Diabetic glomerulosclerosis is defined by increased glomerular extracellular matrix (ECM) that is mainly synthesized by mesangial cells that underwent an activation mediated by cytokines and growth factors from various cellular origins. In this study, we tested whether macrophages could infiltrate the glomeruli and influence ECM synthesis in experimental diabetes. To test our hypothesis, we initially studied the dynamics of glomerular macrophage recruitment in streptozotocin-induced diabetic rats at days 1, 2, 4, 8, 15, and 30 by using quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) on isolated glomeruli and immunohistochemistry and morphometry. We then assessed the role of macrophages on the basis of the pharmacological modulation of their recruitment by insulin or ACE inhibitor treatments and by X-irradiation-induced macrophage depletion at days 8 and 30. Macrophages were recruited within the glomeruli at the very early phase of hyperglycemia by using RT-P C R CD14 detection from day 2 and by using ED1 immunohistochemistry from day 8. This glomerular macrophage infiltration was associated with an increase in 1 -chain type IV collagen mRNA. In parallel, the diabetic glomeruli became hypertrophic with an increase in the mesangial area. Macrophage recruitment was preceded by or associated with an increased glomerular expression of vascular cell adhesion molecule 1, intracellular adhesion molecule 1, and monocyte chemoattractant protein 1, which contributes to monocyte diapedesis. Glomerular interleukin-1 mRNA synthesis was also enhanced as early as day 1 and could be involved in the increase in ECM and adhesion molecule gene expressions. Insulin treatment and irradiationinduced macrophage depletion completely prevented the glomerular macrophage recruitment and decreased 1 -chain type IV collagen mRNA and mesangial area in diabetic rats, whereas ACE inhibitor treatment had an incomplete effect. It can be concluded that in the streptozotocin model, hyperglycemia is followed by an early macrophage recruitment that contributes to the molecular and structural events that could lead to glomerulosclerosis. Therefore, besides direct stimulation of mesangial cells by hyperglycemia, macrophages recruited in the glomeruli during the early phase of hyperglycemia could secondarily act on mesangial c e l l s . Diabetes 4 9 :4 6 6-475, 2000
The consequences of hypertension and aging on cardiovascular structure and function are reputed to be similar, suggesting that blood pressure plays a role in the aging process. However, the exact relationship between aging, blood pressure, and the arterial structure-function relationship has not been demonstrated. To test the effects of aging, renin-angiotensin system, and pressure on the arterial wall, 20 normotensive male WAG/Rij rats were killed at 6, 12, 24, and 30 mo of age and compared with similar groups treated with an angiotensin (ANG)-converting enzyme inhibitor (ACEI), perindopril. Arterial function was determined by a systemic hemodynamic study and by in situ measurement of carotid compliance. Arterial wall structure was determined by histomorphometric and biochemical methods. Aging did not significantly modify blood pressure, but ACE inhibition decreased blood pressure significantly from 6 to 30 mo. Plasma renin activity decreased with age and increased with ACEI. Plasma atrial natriuretic factor increased with age and was significantly decreased with ACEI. Absolute and relative left ventricular weight increased with age, and ACEI delayed these increases. Arterial wall stiffness increased with age, as shown by a significant decrease in systemic and local arterial compliance and by an increase in aortic characteristic impedance. The increase in carotid wall compliance after poisoning of smooth muscle contractile function (KCN) was greater in young (6- and 12-mo old) than in old (24- and 30-mo old) rats. Chronic ACEI treatment increased basal carotid compliance values slightly and did not change KCN carotid compliance. The aortic and carotid luminal size increased regularly with age. Aging was associated without any change in absolute elastin content. In contrast, collagen content increased with aging. Aging was also associated with an increase in medial thickness. Medial thickening was mainly due to smooth muscle hypertrophy. Aging was associated with intimal proliferation, which became progressively thicker and collagen rich. ACEI treatment did not prevent aortic lumen enlargement but significantly postponed the increase in medial and intimal thickening. Biochemical determinations of the aortic wall components confirmed the morphometric data. In conclusion, the age-dependent large artery enlargement and stiffening were observed both in normotensive rats and in those rats whose blood pressure was lowered by ACEI. This suggests that aging and blood pressure affect arterial wall structure and function by different mechanisms.
Intravenous immunoglobulin (IVIg) is increasingly used in the treatment of autoimmune and inflammatory diseases, including vasculitides and Kawasaki disease. However, the outcome of IVIg interaction with endothelial cells of the vascular bed is not clear as yet. We have investigated the effect of IVIg on the in vitro activation of human endothelial cells, as assessed by cell proliferation and reverse transcription-polymerase chain reaction-detected expression of mRNA coding for adhesion molecules (intercellular adhesion molecule-1 and vascular cellular adhesion molecule-1), chemokines (monocyte chemoattractant protein-1, macrophage colony-stimulating factor, and granulocyte-macrophage colony-stimulating factor), and proinflammatory cytokines (tumor necrosis factor-alpha, interleukin-1beta, and interleukin-6). IVIg inhibited proliferation of endothelial cells in a time-dependent manner. This effect was dependent on both Fc and F(ab')2 fragments of the immunoglobulin molecule and was fully reversible. Tumor necrosis factor-alpha and interleukin-1beta also inhibited thymidine incorporation, but to a lesser degree. IVIg had no effect on basal levels of mRNA coding for the adhesion molecules, chemokines, and proinflammatory cytokines. IVIg fully down-regulated the expression induced by tumor necrosis factor-alpha or interleukin-1beta of mRNA coding for these molecules. Thus, blockade of cellular proliferation and of cytokine-induced expression of adhesion molecules, chemokines, and cytokines may explain the therapeutic effect of IVIg in vascular and inflammatory disorders.
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