In the present study, the effect of high (20 mM) glucose concentrations on human monocyte sodium/hydrogen exchanger (NHE1) activity, scavenger receptor CD36 expression, cell adhesion, and cell migration have been investigated. Incubation with high glucose concentrations caused an increase in NHE1 activity, as estimated by internal pH and sodium-uptake measurements. This effect was specific for glucose, since it was not observed when monocytes were incubated in the presence of 20 mM of galactose, fructose, or mannitol. In addition, the activation of sodium uptake was inhibited by ethylisopropyl amiloride (EIPA), phloretine and cytochalasine B, and calphostin C. High glucose concentrations also increased the expression of CD36 receptors on the surface of monocytes and positively influenced monocyte migration and adhesion to laminin. EIPA added together with glucose counteracted these effects. The data of the present study suggest that a high glucose concentration can influence atherosclerosis-related monocyte functions via NHE1 activation.
Research Methods and Procedures:Monocytes were isolated from six healthy obese individuals and six healthy ageand sex-matched controls by use of whole blood Percoll sedimentation and plastic surface monocyte binding. The density of CD36 scavenger receptors on the surface of monocytes was assessed by the use of a fluorescent fluorescein isothiocyanate (FITC)-linked monoclonal antibody. Transmigration of monocytes through laminin-1-coated filters was performed on 5-m pore Transwell culture inserts. Monocyte attachment to laminin was estimated by a solid phase assay. Results: High glucose concentrations caused an increase in monocytes from normal and obese individuals in the expression of CD36 receptors and positively influenced monocyte migration and adhesion to laminin. Cariporide together with glucose counteracted these effects. The effects of migration and adhesion of monocytes to laminin were specific to glucose, because the effect was significantly higher when monocytes were incubated in the presence of 20 mM of glucose than in the presence of 20 mM of fructose. Monocytes from obese subjects showed greater response than in normal to all of the studied effects, with the highest response in laminin attachment. Discussion: The data of this study suggest that cariporide counteracts atherosclerosis-related functions through Na ϩ /Hϩ antiport inhibition in monocytes from both normal and obese individuals.
In the present study the effect of high glucose concentrations, insulin, PPARγ activators (rosiglitazone) and NHE-1 inhibitors (cariporide) in atherosclerosis-related functions of human monocytes was investigated. Monocyte adhesion to laminin-1, collagen type IV and endothelial cells, as well as monocyte migration through the same substrates were studied. Incubation of the monocyte suspension with high glucose concentrations, insulin and rosiglitazone induced all the studied atherosclerosis-related functions of the monocytes. In all these functions the addition of cariporide counteracted the activity of glucose, insulin and rosiglitazone. The use of antigen for β1 integrin also counteracted the activity of the above in monocyte adhesion in all three substrates. The data of the present study suggests that PPARγ activation in monocytes induces atherosclerosis, and that NHE-1 and β1 integrin play an important role in the beginning of atherosclerosis.
Peripheral blood monocytes are playing a central role in atherosclerosis development. These cells bind in the vassal epithelium and migrate to the subendothelial space, where monocytes phagocytose oxidized low-density lipoproteins (oxLDL) through CD36 scavenger receptors and turn into foam cells. Foam cells formation is the first step in atherosclerosis development. Monocytes exposure in oxLDL activates the transcription of peroxisome proliferators-activated receptors γ (PPARγ). High glucose concentrations, insulin and a PPARγ agonist, rosiglitazone, are involved in the first steps of atherosclerosis development. Also, stimulation of monocyte Na + /H + exchanger (NHE1) activity, which is an important
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