These findings suggest that galectin-3-positive cell infiltration may play an important role in the progression of DMN, and the degree of its expression may be predictive of poor prognosis of DMN.
Background: Fractalkine is induced on activated endothelial cells and promotes strong adhesion of T cells and monocytes via its receptor CX3CR1. In kidney, fractalkine expression might be induced by high shear stress and play an important role in prolonged glomerular diseases. We examined whether fractalkine and CX3CR1 upregulation are found in streptozotocin-induced diabetic kidneys. Methods: Diabetic rats were randomized to receive an angiotensin-converting enzyme inhibitor (temocapril), aminoguanidine or no treatment. Reverse transcription-competitive polymerase chain reaction, Western blot analysis and immunohistochemistry were used. Results: At 4 weeks, fractalkine and CX3CR1 mRNA expression in diabetic kidneys increased compared with that in controls. Fractalkine staining in diabetic kidneys was clearly detected, along with glomerular capillary lumen and peritubular capillaries. A few CX3CR1 positive cell infiltration in diabetic glomeruli were found. Treatment with temocapril or aminoguanidine did not affect these changes. At 8 weeks, fractalkine and CX3CR1 mRNA expression in untreated diabetic kidneys markedly increased compared with that in controls. Membrane-anchored fractalkine protein expression in untreated diabetic rats also increased. The increased expression was suppressed by the treatment with temocapril and aminoguanidine. Increased CX3CR1-positive cell infiltration in diabetic glomeruli was also inhibited by both treatments. Some CX3CR1-positive cells were ED3 positive. Conclusions: Fractalkine and CX3CR1 upregulation were demonstrated in an early stage of diabetic kidney. These upregulation, as well as urinary albumin excretion, were suppressed by treatments with temocapril and aminoguanidine for 8 weeks. These findings suggest that fractalkine expression and CX3CR1-positive cell infiltration in diabetic kidneys might play an important role for progression of diabetic nephropathy.
Background: Transglutaminase (Tg)-2 is shown to be related to renal fibrosis. However, its roles in human kidney disease have not been fully studied. Methods: Using immunohistochemistry, we examined Tg-2 expression in renal biopsy specimens from 22 patients with IgA nephropathy (IgAN) and correlated the intensity of Tg-2 staining with clinical and histopathological parameters. We compared the distribution and intensity of Tg-2 staining with those of transforming growth factor (TGF)-β staining. Results: In normal human kidneys, Tg-2 staining was not significant. In IgAN kidneys, glomerular Tg-2 staining correlated with serum creatinine (S-Cr), creatinine clearance (Ccr), urinary protein excretion, glomerular sclerosis, and mesangial cell proliferation. Tubulointerstitial Tg-2 correlated with S-Cr, Ccr, N-acetyl-β-glucosaminidase, urinary β2-microglobulin, and tubulointerstitial injuries. Tg-2 staining in the vicinity of vascular poles of glomeruli preceded the development of mesangial lesions, and was more remarkable in cases with renal impairment. The distribution and intensity of Tg-2 staining were not consistent with those of TGF-β staining. In glomerular crescents, Tg-2 staining was remarkable. Conclusion: The present study showed a correlation between Tg-2 expression and renal function and pathological changes. Tg-2 expression in the vicinity of vascular poles was notable because that may be an initial marker of glomerular injury.
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