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Query: UMLS:C0011849 (diabetes)
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A number of risk factors associated with the development of diabetic nephropathy has been described, such as elevated blood pressure, poor metabolic control, hyperlipidemia, and smoking. Abnormal albuminuria also is associated with progression of renal disease, but has until recently been considered principally a marker of disease activity rather than a risk factor. This article discusses the role of elevated blood pressure versus abnormal albuminuria in a genesis and prediction of renal disease in diabetes. Controversy exists regarding parental disposition to hypertension and early blood pressure elevation in the course of diabetes, but all studies agree that elevated blood pressure--in the presence of abnormal albuminuria--constitutes a risk factor. Because abnormal albuminuria is associated with progression disease, it may itself be a risk factor because increased macromolecular traffic over the glomerular membrane may produce glomerulopathy. Problems related to blood pressure measurement are important, and 24-h recordings of blood pressure may be recommended in some situations. Regarding renal structure, preliminary results suggest that structural lesions precede blood pressure elevation. The solid end point for evaluation of renal disease progression is the fall rate of GFR, with abnormal albuminuria as an intermediate end point, also in drug trials. Abnormal albuminuria may constitute a new indication for antihypertensive treatment, being, as it is, a clear indicator of organ damage, whereas elevated blood pressure with normal AER may not increase risk substantially.
Diabetes Care 1992 Sep
PMID:Blood pressure elevation versus abnormal albuminuria in the genesis and prediction of renal disease in diabetes. 139 16

Diabetic nephropathy is caused primarily by advanced glomerulopathy, the renal expression of diabetic microangiopathy. With stereological methods a quantitative description of the structural changes is achieved. The glomerulopathy is characterized by an increase in basement membrane material: thickening of the capillary wall and an increase in mesangial volume relative to glomerular volume, comprising increase in matrix. Among groups of patients conformity between renal function stage and structure exists. The parameters measuring glomerulopathy are normal at the onset of diabetes; patients with normoalbuminuria may show slight basement membrane thickening, or normal parameters; the microalbuminuric group shows a measurable, but moderate glomerulopathy; patients with overt nephropathy have advanced lesions; at this stage heterogeneity among glomeruli makes the estimates weaker. Recent data indicate that the changes in peripheral basement membrane and in mesangial matrix develop in concert and both contribute to the early stage of glomerulopathy in patients with microalbuminuria. As to the consequences of the structural changes the mechanism of albuminuria is not clear. It is suggested that the early glomerulopathy entails other structural modifications, including formation of new vessels which may be the site of leakage. The marked deviations in glomerular filtration rate correspond well with estimates of filtration surface area: in the early hyperfunction state it is increased; in advanced nephropathy it is decreased, due to advanced glomerulopathy in conjunction with glomerular occlusion. The diabetic state is the necessary condition for the glomerulopathy. In relating structural changes to presumed contributing causes no supporting evidence of a relationship with glomerular hyperfunction or hypertrophy was observed. The structural parameters may be useful tools in clinical trials aiming at arresting the development of glomerulopathy, and thereby providing a prevention of diabetic nephropathy.
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PMID:Glomerular structural changes in type 1 (insulin-dependent) diabetes mellitus: causes, consequences, and prevention. 139 74

Although the enhanced activity of the polyol pathway has been detected in diabetic glomeruli, the intraglomerular localization of this pathway has not yet been well defined. In this study, we attempted to identify aldose reductase, a key enzyme of the polyol pathway, in cultured rat mesangial cells and to characterize the properties of this enzyme using enzymological and immunological methods. When the aldose reductase (DL-glyceraldehyde-reducing) activity was analyzed in mesangial cell extract, the Lineweaver-Burk plot showed concave downward curvature, and the Michaelis constant was 0.83 mM DL-glyceraldehyde, and this activity was noncompetitively inhibited by an aldose reductase inhibitor, ICI-128,436. The enzyme activity was enhanced by the addition of sulfate ion and partially suppressed by barbital. The enzyme cross-reacted with the antisera against rat lens and testis aldose reductases on Ouchterlony plate, and migrated to the region of molecular weight of about 36,500 Da on Western blotting. The presence of aldose reductase mRNA was also confirmed by Northern analysis using cDNA for rat aldose reductase, 10Q. From these results, it was concluded that the aldose reductase may exist in rat glomerular mesangial cells and may play a role in the development of diabetic glomerulopathy, though the coexistence of aldehyde reductase(s) may not be fully ruled out.
Diabetes 1992 Sep
PMID:Identification and characterization of aldose reductase in cultured rat mesangial cells. 149 67

Advanced glycosylation endproducts (AGEs) accumulate on long-lived tissue proteins such as basement membrane collagen and have been implicated in many of the long-term complications of diabetes mellitus. These products originate from glucose-derived Schiff base and Amadori products but undergo a series of complex rearrangement reactions to form ultimately protein-bound, fluorescent heterocycles. AGEs can react with and chemically inactivate nitric oxide (NO), a potent endothelial cell-derived vasodilator and antiproliferative factor. Since mesenchymal cell proliferation is an early and characteristic lesion of diabetic vasculopathy and glomerulopathy, we investigated the possibility that collagen-bound AGEs functionally inactivate the antiproliferative effect of NO. In model cell culture systems, AGEs were found to block the cytostatic effect of NO on aortic smooth muscle and renal mesangial cells. The inactivation of endothelial cell-derived NO by basement membrane AGEs may represent a common pathway in the development of the accelerated vascular and renal disease that accompany long-term diabetes mellitus.
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PMID:Advanced glycosylation endproducts block the antiproliferative effect of nitric oxide. Role in the vascular and renal complications of diabetes mellitus. 152 20

The effect of elevated glucose concentrations on the synthesis of basement membrane components was investigated in proliferating cultured porcine mesangial cells. Basement membrane associated heparan sulphate proteoglycan was determined by enzyme immunoassay with a specific antiserum recognizing the core protein of the heparan sulphate proteoglycan. When cells were exposed to increasing glucose concentrations up to 40 mmol/l, the heparan sulphate proteoglycan content was concomitantly decreased to 53% when compared to cells cultured under normal glucose concentrations or in the presence of 40 mmol/l sorbitol. The fibronectin content was essentially unchanged under these conditions. No significant effect of insulin on these basement membrane components was found. The results indicate that hyperglycaemia may be responsible for a decrease of mesangial heparan sulphate proteoglycan content in diabetes mellitus. This supports the view that loss of heparan sulphate proteoglycan may be an important step or even an initial event of mesangial alterations in diabetic glomerulopathy.
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PMID:Elevated glucose decreases the content of a basement membrane associated heparan sulphate proteoglycan in proliferating cultured porcine mesangial cells. 154 25

To evaluate the role of glomerular hypertension, glomerular hypertrophy, glomerular lipid deposition, and plasma cholesterol levels in diabetic glomerulopathy, Munich-Wistar rats received streptozocin and daily insulin injections and were assigned to one of three groups: untreated diabetic (DMC), hydralazine-treated diabetic (DMH), and enalapril-treated diabetic (DME). Age-matched control rats were also studied. At 6-10 wk of diabetes, DMC rats showed marked elevations of glomerular pressure and glomerular filtration rate as well as slight glomerular enlargement and cholesterol elevation. DMH and DME rats exhibited arterial hypotension but no change in cholesterol or glomerular volume. Glomerular pressure was normalized by enalapril but not by hydralazine treatment. Additional rats were followed up to 12 mo of diabetes. Slight hypertension was seen in DMC rats, whereas sustained hypotension occurred in DMH and DME rats. Progressive albuminuria occurred in DMC and DMH but not in DME rats. At 12 mo, glomerular hypertension persisted in DMC and DMH rats but was still absent in DME rats. Cholesterol was elevated in DMC and slightly lower in DMH and DME rats. Glomeruli were equally enlarged in the diabetic groups. Glomerular sclerotic lesions and lipid deposits appeared in DMC and DMH but not in DME rats. These findings are consistent with the notion that glomerular hypertension may promote glomerular injury in experimental diabetes. Glomerular lipid deposition may also participate in this process, although a causal relationship was not demonstrated. Glomerular hypertrophy and cholesterol were unrelated to glomerular injury, although they may have exacerbated hemodynamically mediated damage.
Diabetes 1992 Mar
PMID:Glomerular abnormalities in long-term experimental diabetes. Role of hemodynamic and nonhemodynamic factors and effects of antihypertensive therapy. 155 88

Eight women with insulin-dependent diabetes mellitus (IDDM) with low creatinine clearance rate (CCR) and normal urinary albumin excretion (UAE) were compared with three other groups of diabetic women: 19 with normal creatinine clearance rate (CCR) and UAE, 7 with normal CCR and microalbuminuria, and 7 with low CCR and microalbuminuria. The four groups were similar in age, duration of diabetes, HbA1, incidence of urinary tract infection, prevalence of bladder neuropathy, and urinary urea nitrogen excretion rate. The prevalence of hypertension was similar among the groups, although mean arterial pressure was higher in the low CCR and microalbuminuria group. Renal area index was lower in the low CCR and normal UAE groups than in the other groups of diabetic patients, but was not different from normal. Morphometric measures of mesangial expansion and estimates of arteriolar hyalinosis and global glomerulosclerosis were increased to a similar degree in the low CCR and normal UAE, normal CCR and microalbuminuria, and low CCR and microalbuminuria groups compared with the group without abnormalities of renal function. Therefore, it is likely that diabetic glomerulopathy is, at least in part, responsible for the loss of glomerular filtration rate seen in the low CCR and normal UAE patients. Thus, the definition of incipient nephropathy may have to be expanded beyond the concept of microalbuminuria if longitudinal study of such patients reveals an increased risk of the subsequent development of overt nephropathy. Finally, screening for diabetic kidney disease among IDDM patients should include determination of glomerular filtration rate and measurement of UAE and blood pressure, especially among women.
Diabetes 1992 May
PMID:Glomerular structure in IDDM women with low glomerular filtration rate and normal urinary albumin excretion. 156 27

In a cross-sectional study, glomerular basement membrane (GBM) width, the volume fractions of the mesangium (VvMes), its cell (VvCell) and matrix (VvMatx) components, and surface density of the peripheral capillary surface (SvPGBM) were measured in renal biopsies from 187 nondiabetic living related and cadaveric donors of kidneys for transplantation and from 150 patients with insulin-dependent (type I) diabetes mellitus of 1-41 yr duration. In the diabetic patients, the matrix was the major factor in the expansion of the mesangium. However, both VvCell (0.11 +/- 0.04) and VvMatx (0.20 +/- 10) in diabetic patients exceeded the same measurements in nondiabetic subjects (0.07 +/- 0.02 for each component) (P less than 0.001 in each case). Linear regression analysis demonstrated significant correlations (P less than 0.001 for all) between GBM width, VvMes, VvCell, VvMatx, or SvPGBM and either urinary albumin excretion and creatinine clearance, with the higher correlation coefficients in all cases with albuminuria. Of the structural parameters, VvMatx correlated best with either functional measure by stepwise regression, with GBM as an added factor only with albuminuria. Therefore, although models of diabetic glomerulopathy must consider enlargement of both mesangial cells and matrix, the predominant factor in the progression of structural and functional renal disease is mesangial matrix expansion.
Diabetes 1992 Jun
PMID:Cell and matrix components of the glomerular mesangium in type I diabetes. 158 95

OBJECT OF TREATMENT: Antihypertensive treatment in hypertensive patients with insulin-dependent diabetes mellitus is intended to prevent long-term complications, particularly diabetic nephropathy. DIABETIC HYPERTENSIVES WITH ABNORMAL ALBUMINURIA: Antihypertensive therapy, particularly with angiotensin converting enzyme (ACE) inhibitors, typically produces a permanent reduction in the decline of the glomerular filtration rate (GFR) in diabetic patients with abnormal albuminuria. The rate of decline in the GFR during antihypertensive treatment is a well accepted end-point in diabetic renal disease. DIABETIC HYPERTENSIVES WITHOUT ABNORMAL ALBUMINURIA: In insulin-dependent diabetic patients with essential hypertension but with normal urinary albumin excretion there is no reduction in the GFR. Longitudinal studies have shown a fall in the GFR only in the presence of significantly increased urinary albumin excretion. ABNORMAL ALBUMINURIA AS A MARKER OF INCIPIENT NEPHROPATHY: Micro-albuminuria and proteinuria may be pathogenetic factors in the development of nephropathy, leading eventually to end-stage renal failure in diabetic patients. Measurements of micro-albuminuria and proteinuria, in addition to blood pressure recordings, might therefore be used as indications for initiating antihypertensive treatment. NEED TO MONITOR PATIENTS FOR ABNORMAL ALBUMINURIA: Transglomerular macromolecular traffic may produce mesangial damage, with subsequent glomerulopathy and diabetic nephropathy. Thus, close monitoring for micro-albuminuria and proteinuria is desirable in the management of diabetic hypertensive patients.
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PMID:Micro-albuminuria and the organ-damage concept in antihypertensive therapy for patients with insulin-dependent diabetes mellitus. 161 2

Recent studies in animal models suggest that glomerular capillary hyperperfusion and hypertension, rather than ischemia, cause renal injury. Interventions that control glomerular capillary hypertension may protect against progressive injury, even in the presence of continued systemic hypertension. In the absence of systemic hypertension, diabetes mellitus is a prominent clinical example of glomerular hypertension. Animal studies have shown that glomerular hemodynamic abnormalities, especially elevations in glomerular pressure, play an important role in the pathogenesis of diabetic glomerulopathy. A number of clinical observations suggest that angiotensin converting enzyme (ACE) inhibitors may delay the progression of diabetic nephropathy by their effects on renal hemodynamics. In experimental animals, comparisons between calcium channel blockers and ACE inhibitors have shown the latter to be more effective in protecting the kidneys. Preliminary clinical studies indicate that ACE inhibitors may have advantages in preserving renal function in hypertensive and diabetic patients with renal failure.
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PMID:Renal effects of converting enzyme inhibitors in hypertension and diabetes. 169 12

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