandins PGE2, PGD2 and PGI2 results in prominent symptoms during cardiovascular and rheumatoid diseases. The balance between pro- and anti-inflammatory compounds is nowadays a challenge for more targeted therapeutic approaches. The first cytokine was described more than a century ago and is now a part of different families of cytokines (38 interleukins), including the IL-1 and IL-6 families and TNF and TGFβ families. Cytokines can perform a dual role, being growth promotors or inhibitors and having pro- and anti-inflammatory properties. The complex interactions between cytokines, vascular cells and immune cells are responsible for dramatic conditions and lead to the concept of cytokine storm observed during sepsis, multi-organ failure and, recently, in some cases of COVID-19 infection. Cytokines such as interferon and hematopoietic growth factor have been used as therapy. Alternatively, the inhibition of cytokine functions has been largely developed using anti-interleukin or anti-TNF monoclonal antibodies in the treatment of sepsis or chronic inflammation.

Changes in Glycation and Oxidation Markers in Patients Starting Peritoneal Dialysis: A Pilot Study

Background

The high incidence of cardiovascular disease in uremic patients makes it a major cause of morbidity and mortality in those patients. Uremia is associated with carbonyl and oxidative stress, which result in the enhanced formation of glycation and oxidation products respectively. In the present study, the blood levels of advanced glycation end products (AGEs) and advanced oxidation protein products (AOPPs) were investigated in uremic patients prior to and after initiation of peritoneal dialysis (PD).

Methods

22 patients [11 nondiabetic (G1) and 11 diabetic (G2) subjects] were enrolled in a single-center prospective study. Prior to starting PD (T0) and 6 and 12 months later, changes in AGE and AOPP levels were analyzed in the total study population and in each group (Friedman test, intragroup). At each time point, a comparison was made between the levels of the above-mentioned products in G1 and G2 (Mann–Whitney test, intergroup). Correlations between AGE or AOPP levels and residual renal function, peritoneal creatinine clearance, glucose peritoneal equilibration test, or daily dextrose exposure were analyzed using the Pearson test.

Results

At T0, no significant difference was found between the two groups for AGE or AOPP levels. Initiation of PD was followed by an increase in AGE levels in all patients ( p < 0.01 at 6 and 12 months). AGE levels were higher in G2 than in G1 at 12 months after the start of PD ( p < 0.05). In contrast to G2 results, initiation of PD in G1 led to reduced AOPP levels (at 6 and 12 months, p = 0.01 and p < 0.05 respectively). However, no correlation between AGE or AOPP levels and residual renal function, peritoneal creatinine clearance, glucose peritoneal equilibration test, or daily dextrose exposure could be established.

Conclusion

This study demonstrates that PD is associated with an increase in levels of blood glycation end products, particularly in diabetic patients, but also with a decrease in oxidative products such as AOPPs, especially in nondiabetic subjects.

ImprovedIn VitroBiocompatibility of Bicarbonate-Buffered Peritoneal Dialysis Fluid

Background

Conventional peritoneal dialysis fluids (PDFs) have been shown to damage the mesothelial layer and are associated with the development of peritoneal fibrosis and neoangiogenesis. New-generation PDFs have therefore been developed with physiological pH and reduced levels of glucose degradation products (GDPs), precursors of advanced glycation end products (AGEs). In this work, we evaluated and compared the improved biocompatibility of two new-generation PDFs (Balance and bicaVera) using mesothelial cell biology; we also compared them to a standard PDF (stay·safe) (all PDFs by Fresenius Medical Care, Fresnes, France).

Methods

stay·safe, Balance, and bicaVera were tested for their effect on human peritoneal mesothelial cell (HPMC) viability by measuring cell proliferation and apoptosis, and oncosis induction. The formation of AGEs was evaluated by immunoassay. Transforming growth factor beta-1 and vascular endothelial growth factor (VEGF) were immunoassayed in HPMC supernatants exposed to the above PDFs.

Results

At 15 g/L glucose concentration, HPMC exposure to bicaVera resulted in higher cell proliferation compared to Balance ( p < 0.001) and stay·safe ( p < 0.001). Compared to the lactate-buffered PDFs (Balance and stay·safe), oncosis was significantly lower in cells exposed to bicaVera ( p < 0.05). bicaVera, containing lower amounts of GDPs, generated less AGE formation ( p < 0.05) and VEGF production ( p < 0.05) than either Balance or stay·safe.

Conclusions

New-generation PDFs with physiological pH and lower GDP levels, especially if bicarbonate-buffered (bicaVera), have fewer in vitro toxic effects on mesothelial cells and may contribute to peritoneal preservation, thus improving long-term treatment of PD patients.

Human Platelet Antigen 3 (HPA-3): Localization of the Determinant of the Alloantibody Leka (HPA-3a) to the C-Terminus of Platelet Glycoprotein IIb Heavy Chain and Contribution of O-Linked Carbohydrates

The human platelet antigen (HPA) 3 system is expressed on GPIIb, one subunit of GPIIb-IIIa, the platelet fibrinogen receptor. It was recently shown that HPA-3 was associated with an Ile843/Ser polymorphism. To investigate further HPA-3 determinant structure, we localized an HPA-3a determinant, recognized by the alloantiserum Leka, within the last 29 amino acids of GPIIbα. This region encompasses the polymorphic Ile843, which, as expected, is substituted into Ser in Leka-negative individuals, as shown by DNA sequence after polymerase chain reaction on platelet RNA. In addition, contribution of glycosylation to the determinant structure was demonstrated since the Leka antigenicity was strongly decreased after specifically removing nonterminal O-linked sugars, but not terminal sialic acids. We have thus refined the localization of an HPA-3a determinant within the last 29 amino acids, including Ile843, of GPIIb heavy chain, and shown that the Leka HPA-3a determinant is dependent, in part, upon the serine-linked carbohydrates adjacent to Ile/Ser843.

Increased Procoagulant Response of Monocytes from Patients with Familial Mediterranean Fever

Familial Mediterranean Fever (FMF) is an inherited disease of unknown etiology characterized by recurrent inflammatory episodes. Circulating fibrin was found in patients with FMF in absence of clinical manifestation of thrombosis and was statistically less frequently observed in patients treated with colchicine. These results suggest a cellular dysfunction. Therefore, we examined the procoagulant activity (PCA) of isolated mononuclear leukocytes and purified monocytes from FMF patients (n = 20). No PCA was detectable on freshly-isolated monocytes. After several hours of culture, FMF monocytes contained more PCA than control cells and the difference was more marked after endotoxin stimulation. Data obtained with coagulation factor-deficient plasma and anti-human apoprotein III antiserum indicated that the enhanced PCA in FMF monocytes is thromboplastin-like. Lysozyme and interleukin 1 production by monocytes were similar in patients and controls. The increased monocyte PCA appears to be due to an intrinsic and selective higher responsiveness of monocytes.

IgG Binding to Endothelial Cells in Systemic Lupus Erythematosus

Endothelial-asSociated IgG were determined in 20 patients with systemic lupus erythematosis (SLE) - 8 of whom had a lupus anticoagulant (LA) and 6 a history of thrombosis. The binding of IgG present in patient plasma to cultured human endothelial cells was detected using radiolabeled staphylococcal protein A. Thirteen samples gave positive results and a significant association between endothelial-associated IgG and lupus anticoagulant was found (p <0.05). No statistically significant relationship with a previous history of thrombosis was found. These results suggest that the lupus anticoagulant may be directly involved in immune vascular injury induced by either antibodies or immune complexes in SLE.

First Component of Complement and Thrombosis

The previous demonstration of an association between the collagen-like region of Clq (subcomponent of the first component of complement) and human platelets and of the inhibitory properties of C1q on platelet adhesion and aggregation to or by collagen has led us to consider the first component of complement as a possible modulator of the platelet-collagen interaction. Since collagen represents a major component of the vessel wall, the modification of Cl could play a role in the development of thrombosis.

We have therefore studied two patients with abnormalities of complement (low or undetectable C1, C4, C2 and deficiency in C1 inhibitor) who presented with acquired angioneurotic oedema. Both patients had a history of multiple episodes of arterial and/or venous thrombosis.

Platelet associated C1q was decreased or undetectable, and this condition was associated with a specific increase of collagen induced aggregation thereby suggesting a possible mechanism for the recurrent thromboembolic episodes.

AGEs, macrophage colony stimulating factor and vascular adhesion molecule blood levels are increased in patients with diabetic microangiopathy

In vitro experiments and animal models indicate that advanced glycation end products (AGEs) may play a crucial role in the vascular dysfunctions observed in patients with diabetes mellitus. These results prompted us to study subrogate markers of inflammation or vascular dysfunction in type II diabetic patients. Monocyte count and activation are dependent upon macrophage colony stimulating factors (M-CSF). Soluble vascular cell adhesion molecule (sVCAM-1) blood levels have been proposed as a marker for endothelium activation. To explore a possible relationship between these factors in diabetic patients, we measured a chemically defined AGE, N(carboxymethyl)lysineprotein (CML-protein) in a group of normal subjects (n = 55) and of diabetic patients (n = 40) using ELISA. Simultaneously, we determined M-CSF and sVCAM-1 blood levels. We found that CML-protein blood levels were significantly higher in patients with diabetes compared to non-diabetic subjects (40.2 ± 4.7 and 7.9 ± 0.7 pmol/mg protein respectively, p < 0.0001). M-CSF was increased while sVCAM-1 blood levels were normal in the group of diabetics. M-CSF blood level was correlated to CML-protein blood level (p < 0.05). In addition CML-protein, M-CSF and sVCAM-1 were increased in patients with microangiopathy. These results suggest that AGE may contribute to vascular dysfunction including microangiopathy.

Activation of the receptor for advanced glycation end products and consequences on health

Advanced glycation end products (AGE) resulted from a reaction between free amino group of proteins and carbohydrates. This reaction is followed by oxidation and molecular rearrangement. Alternatively AGEs can be produced by glycolysis and oxidation. AGEs bind to a cellular receptor RAGE. RAGE engagement by ligands AGE, β-amyloid peptide, and S100 calgranulin induces a stimulation of NADPH oxidase, reactive oxygen intermediate formation, NFκB activation and gene transcription. This cascade of reaction leads to an inflammatory reaction responsible for alteration of microvessels in the retina and the kidney. Blockade of RAGE by antibodies anti-RAGE, TTP488 (azeliragon), or rRAGE prevents or limits the deleterious effect of AGEs.

The different isoforms of the receptor for advanced glycation end products are modulated by pharmacological agents

Elevated glucose concentration increases oxidation and Advanced Glycation End product (AGE) formation. The binding of circulatory AGEs or AGEs included in erythrocyte membrane to the receptor for AGEs (RAGE) generates in endothelial cells an oxidative stress and enhances the expression of inflammatory molecules. Engagement of RAGE by AGEs and subsequent signaling plays an important role in the development of diabetic complications. Soluble RAGE isoforms (sRAGE) neutralize the ligand-mediated damage by acting as a decoy. If the expression of RAGE is upregulated during the pathogenesis of inflammatory diseases, sRAGE mostly found decreased when complications ensue. By modulating RAGE isoform expression, it could be possible to reduce the incidence of complications. This review focused on the capability of Angiotensin Receptor Blockers (ARBs), which are used to treat patients with hypertension and/or diabetes, to modulate RAGE isoform expression because some data reported the interference with RAGE downstream. In this regard, three ARBs - irbesartan, telmisartan, candesartan cilexetil - were tested and provided evidence for their ability to inhibit in human endothelial cells the expression of membrane-bound and soluble RAGE isoforms induced by the inflammatory factor Tumor Necrosis Factor-alpha (TNF-alpha), demonstrating the potential benefits of these molecules in RAGE-oriented therapies. Modulating RAGE isoforms expression by correcting endothelial dysfunction is achievable by drugs already used for hypertension or diabetes treatment such as ARBs.

Advanced glycation end products regulate extracellular matrix protein and protease expression by human glomerular mesangial cells

Advanced glycation end products (AGEs) may play a role in the pathogenesis of diabetic nephropathy, by modulating extracellular matrix turnover. AGEs are known to activate specific membrane receptors, including the receptor for AGE (RAGE). In the present study, we analyzed the various receptors for AGEs expressed by human mesangial cells and we studied the effects of glycated albumin and of carboxymethyl lysine on matrix protein and remodelling enzyme synthesis. Membrane RAGE expression was confirmed by FACS analysis. Microarray methods, RT-PCR, and Northern blot analysis were used to detect and confirm specific gene induction. Zymographic analysis and ELISA were used to measure the induction of tPA and PAI-1. We show herein that cultured human mesangial cells express AGE receptor type 1, type 2 and type 3 and RAGE. AGEs (200 microg/ml) induced at least a 2-fold increase in mRNA for 10 genes involved in ECM remodelling, including tPA, PAI-1 and TIMP-3. The increase in tPA synthesis was confirmed by fibrin zymography. The stimulation of PAI-1 synthesis was confirmed by ELISA. AGEs increased PAI-1 mRNA through a signalling pathway involving reactive oxygen species, the MAP kinases ERK-1/ERK-2 and the nuclear transcription factor NF-kappaB, but not AP-1. Carboxymethyl lysine (CML, 5 microM), which is a RAGE ligand, also stimulated PAI-1 synthesis by mesangial cells. In addition, a blocking anti-RAGE antibody partially inhibited the AGE-stimulated gene expression and decreased the PAI-1 accumulation induced by AGEs and by CML. Inhibition of AGE receptors or neutralization of the protease inhibitors TIMP-3 and PAI-1 could represent an important new therapeutic strategy for diabetic nephropathy.

Red blood cell adhesion in diabetes mellitus is mediated by advanced glycation end product receptor and is modulated by nitric oxide

Red blood cell (RBC) adhesion to endothelium is increased in diabetes mellitus and is correlated with the severity of vascular complications. Microangiopathy is the most frequent complications in patients suffering from diabetes mellitus. Elevated glucose concentration increases the oxidation phenomenon and advanced glycation end product (AGE) formation. Plasma proteins, structural proteins and also RBC proteins can be glycated such as glycated hemoglobin and RBC membrane proteins. Interaction of plasmatic AGE or RBC bearing AGE with the receptor for AGE (RAGE) alters vascular function leading to a vascular hyperpermeability inflammatory reaction including oxidant stress and cytokine production. Reactive oxygen species (ROS) react with nitric oxide (NO) limiting its vasodilatory effect and NO synthase function is altered. All these factors may be at the origin of high blood pressure which is deleterious for the eye and kidney vasculature. AGE can act directly on vascular function but also through RAGE. AGE binding to RAGE alters endothelial cell function stimulating NADPH oxidase and reactive oxygen species production. Limiting oxidation, reducing AGE formation or interaction with RAGE is achievable by drugs already used for hypertension or diabetes, but new treatment by NO modulators may limit the deleterious effect of RBC adhesion to endothelium.

Increased adhesion to endothelial cells of erythrocytes from patients with polycythemia vera is mediated by laminin alpha5 chain and Lu/BCAM

Patients with polycythemia vera (PV) have a JAK2 (a cytosolic tyrosine kinase) mutation and an increased risk of vascular thrombosis related to red blood cell (RBC) mass and platelet activation. We investigated functional RBC abnormalities that could be involved in thrombosis. RBC adhesion to human umbilical vein endothelial cells (HUVECs) was measured by a radiometric technique and in a flow system by video microscopy, and adhesion molecule expression was determined using specific antibodies (against CD36, CD49d, ICAM-4, Lu/BCAM, CD147, and CD47) and flow cytometry in a group of 38 patients with PV and a group of 36 healthy volunteers. Adhesion of PV RBCs was 3.7-fold higher than that of normal RBCs (P < .001). Adhesion was inhibited when PV RBCs were incubated with anti-Lutheran blood group/basal cell adhesion molecule (Lu/BCAM) or when HUVECs were treated with anti-laminin alpha(5) and to a lesser extent with anti-alpha(3) integrin. Lu/BCAM was constitutively phosphorylated in PV RBCs. Transfection of K562 cells with JAK2 617V>F resulted in increased expression and phosphorylation of Lu/BCAM. Phosphorylation of Lu/BCAM increases RBC adhesion. Our results indicate that JAK2 mutation might be linked to Lu/BCAM modification and increased RBC adhesiveness, which may be a factor favoring thrombosis in PV.

Characterization of p43(ARF), a derivative of the p43 component of multiaminoacyl-tRNA synthetase complex released during apoptosis

In human, nine aminoacyl tRNA synthetases are associated with the three auxiliary proteins, p18, p38, and p43, to form a stable multiprotein complex. The p43 component, which has a potent tRNA binding capacity, is associated to the complex via its N-terminal moiety. This protein is also the precursor of the endothelial monocyte-activating polypeptide II (p43(EMAPII), corresponding to the C-terminal moiety of p43), a cytokine generated during apoptosis. Here we examined the cellular pathway that, starting from the p43 subunit of the complex, leads to this extracellular cytokine. We identified a new intermediate in this pathway, named p43(ARF) for Apoptosis-released Factor. This intermediate is produced in cellulo by proteolytic cleavage of endogenous p43 and is rapidly recovered in the culture medium. This p43 derivative was purified from the medium of human U937 cells subjected to serum starvation. It contains 40 additional N-terminal amino acid residues as compared with the cytokine p43(EMAPII) and may be generated by a member of the matrix metalloproteinase family. Recombinant p43(ARF) is a monomer in solution and binds tRNA with a Kd of approximately 6 nM, 30-fold lower than that of p43. Highly purified p43(ARF) or p43(EMAPII) do not stimulate the expression of E-selectin by human umbilical vein endothelial cells. Our results suggest that the cleavage of p43 and its cellular delocalization, and thus the release of this tRNA binding subunit from the complex, is one of the molecular mechanisms leading to the shut down of protein synthesis in apoptosis.

Endothelial Lu/BCAM glycoproteins are novel ligands for red blood cell alpha4beta1 integrin: role in adhesion of sickle red blood cells to endothelial cells

The Lutheran (Lu) blood group and basal cell adhesion molecule (BCAM) antigens are both carried by 2 glycoprotein isoforms of the immunoglobulin superfamily representing receptors for the laminin alpha(5) chain. In addition to red blood cells, Lu/BCAM proteins are highly expressed in endothelial cells. Abnormal adhesion of red blood cells to the endothelium could potentially contribute to the vaso-occlusive episodes in sickle cell disease. Considering the presence of integrin consensus-binding sites in Lu/BCAM proteins, we investigated their potential interaction with integrin alpha(4)beta(1), the unique integrin expressed on immature circulating sickle red cells. Using cell adhesion assays under static and flow conditions, we demonstrated that integrin alpha(4)beta(1) expressed on transfected cells bound to chimeric Lu-Fc protein. We showed that epinephrine-stimulated sickle cells, but not control red cells, adhered to Lu-Fc via integrin alpha(4)beta(1) under flow conditions. Antibody-mediated activation of integrin alpha(4)beta(1) induced adhesion of sickle red cells to primary human umbilical vein endothelial cells; this adhesion was inhibited by soluble Lu-Fc and vascular cell adhesion molecule-1 (VCAM-1)-Fc proteins. This novel interaction between integrin alpha(4)beta(1) in sickle red cells and endothelial Lu/BCAM proteins could participate in sickle cell adhesion to endothelium and potentially play a role in vaso-occlusive episodes.

Improved in vitro biocompatibility of bicarbonate-buffered peritoneal dialysis fluid

BACKGROUND

Conventional peritoneal dialysis fluids (PDFs) have been shown to damage the mesothelial layer and are associated with the development of peritoneal fibrosis and neoangiogenesis. New-generation PDFs have therefore been developed with physiological pH and reduced levels of glucose degradation products (GDPs), precursors of advanced glycation end products (AGEs). In this work, we evaluated and compared the improved biocompatibility of two new-generation PDFs (Balance and bicaVera) using mesothelial cell biology; we also compared them to a standard PDF (stay.safe) (all PDFs by Fresenius Medical Care, Fresnes, France).

METHODS

stay.safe, Balance, and bicaVera were tested for their effect on human peritoneal mesothelial cell (HPMC) viability by measuring cell proliferation and apoptosis, and oncosis induction. The formation of AGEs was evaluated by immunoassay. Transforming growth factor beta-1 and vascular endothelial growth factor (VEGF) were immunoassayed in HPMC supernatants exposed to the above PDFs.

RESULTS

At 15 g/L glucose concentration, HPMC exposure to bicaVera resulted in higher cell proliferation compared to Balance (p < 0.001) and stay.safe (p < 0.001). Compared to the lactate-buffered PDFs (Balance and stay.safe), oncosis was significantly lower in cells exposed to bicaVera (p < 0.05). bicaVera, containing lower amounts of GDPs, generated less AGE formation (p < 0.05) and VEGF production (p < 0.05) than either Balance or stay.safe.

CONCLUSIONS

New-generation PDFs with physiological pH and lower GDP levels, especially if bicarbonate-buffered (bicaVera), have fewer in vitro toxic effects on mesothelial cells and may contribute to peritoneal preservation, thus improving long-term treatment of PD patients.

Postprandial hyperglycemia alters inflammatory and hemostatic parameters

Glucose or glucose derived products are increased in blood during the postprandial phase and are, to a certain extent, related to meal composition. Glucose and glucose derived products such as advanced glycation end products (AGEs) can be formed in the intracellular compartment but can also be absorbed as AGEs or AGE precursors present in food. Glucose, glucose metabolites and AGEs alter endothelial cell functions, induce adhesion molecule overexpression (ICAM-1, VCAM), cytokine release (IL-6, MCP-1) and tissue factor production. Tumor necrosis factor alpha systemic level is increased during the postprandial phase as are augmented C reactive protein and fibrinogen level. Hyperglycemia induced an increase in plasminogen activator inhibitor, and shortened fibrinogen half life. Hyperglycemia and AGEs provoked an oxidant stress. The formation of reactive oxygen intermediates perturbates NO (Nitric oxide) formation and are deleterious for cell functions. All the modifications observed in the postprandial phase are not too deleterious but their iterative characteristics may lead to vascular dysfunction.

Changes in glycation and oxidation markers in patients starting peritoneal dialysis: a pilot study

BACKGROUND

The high incidence of cardiovascular disease in uremic patients makes it a major cause of morbidity and mortality in those patients. Uremia is associated with carbonyl and oxidative stress, which result in the enhanced formation of glycation and oxidation products respectively. In the present study, the blood levels of advanced glycation end products (AGEs) and advanced oxidation protein products (AOPPs) were investigated in uremic patients prior to and after initiation of peritoneal dialysis (PD).

METHODS

22 patients [11 nondiabetic (G1) and 11 diabetic (G2) subjects] were enrolled in a single-center prospective study. Prior to starting PD (TO) and 6 and 12 months later, changes in AGE and AOPP levels were analyzed in the total study population and in each group (Friedman test, intragroup). At each time point, a comparison was made between the levels of the above-mentioned products in G1 and G2 (Mann-Whitney test, intergroup). Correlations between AGE or AOPP levels and residual renal function, peritoneal creatinine clearance, glucose peritoneal equilibration test, or daily dextrose exposure were analyzed using the Pearson test.

RESULTS

At TO, no significant difference was found between the two groups for AGE or AOPP levels. Initiation of PD was followed by an increase in AGE levels in all patients (p < 0.01 at 6 and 12 months). AGE Levels were higher in G2 than in G1 at 12 months after the start of PD (p < 0.05). In contrast to G2 results, initiation of PD in G1 led to reduced AOPP Levels (at 6 and 12 months, p = 0.01 and p < 0.05 respectively). However, no correlation between AGE or AOPP levels and residual renal function, peritoneal creatinine clearance, glucose peritoneal equilibration test, or daily dextrose exposure could be established.

CONCLUSION

This study demonstrates that PD is associated with an increase in levels of blood glycation end products, particularly in diabetic patients, but also with a decrease in oxidative products such as AOPPs, especially in nondiabetic subjects.

Modulation of RAGE expression influences the adhesion of red blood cells from diabetic patients

Atherothrombotic complications are frequent in patients with type 2 diabetes. Red blood cells (RBC) from diabetic patients exhibited an increased adhesion which correlated to the extent of vascular complications. In the present study we have investigated the adhesive interactions of RBCs with endothelium, using flow-based assessments. RBCs and endothelial cells were unstimulated or stimulated using respectively adrenaline and TNFalpha. Adhesion assays were carried-out by drawing the RBC suspension through a glass microcapillary tube precoated by human umbilical vein endothelial cells. These microslides were then incorporated into a controlled flow system equipped with a computerized video-microscopic image analysis. RBCs from diabetic patients bind to endothelial cells and could withstand wall shear stresses above 0.1 Pa. After stimulation by TNFalpha the adhesion was 1.5-fold higher. Blocking experiments demonstrated that the adhesion was mediated by the receptor for AGE (RAGE). Adrenaline-treated RBCs showed a transient increase in adhesion at low shear stresses. Inflammatory mediators or catecholamine amplifying diabetic RBC adhesion may aggravate endothelial cell damages.

[Glycation, glycoxidation and diabetes mellitus]

Advanced glycation end-products (AGEs) result from a reaction between carbohydrates and the free amino groups of proteins, lipids, and DNA. Non enzymatic glycation, glycoxidation with glucose auto-oxidation and the polyol pathway are involved in glycated protein formation. AGEs also named glycotoxins are found in excess in pathological situations such as diabetes mellitus, renal failure, and aging or after absorption of food containing glycated products. Three major pathophysiological mechanisms are described to explain AGE toxicity, first AGEs can accumulate in the vessel wall and in collagen of different tissues; second in situ glycation is possible; third, AGEs bind to cell receptors inducing deleterious consequences. AGE receptor RAGE is a multiligand member of the immunoglobulin superfamily of cell surface molecules. AGE-receptor interaction can alter, macrophage, endothelial cell, mesangial and mesothelial cell functions and can induce inflammation. Oxidant stress, vascular hyperpermeability, vascular cell adhesion molecule-1 (VCAM-1) overexpression and monocytes chemotactic Protein-1 (MCP-1) production have been observed after cell activation by AGEs. AGEs appear to be involved in the genesis of diabetic macro but also microangiopathy such as retinopathy and glomerulosclerosis. New drugs are tested to prevent or break the AGE-protein cross-linkage, or to control the AGE-receptor interaction and their consequences. Dietary treatment, strict glycemic control and preservation of renal function remain the best approach for preventing AGE formation and limiting their deleterious effects.

La biocompatibilité des solutions de dialyse péritonéale

Repeated and long-term exposure to conventional glucose-based peritoneal dialysis fluids (PDFs) with poor biocompatibility plays a central role in the pathogenesis of the functional and structural changes of the peritoneal membrane. We have used immortalized human peritoneal mesothelial cells in culture to assess in vitro the biocompatibility of PDFs. Low pH, high glucose concentration and heat sterilization represent major factors of low biocompatibility. Two recent groups of glucose derivatives have been described. Glucose degradation products (GDPs) are formed during heat sterilization (glycoxidation) and storage. GDPs can bind protein and form AGEs (Advanced Glycation End-products), which can also result from the binding of glucose to free NH2 residues of proteins (glycation). The physiological pH, and the separation of glucose during heat sterilization (low GDP content) in the most recent PDFs dramatically increase the biocompatibility. The choice of PD programs with high biocompatibility PDFs allows preserving the function of the peritoneal membrane. Improvement of PDF biocompatibility may limit the occurrence of chronic chemical peritonitis and may allow long-term PD treatment.

Protein glycation: a firm link to endothelial cell dysfunction

The advanced glycation end products (AGEs) are a heterogeneous class of molecules, including the following main subgroups: bis(lysyl)imidazolium cross-links, hydroimidazolones, 3-deoxyglucosone derivatives, and monolysyl adducts. AGEs are increased in diabetes, renal failure, and aging. Microvascular lesions correlate with the accumulation of AGEs, as demonstrated in diabetic retinopathy or renal glomerulosclerosis. On endothelial cells, ligation of receptor for AGE (RAGE) by AGEs induces the expression of cell adhesion molecules, tissue factor, cytokines such as interleukin-6, and monocyte chemoattractant protein-1. A chief means by which AGEs via RAGE exert their effects is by generation of reactive oxygen species, at least in part via stimulation of NADPH oxidase. Diabetes-associated vascular dysfunction in vivo can be prevented by blockade of RAGE. Thus, agents that limit AGE formation, increase the catabolism of these species, or antagonize their binding to RAGE may provide new targets for vascular protection in diabetes.

The triggering of human peritoneal mesothelial cell apoptosis and oncosis by glucose and glycoxydation products

BACKGROUND

Peritoneal dialysis fluids (PDFs) have been shown to alter mesothelial cell functions. To further determine the mechanisms involved, we investigated the effects of glucose, glucose degradation products (GDPs) and advanced glycation end products (AGEs) on the inhibition of human peritoneal mesothelial cell (HPMC) proliferation and the induction of apoptosis and oncosis.

METHODS

Four PDF solutions, heat-sterilized dextrose-lactate, filtered dextrose-lactate and heat-sterilized dextrose-bicarbonate-lactate, each containing 15 or 45 g/l glucose, and heat-sterilized icodextrin-lactate, containing 75 g/l icodextrin, were tested. In addition, we analysed the independent and synergistic effects of two glucose compounds, i.e. 3-deoxyglucosone (3-DG), a major GDP, and Nepsilon-(carboxymethyl)-lysine (CML), a high-affinity AGE receptor (RAGE) ligand on HPMC viability. Cell proliferation was measured by methyl-[(3)H]thymidine incorporation. Oncosis was quantified by nuclear propidium iodide (PI) DNA-intercalating capability, and apoptosis by the decrease in mitochondrial transmembrane potential ( triangle up psim).

RESULTS

It was found that heat-sterilized dextrose-lactate inhibited HPMC proliferation to a greater extent than filtered dextrose-lactate, heat-sterilized dextrose-bicarbonate-lactate, or heat-sterilized icodextrin-lactate (P<0.001). Compared to filtered dextrose-lactate, heat-sterilized dextrose-lactate induced a significantly greater degree of apoptosis (P<0.05) and oncosis (P<0.01). Glucose-induced cell death and antiproliferative activity were significantly potentiated by the action of 3-DG or CML-albumin. By blocking the AGE-RAGE interaction recombinant soluble-RAGE reduced the PDF-induced inhibitory effect on cell proliferation (P<0.001) and apoptosis (P<0.05).

CONCLUSION

Heat-sterilized PDFs that contain high glucose concentrations and GDPs, which are AGE precursors, reduce cell proliferation, induce mesothelial cell apoptosis and oncosis, and may be involved in peritoneal damage. PDFs containing lower glucose derivative products are more biocompatible.

Erythrocytes and platelet adhesion to endothelium are mediated by specialized molecules

Erythrocytes in normal conditions have weak interactions with other blood cells and endothelial cells while in pathological circumstances they can adhere to endothelium and aggregate or agglutinate to blood cells. Erythrocyte adhesion was found to be abnormal in sickle cell anemia and diabetes mellitus and correlated to the vascular complications. Further studies demonstrated that VLA-4 adhesion molecule (alpha4beta1) present on erythrocytes bound to vascular cell adhesion molecule (VCAM-1) of the endothelium. In addition, the blood group Lutheran molecule (LU) overexpressed on sickle erythrocytes bind to laminin present on cells or in the intercellular space. In diabetes mellitus the formation of advanced glycation end products (AGE) by reaction between carbohydrates and free aminogroups of lysine is responsible for red blood cell membrane glycation. AGEs present on RBCs bind to the receptor for AGE (RAGE) on endothelium, activating endothelial cells. A molecule related to blood group Rhesus was demonstrated to belong to the intercellular adhesion molecule (ICAM) family. ICAM-4 binds to integrins present on leukocytes (CD11-CD18) and on platelets (alpha2beta4) offering a surface, which can be involved in thrombosis. The identification of erythrocytes adhesion molecules open a new way to understand thrombotic processes and vascular dysfunction.

[Advanced glycosylation end products (AGE): new toxins?]

Advanced glycation end-products (AGEs) are found in excess during diabetes mellitus, uremia and aging. Non enzymatique glycation, glycoxidation with glucose auto-oxidation and the polyol pathway are involved in the production of AGEs. Tissue accumulation of AGEs and their binding to cell receptors are critical steps in the deleterious consequences of AGE excess. AGE-receptor interaction altered endothelial cells, macrophages, mesangial and mesothelial cell functions. AGEs appear to be involved in the genesis of diabetic micro but also macro-angiopathy. Reduction of AGE clearance and permanent oxidative stress are responsible for AGE excess during uremia. High-flux hemodialysis and peritoneal dialysis reduce AGE level but kidney transplantation is the best treatment to restore homeostasis. New drugs are tested to reduce AGEs or AGE deleterious effects but the best treatment remains the prevention of AGE formation by a strict glycemic control.

N(carboxymethyl)lysine as a biomarker for microvascular complications in type 2 diabetic patients

AIMS

Hyperglycemia is linked to vascular dysfunction in patients with diabetes mellitus, either directly or through advanced glycation end product (AGE) formation. Experimental evidence has indicated the possible involvement of AGEs in the genesis of vascular complications. We investigated whether serum levels of AGEs and of the glycoxidation compound carboxymethyl-lysine (CML) were increased and correlated with vascular complications in type II diabetes mellitus.

METHODS

Serum levels of AGEs and CML-human serum protein (CML-HSP) were measured by a specific immunoassay in 51 men and 26 women aged 58 +/- 6.1 years (mean +/- SD) who had been treated for type II diabetes mellitus for 11 +/- 8 years, and in a non-diabetic control group consisting of 39 men and 21 women aged 55.5 +/- 7.5 years. Patients with macroalbuminuria or abnormal creatinine clearance were excluded from the study.

RESULTS

The serum levels of AGEs were significantly increased in patients with type II diabetes compared to controls (P<0.001). Blood levels of CML-HSP were significantly increased in diabetic patients compared to normal subjects [35.3 +/- 27.4 and 9.3 +/- 7.2 (mean +/- SD) pmol/mg of protein, respectively; P<0.0001]. In diabetic patients with retinopathy or microalbuminuria (urinary albumin excretion: UAE > 30 mg/24 h), CML-HSP levels were significantly higher (P<0.02), and even more elevated in patients with both complications.

CONCLUSION

In patients with type II diabetes, CML-HSP levels that are at variance with the HbA(1c) index for blood glucose may be a biomarker of glycoxidation, and related to the development of microvascular complications.

[Evaluation of scientific and medical articles]

Quality assessment of publications article is now teached during medical studies and will soon be included into the program of the internship examination. The impact factor of medical journals is frequently used to evaluate the scientific quality of an article and consequently as an index of scientific productivity. Impact factor is an indicator of citation but not of the quality of an article and should not be used as a unique criterion for evaluating the quality of medical or scientific research works.

Blood cells and vascular cell interactions in diabetes

The diabetic vasculopathy is one of the major complications responsible for the high incidence of arteriopathy, coronary ischemia and renal failure. Several hypothesis have been formulated to explain the vascular abnormalities. We recently showed that advanced glycation end products (AGE) have a pivotal role in the genesis of vascular dysfunction. AGE bind to a receptor (RAGE) present on endothelial cells. AGE binding to RAGE produced an oxidant stress and diminished vascular barrier function, increased vascular permeability, enhanced the expression of vascular cell adhesion molecule 1 (VCAM-1). VCAM-1 expression on endothelial cell and increased expression of CD11b CD18 on monocytes may facilitate monocyte emigration and can represent one of the initial steps of vascular alteration. In diabetic animals or in ApoE null diabetic mice which developed atherosclerosis, the infusion of recombinant RAGE prepared in insect cells was studied. Recombinant RAGE administration corrected vascular hyperpermeability and prevented the development of atherosclerosis in the animals.

AGEs bind to mesothelial cells via RAGE and stimulate VCAM-1 expression

BACKGROUND

Excess advanced glycation end-products (AGEs) are formed during renal failure, and AGE formation also may be connected with the high glucose concentration of peritoneal dialysis (PD) fluids. To determine the effect of human peritoneal mesothelial cell (HPMC) exposure to glycated proteins, we studied the HPMC receptor of AGE expression (RAGE), and analyzed the results of AGE-RAGE interaction on adhesion molecule expression and leukocyte binding.

METHODS

RAGE was detected by FACS analysis, and RAGE mRNA by reverse transcription-polymerase chain reaction (RT-PCR). Vascular and intercellular cell adhesion molecule (VCAM-1 and ICAM-1) expression was measured by a known radiometric technique under basal conditions, after the addition of an AGE-specific compound, Nepsilon-carboxylmethyllysine (CML-albumin). Leukocyte adhesion on HPMC was analyzed by videomicroscopy after HPMC stimulation.

RESULTS

RAGE protein was detected on HPMC, and RAGE mRNA was evidenced by RT-PCR. VCAM-1 expression was stimulated by CML-albumin (P < 0.01), while ICAM-1 was unchanged. By blocking the AGE-RAGE interaction, anti-RAGE antibodies or recombinant RAGE inhibited the increase in VCAM-1 expression. CML-albumin stimulation potentiated leukocyte adhesion to HPMC (P < 0.001). This effect was prevented by the incubation of leukocytes with recombinant VCAM-1 (P < 0.001).

CONCLUSIONS

AGE binding to RAGE stimulated mesothelial cell activity, and resulted in the overexpression of VCAM-1, a structure for leukocyte adhesion. The AGE-RAGE interaction resulted in HPMC activation, which may promote local inflammation, and thus is implicated in the peritoneal injury found in long-term PD patients.

Effects of pentoxifylline on the different steps during adhesion and transendothelial migration of flowing neutrophils

We used a flow system to observe the stepwise adhesion and migration of neutrophils on cultured human umbilical vein endothelial cells (HUVEC) stimulated with tumour necrosis factor-alpha (TNF) for 4 h, and to evaluate the effects of pentoxifylline (PTX) at each step. When HUVEC had been stimulated with 100 U ml(-1) TNF, treatment of neutrophils with PTX did not reduce the number captured from flow but did cause nearly all adherent cells ( > 90%) to roll, whereas most untreated cells became immobilized and approximately 30% transmigrated within minutes. On washout of the PTX, many rolling cells halted and started to migrate. Treatment of the HUVEC with PTX at the same time as 100 U ml(-1) TNF did not affect the number of neutrophils adhering, but there was a significant increase in the percentage of cells rolling even though PTX was no longer present. Thus PTX reduced presentation of activating agents by HUVEC, as well as inhibiting the response by neutrophils to surface-presented activating agent(s). If HUVEC were stimulated with 10 U ml(-1) TNF with PTX, the adhesion of flowing neutrophils was greatly inhibited compared to TNF alone. Surface ELISA indicated that PTX reduced TNF-induced upregulation of E-selectin. This reduction was only sufficient to reduce capture of neutrophils at the low dose of TNF. Thus, by using a flow-based model, we have been able to separate the effects of a multipotent agent such as pentoxifylline, which acts on leucocytes and endothelial cells, at each stage of migration.

An in vitro system for testing leucocyte and leukaemic cell line adhesion to synthetic fibres

Leucocyte adhesion is an important phenomenon in antimicrobial defence, inflammation and immunological mechanisms and has been shown to be dependent upon specialized adhesion molecules. To prevent side-effects related to blood transfusion (e.g. anti-human leucocyte antigen immunization and transmission of infectious agents) leucocyte reduction of blood products is now systematically performed in various countries. The most common system used for leucoreduction is blood filtration. For further understanding of the mechanisms responsible for the interaction between leucocytes and the fibres present in filters we used a flow chamber to study the adhesion of leucocytes and leukaemic cell lines to different types of fibre. Adhesion was quantified using video-microscopy and computer image analysis. Our results demonstrate that adhesion to filter fibres was dependent on the expression of beta2-integrins CD11--CD18 and was inhibited by anti-CD18. The amount of fibres present, their spatial arrangement and the physicochemical characteristics of the fibres were important factors in leucocyte adhesion. Leucocyte adhesion was the highest to polyethylene terephthalate (PET) and polyimide fibres. Lymphocytes or lymphocytic cell lines were poorly adherent to PET fibres. The retaining capacity of leucocyte filters can be improved by taking into account the different parameters for the design of new filters

Advanced glycation end products, their receptors and diabetic angiopathy

The role of chronic hyperglycemia in the development of diabetic microvascular complications and in neuropathy has been clearly established by intervention studies. However, the biochemical or cellular links between elevated blood glucose levels, and the vascular lesions remain incompletely understood. This review focuses on the consequences of hyperglycemia on the formation of advanced glycation end-products (AGEs), and on the role of AGEs and of their specific receptors (RAGE) in the functional and anatomical alterations of the vascular wall. AGEs are formed during the Maillard reaction by the binding of aldoses on free NH(2) groups of proteins, which, after a cascade of molecular rearrangements, result in molecules of brown color and specific fluorescence. Experimental studies have indicated that the binding of AGEs to RAGE activates cells, particularly monocytes and endothelial cells. Activated endothelial cells produce cytokines, and express adhesion molecules and tissue factor. The role of AGEs in increased oxidative stress, and in the functional alterations in vascular tone control observed in diabetes, in part related to a reduction in nitric oxide, is also discussed. The microvascular retinal, glomerular and nerve lesions induced by experimental diabetes in animals are prevented by an inhibitor of AGEs formation, aminoguanidine. The administration in diabetic animals of recombinant RAGE, which hinders AGEs-RAGE interaction, prevents hyperpermeability and vascular lesions. These data suggest a central role of AGEs and RAGE in the development of chronic complications of diabetes.

[Drug-induced hemolytic anemia]

Drug administration may be responsible for side effects including hemolytic anemia. The list of drugs which can be associated with hemolysis is long, but real responsibility has only been established for about 30 different classes of drugs. Methyldopa and antibiotics were first identified as inducers of auto-immune hemolytic anemia. More recently, diclofenac, second and third generation cephalosporins were recognized as drugs which can produce immune hemolytic anemia. Fludarabine treatment was frequently associated to hemolytic anemia in patients with chronic lymphocytic leukemia. Hemolytic-uremic syndrome can be provoked by different drugs including immunodulators but the mechanism provoking hemolysis remains unclear.

Activation of NADPH oxidase by AGE links oxidant stress to altered gene expression via RAGE

Engagement of the receptor for advanced glycation end products (RAGE) by products of nonenzymatic glycation/oxidation triggers the generation of reactive oxygen species (ROS), thereby altering gene expression. Because dissection of the precise events by which ROS are generated via RAGE is relevant to the pathogenesis of complications in AGE-related disorders, such as diabetes and renal failure, we tested the hypothesis that activation of NADPH oxidase contributed, at least in part, to enhancing oxidant stress via RAGE. Here we show that incubation of human endothelial cells with AGEs on the surface of diabetic red blood cells, or specific AGEs, (carboxymethyl)lysine (CML)-modified adducts, prompted intracellular generation of hydrogen peroxide, cell surface expression of vascular cell adhesion molecule-1, and generation of tissue factor in a manner suppressed by treatment with diphenyliodonium, but not by inhibitors of nitric oxide. Consistent with an important role for NADPH oxidase, although macrophages derived from wild-type mice expressed enhanced levels of tissue factor upon stimulation with AGE, macrophages derived from mice deficient in a central subunit of NADPH oxidase, gp91phox, failed to display enhanced tissue factor in the presence of AGE. These findings underscore a central role of NADPH oxidase in AGE-RAGE-mediated generation of ROS and provide a mechanism for altered gene expression in AGE-related disorders.

Human promyelocytic cell line: a convenient tool for studying the molecular basis of WBC filtration

BACKGROUND

Blood filtration is a technique widely used to reduce the levels of WBCs in blood components. Several studies have been conducted to define the factors that are involved in WBC reduction, but the various mechanisms are not clearly delineated. This study explored the role of WBC adhesion molecules in WBC reduction during filtration.

STUDY DESIGN AND METHODS

A minifilter has been developed that has properties similar to those of the standard filter (Sepacell, Asahi Medical) but that allows a smaller volume of blood to be used (15 mL). WBC reduction was achieved to a similar extent in the standard filter and the minifilter (4.15 log and 4.18 log, respectively). Samples of human promyelocytic cell line (HL60) were filtered before and after differentiation induced by vitamin D3 (D3-HL60). Flow cytometry was used to characterize the D3-HL60 filtrates and to count the WBCs after filtration.

RESULTS

HL60 was retained in the filter to the same extent as all other WBCs. A higher level of integrin receptors (CD11b/CD18; CD11c/CD18) was expressed by D3-HL60 than by HL60. When the blood was incubated with anti-CD11b, anti-CD11c, or anti-CD18, fewer D3-HL60 cells were trapped by the filter, while only anti-CD11b alters HL60 retention in the filter.

CONCLUSION

The receptors CD11b/CD18 and CD11c/CD18 appear to bind to the filter fibers and to be one of the mechanisms responsible for WBC retention.

Mechanical properties of bovine aortic endothelial cells in suspension studied by ultrasonic interferometry

OBJECTIVE

Cell adhesion phenomenon has been extensively studied in the last decade and was shown to be mediated by specialized molecules and driven by physical forces. Cohesion of the vessel wall cells is also dependent on adhesion molecules but less is known about the physical forces involved. To investigate endothelial cell/endothelial cell interaction from a mechanical point of view, we have used an ultrasonic interferometry device, named EchoCell, which has been previously designed to study red blood cell-red bood cell (RBC-RBC) interaction.

METHODS

Bovine aortic endothelial (BAE) cells were cultured, detached, then suspended in buffer and their mechanical and geometrical properties studied with the EchoCell system. The ultrasonic apparatus measures both the accumulation rate of cells in suspension on a solid plate and the acoustical impedances of the suspension and the sediment.

RESULTS

In suspension, BAE exhibited, in our experimental conditions (3x10(6) cells per ml), a spherical size evaluated by calculation at a mean radius of 7+/-2 microm. Moreover, no BAE aggregation occurred at the concentrations used. The acoustical impedance of the BAE suspensions calculated from all the samples studied, in the cell concentration range from 1.5x10(6) to 6x10(6) cells per ml, was 1.52x10(6) Rayl (kg m(-2) s(-1)). Furthermore, the acoustical impedance of the cell sediment was found to be independent on the initial cell suspension concentration and equal to 1.63x10(6) Rayl (kg m(-2) s(-1)). Estimation of the volume fraction of BAE inside the sediment allows to evaluate the ultrasonic velocity and the elastic bulk modulus of cells.

CONCLUSION

The ultrasonic interferometry method appears particularly interesting to study geometrical and mechanical (acoustical impedance, sound velocity, elastic bulk modulus) properties of BAE cells.