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Mesangial cells in diabetes (1992)

Mené, P. ; Cinotti, G. A. ; Pugliese, F.

Springer

Acta diabetologica 29 (1992), S. 227-230

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ISSN: 1432-5233

Keywords: Cytosolic Ca2+ ; Diabetes ; Glycosylation ; Hyperglycaemia ; Mesangium ; Phosphoinositides

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The glomerular mesangium is the site of prominent structural lesions in diabetic nephropathy, including excess deposition of extracellular matrix in a focal, nodular pattern. Increased single-nephron blood flow and filtration are early signs of glomerular involvement in diabetes, and may initiate or contribute to mesangial damage. Vasodilatation results from arteriolar insensitivity to vasoconstrictors. In turn, this may reflect primary metabolic defects of glomerular smooth muscle, including the afferent arteriole and mesangial cells themselves. Parallel alterations in the glomerular basement membrane and related structures, such as mesangial matrix, are likely to result from glycosylation of intrinsic proteins, or accumulation of advanced glycosylation end-products. Structural and haemodynamic changes account for (micro)-albuminuria, with additional possible overloading of the measangium. Mesangial proliferative changes eventually ensue, with excess matrix deposition and progressive fibrosis. Recent evidence that long-standing hyperglycaemia modifies mesangial metabolism, sensitivity to vasoconstrictors and matrix biosynthesis in vitro is reviewed here, in the light of its potential implications for experimental and human diabetic nephropathy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00573493

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Prostaglandins and the kidney in diabetes (1992)

Pugliese, F. ; Cinotti, G. A. ; Menè, P.

Springer

Acta diabetologica 29 (1992), S. 218-220

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ISSN: 1432-5233

Keywords: Prostaglandins ; Thromboxane ; Diabetes ; Diabetic nephropathy ; Hyperfiltration ; Eicosanoids

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The kidney is an active site of prostaglandin synthesis. These autacoids can influence renal haemodynamics, glomerular ultrafiltration coefficient, mesangial cell proliferation and matrix expansion. Due to these features, prostaglandins may contribute to virtually all the functional and structural alterations which characterize the different phases of diabetic nephropathy. Indeed, most of the experimental as well as clinical studies to date agree that renal hyperfiltration of early diabetes is partially dependent upon enhanced renal production of vasodilatory prostaglandins. By contrast, in long-term diabetes the reduced renal synthesis of prostaglandins and increased production of intrarenal thromboxane, be the latter derived from native glomerular cells or from infiltrating platelets or monocytes, would appear to contribute to the decline in glomerular filtration rate, glomerular basement membrane alterations and proteinuria.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00573491

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High glucose level inhibits capacitative Ca2 + influx in cultured rat mesangial cells by a protein kinase C-dependent mechanism (1997)

Mene`, P. ; Pugliese, G. ; Pricci, F. ; [et al.]

Springer

Diabetologia 40 (1997), S. 521-527

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ISSN: 1432-0428

Keywords: Keywords Mesangium ; diabetes mellitus ; protein kinase C ; capacitative Ca2 + influx ; store-operated Ca2 + channels.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In cultured mesangial cells (MC), capacitative Ca2 + influx via store-operated channels (SOC) is potentiated by agents that release Ca2 + from intracellular stores, and inhibited by protein kinase C (PKC). Cells grown under high glucose conditions, as a model of the diabetic microenvironment, display reduced Ca2 + signalling in response to vasoconstrictors, probably due to downregulation by elevated PKC activity. Since SOC might be relevant to this phenomenon, we assessed Ca2 + influx by microfluorometry of fura-2-loaded rat MC cultured for 5 days in normal (5.5 mmol/l, NG) or high glucose (30 mmol/l, HG). The addition of 1–10 mmol/l Ca2 + to NG cells equilibrated in Ca2 + -free media induced an immediate Ca2 + influx with a free cytosolic Ca2 + ([Ca2 + ]i) plateau of 155 ± 50 and 318 ± 114 nmol/l, respectively. Basal influx was reduced to 88 ± 8 and 145 ± 17 nmol/l [Ca2 + ]i (1–10 mmol/l Ca2 + , p 〈 0.01) by 30 mmol/l d-glucose. This effect of HG was confirmed by Mn2 + quenching of fura-2, indicating reduced entry of divalent cations via the capacitative pathway. Equimolar l-glucose had no effect on Ca2 + influx, consistent with a non-osmotic mechanism. Arginine vasopressin (10 μmol/l) elicited weaker release of stored Ca2 + and subsequent influx in HG cells (191 ± 33 vs 153 ± 24 nmol/l, 400 ± 76 vs 260 ± 33 nmol/l, 1–10 mmol/l Ca2 + , NG/HG, p 〈 0.05). To examine the involvement of PKC in the effect of HG on capacitative Ca2 + influx, the enzyme was activated or downregulated by treatment with 0.1 μmol/l phorbol myristate acetate (PMA) for 3 min or 24 h, respectively. PMA acutely inhibited Ca2 + influx in NG cells, while PKC downregulation restored it in HG cells. Similarly, the PKC inhibitors staurosporin or H-7 normalized SOC activity in HG cells. In summary, impairment of Ca2 + influx via SOC by HG is one mechanism of the reduced MC [Ca2 + ]i responsiveness to vasoconstrictors. This event is mediated by PKC and may contribute to the glomerular haemodynamic changes in the initial stages of diabetes mellitus. [Diabetologia (1997) 40: 521–527]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050710

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