Combined AGE inhibition and ACEi decreases the progression of established diabetic nephropathy in B6 db/db mice.

The accumulation of advanced glycation end products (AGE) is a key factor in diabetic nephropathy (DN). Pyridoxamine inhibits AGE formation and protects against type I DN. Herein we tested: (1) whether C57BL6 db/db mice as a model of established type II DN resembled patients treated with drugs which inhibit angiotensin II action; (2) whether pyridoxamine was effective as a single therapy; and (3) whether pyridoxamine would add to the benefit of angiotensin-converting enzyme inhibition (ACEi) by enalapril. In first set of experiments mice were treated with ACEi (benazepril) and an angiotensin II receptor blocker (valsartan) combination for 16 weeks after the onset of diabetes. In second group, mice with established DN were treated with pyridoxamine for 8 weeks. In a third set, mice with established DN were treated with pyridoxamine and enalapril combination for 16 weeks. Benazepril and valsartan combination partially prevented the development and progression of DN. Pyridoxamine treatment, as single therapy, decreased the progression of albuminuria and glomerular lesions. The combination of pyridoxamine with enalapril reduced both mortality and the progression of DN. In conclusion, (1) C57 BL6 db/db mice are a model of progressive type II DN; (2) The combination of pyridoxamine with enalapril decreased progression of type 2 DN and overall mortality. Thus, pyridoxamine could be a valuable adjunct to the current treatment of established type II DN.

Effect of calcineurin inhibitors on extracellular matrix turnover in isolated human glomeruli.

INTRODUCTION: Although chronic cyclosporine toxicity is mainly characterized by tubular atrophy and interstitial fibrosis, glomerular injury with expansion of mesangial matrix and sclerosis is not uncommon. Tacrolimus is a newer calcineurin inhibitor that has been used in renal transplant recipients as primary or rescue therapy. Clinical trials suggest an improved long-term graft survival among patients treated with tacrolimus. Recently we have shown that tacrolimus and cyclosporine have similar effects on extracellular matrix turnover in cultured cells. The present study was performed to investigate the effects of the calcineurin inhibitors on whole glomeruli extracellular matrix turnover. METHODS: Human glomeruli isolated from kidney biopsies just before transplantation were incubated with culture media containing either cyclosporine (200 ng/mL) or tacrolimus (10 ng/mL) for 24 hours. Glomeruli incubated only with culture medium were used as control. RESULTS: The expressions of (alpha2)IV collagen, metalloprotease 9 (MMP9), tissue inhibitors of metalloproteases 2 (TIMP-2), and TGFbeta were evaluated by in situ reverse transcription and polymerase chain reactions (RT-PCR). beta-actin was used as a control gene. Cyclosporine (but not tacrolimus) increased the expression of (alpha2)IV collagen and TIMP2 in isolated glomeruli. TGF-beta was markedly increased by cyclosporine. MMP9 expression was not affected by the calcineurin inhibitors. By light microscopy kidney biopsies did not show pathologic changes. CONCLUSION: Cyclosporine treatment modulates extracellular matrix turnover in isolated human glomeruli, inducing an imbalance between synthesis and degradation. This effect, not observed in tacrolimus-treated human glomeruli, may induce the extracellular matrix deposition and sclerosis characteristic of chronic cyclosporine toxicity.

Hyperkalemia-induced ECG abnormalities in patients with reduced renal function.

Hyperkalemia is a potentially lethal condition to be aware of in the presence of ECG abnormalities especially in patients with reduced renal function. However, ECG abnormalities are not always dependent on the degree ofhyperkalemia but may be aggravated by the rapidity of the development of hyperkalemia and by associated electrolyte disorders. We describe 3 patients with renal failure and different ECG changes induced by hyperkalemia. More severe changes were observed when hyperkalemia developed rapidly, but not in presence of electrolyte disorders. Even minor ECG abnormalities must alarm physicians in patients with renal failure since severe hyperkalemia is not always associated with critical ECG changes.

[Hepatocyte growth factor (HGF) reduces the expression of profibrotic factors in human isolated glomeruli]. / Hepatocyte growth factor (HGF) riduce l'espressione di fattori profibrotici in glomeruli umani isolati.

BACKGROUND: The imbalance between the synthesis and degradation of the mesangial matrix causes glomerulosclerosis and ultimately leads to chronic renal failure. HGF is a pleiotropic cytokine involved in angiogenesis, morphogenesis, organogenesis, and bone remodeling. Recently, we and other investigators have shown that HGF has a central role in the recovery of acute renal failure. Furthermore, HGF treatment halts the progression of kidney disease in a murine model of chronic renal failure. The aim of the present study was to evaluate the effect of HGF on the mRNA levels of molecules involved in the extracellular matrix turnover and of the c-met receptor in isolated human glomeruli. METHODS: Human glomeruli were isolated by microdissection from donor kidney biopsies just before transplantation. Glomeruli were extensively washed and incubated with culture media containing HGF (50 ng/mL) for 24 h at 37 C. Glomeruli incubated without HGF were used as controls. After 24 h, glomeruli were washed and freezed and thawed three times. The expression of c-met, (alpha2) IV collagen, TGF-beta, metalloproteases 9 (MMP9), and of the inhibitor of metalloproteases-1, TIMP-1 was evaluated by in situ reverse transcription (RT) and polymerase chain reaction (PCR). beta-actin was used as a housekeeping gene. RESULTS: The (alpha2)IV collagen mRNA level was decreased by HGF in human glomeruli. TGF-beta and TIMP-1 gene expression was markedly reduced by HGF treatment, whereas the expression of MMP-9 and c-met did not change. Under light-microscopic examination, kidney biopsies showed neither glomerular hypercellularity nor mesangial expansion. CONCLUSIONS: HGF treatment reduces the expression of extracellular matrix components and of profibrotic factors in human glomeruli. Our results confirm a protective role of HGF in glomerulosclerosis.

Glomerulosclerosis is transmitted by bone marrow-derived mesangial cell progenitors.

We found that ROP Os/+ (Os/+) mice had diffuse glomerulosclerosis and glomerular hypertrophy and that their mesangial cells (the vascular smooth muscle cells of the glomerulus) displayed an apparent sclerosing phenotype. Since mesangial cells are the major source of scar tissue in glomerulosclerosis, we postulated that the sclerosis phenotype was carried by mesangial cell progenitors and that this phenotype could be derived from the bone marrow (BM). Therefore, we transplanted BM from Os/+ mice into congenic ROP +/+ mice (+/+ mice), which have normal glomeruli. We found that glomeruli of +/+ recipients of Os/+ marrow contained the Os/+ genotype, were hypertrophied, and contained increased extracellular matrix. Clones of recipient glomerular mesangial cells with the donor genotype were found in all +/+ recipients that developed mesangial sclerosis and glomerular hypertrophy, whereas +/+ recipients of +/+ BM had normal glomeruli. Thus, the sclerotic (Os/+) or normal (+/+) genotype and phenotype were present in, and transmitted by, BM-derived progenitors. These data show that glomerular mesangial cell progenitors are derived from the BM and can deliver a disease phenotype to normal glomeruli. Glomerular lesions may therefore be perpetuated or aggravated, rather than resolved, by newly arriving progenitor cells exhibiting a disease phenotype.

Long-term exposure to high glucose up-regulates VCAM-induced endothelial cell adhesiveness to PBMC.

BACKGROUND: The changes induced on endothelial cells by a long-term exposure to high glucose, a situation that mimics the hyperglycemia of diabetics, have not yet been determined. We compared short- and long-term effects of elevated glucose on macrovascular and microvascular endothelial cells. METHODS: Endothelial cells were grown in high-glucose media for 24 hours and for 8 weeks. Cell proliferation was evaluated by cell counting, apoptosis and expression of adhesion molecules by flow cytometry; nitric oxide (NO) by measuring the concentration of nitrite/nitrate in the cell supernatant; alpha 2(IV) collagen mRNA and protein by reverse transcriptase-polymerase chain reaction and enzyme-linked immunosorbent assay, respectively. The adhesion of peripheral blood mononuclear cells (PBMCs) to endothelial cells was evaluated by adhesion assay. In some experiments, endothelial cells were preincubated with anti-vascular cell adhesion molecule-1 (VCAM-1) and anti-receptor for advanced glycation end product (RAGE) blocking antibodies. RESULTS: At 24 hours, but not at 8 weeks, high glucose increased endothelial cell proliferation and apoptosis. High glucose did not modify NO synthesis at 24 hours and 8 weeks. Collagen production and expression were increased only after eight weeks. VCAM-1 but not intercellular adhesion molecule-1 was up-regulated after 8 weeks, a change not observed after 24 hours. The adhesion of PBMCs was significantly increased at eight weeks and was completely abrogated by anti--VCAM-1 and by anti-RAGE antibodies. After 24 hours, there was a modest increase of PBMC adhesion that was not blunted by anti-RAGE antibodies. CONCLUSIONS: Increased adhesion of PBMCs, caused by up-regulation of VCAM-1 with a mechanism involving advanced glycation end product (AGE) adducts, and augmented collagen deposition are critical effects of long-term high glucose on endothelial cells, and may eventually promote the atherosclerotic process.

Henoch-Schönlein purpura in a chronic hemodialysis patient.

We describe a patient on maintenance hemodialysis who developed purpura, abdominal pain with bloody stool, and gross hematuria. A skin biopsy revealed leukocytoclastic vasculitis with IgA deposits. This is the first report of Henoch-Schönlein purpura in a hemodialysis patient.