Glomerular size and structure in diabetes mellitus. III. Early enlargement of the capillary surface

Glomerular Volume and Glomerulosclerosis at Different Depths within the Human Kidney

BACKGROUND

Age, CKD risk factors, and kidney function are associated with larger glomerular volume and a higher percentage of globally sclerotic glomeruli. Knowledge of how these associations may differ by cortical depth is limited.

METHODS

To investigate glomerular volume and glomerulosclerosis across different depths of cortex, we studied wedge sections of the renal parenchyma from 812 patients who underwent a radical nephrectomy (for a tumor), separately characterizing glomeruli in the superficial (subcapsular), middle, and deep (juxtamedullary) regions. We compared the association of mean nonsclerotic glomerular volume and of glomerulosclerosis (measured as the percentage of globally sclerotic glomeruli) with age, obesity, diabetes, smoking, kidney function, and structural pathology in the superficial, middle, and deep regions.

RESULTS

The superficial, middle, and deep regions showed significant differences in glomerular volume (0.0025, 0.0031, and 0.0028 µm³, respectively) and in glomerulosclerosis (18%, 7%, and 11%, respectively). There was a marked increase in glomerulosclerosis with age in the superficial region, but larger glomerular volume was not associated with age at any cortical depth. Glomerulosclerosis associated more strongly with arteriosclerosis and ischemic-appearing glomeruli in the superficial region. Hypertension, lower eGFR, and interstitial fibrosis associated with glomerulosclerosis and glomerular volume to a similar extent at any depth. Diabetes and proteinuria more strongly associated with glomerulosclerosis in the deep and middle regions, respectively, but neither associated with glomerular volume differently by depth. Obesity associated more strongly with glomerular volume in the superficial cortex.

CONCLUSIONS

Most clinical characteristic show similar associations with glomerulosclerosis and glomerulomegaly at different cortical depths. Exceptions include age-related glomerulosclerosis, which appears to be an ischemic process and is more predominant in the superficial region.

Neuropilin1 regulates glomerular function and basement membrane composition through pericytes in the mouse kidney

Neuropilin1 (Nrp1) is a co-receptor best known to regulate the development of endothelial cells and is a target of anticancer therapies. However, its role in other vascular cells including pericytes is emergent. The kidney is an organ with high pericyte density and cancer patients develop severe proteinuria following administration of NRP1B-neutralizing antibody combined with bevacizumab. Therefore, we investigated whether Nrp1 regulates glomerular capillary integrity after completion of renal development using two mouse models; tamoxifen-inducible NG2Cre to delete Nrp1 specifically in pericytes and administration of Nrp1-neutralizing antibodies. Specific Nrp1 deletion in pericytes did not affect pericyte number but mutant mice developed hematuria with glomerular basement membrane defects. Despite foot process effacement, albuminuria was absent and expression of podocyte proteins remained unchanged upon Nrp1 deletion. Additionally, these mice displayed dilation of the afferent arteriole and glomerular capillaries leading to glomerular hyperfiltration. Nidogen-1 mRNA was downregulated and collagen4α3 mRNA was upregulated with no significant effect on the expression of other basement membrane genes in the mutant mice. These features were phenocopied by treating wild-type mice with Nrp1-neutralizing antibodies. Thus, our results reveal a postdevelopmental role of Nrp1 in renal pericytes as an important regulator of glomerular basement membrane integrity. Furthermore, our study offers novel mechanistic insights into renal side effects of Nrp1 targeting cancer therapies.

Phlorizin prevents glomerular hyperfiltration but not hypertrophy in diabetic rats

The relationships of renal and glomerular hypertrophies to development of hyperfiltration and proteinuria early in streptozotocin-induced diabetes were explored. Control, diabetic, phlorizin-treated controls, and diabetic male Fischer rats were used. Phlorizin (an Na⁺-glucose cotransport inhibitor) was given at a dose sufficient to normalize blood glucose. Inulin clearance (C_inulin) and protein excretion rate (PER) were measured. For morphometry, kidney sections were stained with periodic acid Schiff. At one week, diabetes PER increased 2.8-folds (P < .001), C_inulin increased 80% (P < .01). Kidney wet and dry weights increased 10%–12% (P < .05), and glomerular tuft area increased 9.3% (P < .001). Phlorizin prevented proteinuria, hyperfiltration, and kidney hypertrophy, but not glomerular hypertrophy. Thus, hyperfiltration, proteinuria, and whole kidney hypertrophy were related to hyperglycemia but not to glomerular growth. Diabetic glomerular hypertrophy constitutes an early event in the progression of glomerular pathology which occurs in the absence of mesangial expansion and persists even after changes in protein excretion and GFR are reversed through glycemic control.

A stereological study of the renal glomerular vasculature in the db/db mouse model of diabetic nephropathy

In diabetic nephropathy, glomerular hypertrophy is evident early in response to hyperglycaemia. Alterations of capillary length and vascular remodelling that may contribute to glomerular hypertrophy and the subsequent development of glomerulosclerosis remain unclear. The present study used the db/db mouse model of Type 2 diabetes to examine the glomerular microvascular changes apparent with long-term diabetic complications. Unbiased stereological methods and high-resolution light microscopy were used to estimate glomerular volume, and glomerular capillary dimensions including length and surface area in 7-month-old db/db diabetic mice and age-matched db/m control mice. The db/db diabetic mice showed significant glomerular hypertrophy, corresponding with elevated blood glucose levels, and increased body weight and kidney weight, compared with db/m control mice. Glomerular enlargement in db/db mice was associated with increases in the surface area (5.387 +/- 0.466 x 10(4) microm2 vs. 2.610 +/- 0.287 x 10(4) microm2; P < 0.0005) and length (0.3343 +/- 0.022 x 10(4) microm vs. 0.1549 +/- 0.017 x 10(4) microm; P < 0.0001) of capillaries per glomerulus, compared with non-diabetic mice. Stereological assessment at the electron microscopic level revealed increased glomerular volume density of mesangial cells and mesangial matrix, and thickening of the glomerular basement membrane in db/db mice. These results demonstrate that glomerular hypertrophy evident in advanced diabetic nephropathy in this model is associated with increased length and surface area of glomerular capillaries. The contribution of angiogenesis and vasculogenesis to the glomerular microvascular alterations in response to hyperglycaemia remain to be determined.

TGF-beta impairs renal autoregulation via generation of ROS

Impaired autoregulation in chronic kidney disease can result in elevation of glomerular capillary pressure and progressive glomerular damage; however, the factors linking chronic glomerular disorders to impaired autoregulation have not been identified. We tested the hypothesis that the cytokine most closely associated with progressive glomerular disease, transforming growth factor (TGF)-beta, may also attenuate autoregulation. Kidneys from normal rats were prepared for videomicroscopy, using the blood-perfused juxtamedullary nephron technique. Autoregulatory responses were measured under control conditions and during superfusion with TGF-beta1 (10 ng/ml). Control afferent arteriolar diameter averaged 18.4 +/- 1 microm and significantly decreased to 16.3 +/- 0.9 and 13.2 +/- 0.8 microm at perfusion pressures of 130 and 160 mmHg, respectively. In the presence of TGF-beta1, autoregulatory responses were completely blocked. In similar experiments performed using PDGF-BB (10 ng/ml) and HGF (25 ng/ml), the normal autoregulatory response was not affected. In vitro studies, using isolated preglomerular vascular smooth muscle cells, revealed that exposure to TGF-beta1 stimulated a rapid increase in reactive oxygen species (ROS) that was inhibited by NADPH oxidase inhibitors. In situ studies, with dihydroethidium staining, revealed a marked increase in renal vessel ROS production on exposure to TGF-beta1. Pretreatment of the juxtamedullary afferent arterioles with tempol, a ROS scavenger, or with apocynin, a NADPH oxidase inhibitor, prevented the impaired autoregulation induced by TGF-beta1. These data reveal a novel hemodynamic pathway by which TGF-beta could lead to progressive glomerular injury by impairing normal renal microvascular function.

Diabetic nephropathy and retinopathy

Diabetic nephropathy and retinopathy are arguably the two most dreaded complications of diabetes. Together they contribute to serious morbidity and mortality. As they progress to end-stage renal disease and blindness, they impose enormous medical, economic,and social costs on both the patient and the health care system. Because nephropathy and retinopathy are frequently linked in patients,this article reviews their common and individual aspects of pathophysiology, clinical features, and management.

Estimating mean glomerular volume using two arbitrary parallel sections

The most reliable method for estimation of mean glomerular volume (MGV), the disector/Cavalieri method, is technically demanding and time consuming. Other methods suffer either from a lack of precise correlation with the gold standard or from the need for a large number of glomeruli in the sample. Here, a new method (the 2-profile method) is described; it provides a reliable estimate of MGV by measuring the profile area of glomeruli in two arbitrary parallel sections. MGV was estimated in renal biopsies from 16 diabetic patients and 13 normal subjects using both the Cavalieri and the 2-profile methods. The range of individual glomerular volumes based on the Cavalieri measurements was 0.31 to 4.02 x10(6) micro m(3). There was a high correlation between the two methods for MGV (r = 0.97; P < 0.0001). However, the 2-profile method systematically overestimated MGV (P = 0.0005, paired t test). This overestimation was corrected by introducing a multiplication factor of 0.91, after which statistical criteria of interchangeability with the Cavalieri method were met. The optimal distance between two sections was determined as 20 micro m with a coefficient of variation of 7.4% in repeated measurements of MGV. On the basis of findings that values for MGV stabilize after ten glomeruli are measured by the disector/Cavalieri method, it was determined that the accuracy of MGV by the 2-profile method obtained by eight glomeruli was less than 7% different from ten in all cases. Thus, the 2-profile method is a practical alternative to the disector/Cavalieri method for estimating MGV, especially in small samples and blocks with limited residual tissue.

Methods for estimating the volume of individual glomeruli

Methods for estimating the volume of individual glomeruli.

BACKGROUND

The Cavalieri and maximal planar area (MPA) methods are commonly used to measure the volume of individual glomeruli. Previous studies have suggested that the MPA method, which is less laborious, yields values that are much greater than those obtained by the Cavalieri method. The current study re-examined the relationship of MPA and Cavalieri values for glomerular volume in humans and rats.

METHODS

Both methods were used to measure the volume of 1201 glomeruli from 58 humans and 281 glomeruli from 15 rats. Tissue was embedded in Epon. Further mathematical analysis was performed to assess the extent to which deviation of glomeruli from spherical shape affects the relationship of values obtained by the MPA and Cavalieri methods.

RESULTS

MPA values exceeded Cavalieri values by an average of only 14 +/- 22% in humans and 6 +/- 16% in rats. The relationship of MPA to Cavalieri values was similar in individual humans and rats, with widely varying values for average glomerular volume. Neither the development of sclerosis nor the loss of any connection to a tubule affected the relationship of the MPA and Cavalieri values for the volume of individual glomeruli. Mathematical analysis showed that MPA values would not exceed Cavalieri values if glomeruli had ellipsoidal rather than spherical shape.

CONCLUSION

Similar values for glomerular volume are obtained using the Cavalieri and MPA methods in humans and rats.

Stereologic methods and their application in kidney research

Stereologic methods are used to obtain quantitative information about three-dimensional structures based on observations from section planes or--to a limited degree--projections. Stereologic methods, which are used in biologic research and especially in the research of normal and pathologic kidneys, will be discussed in this review. Special emphasis will be placed on modern stereologic methods, free of assumptions of the structure, size, and shape, etc., so-called UFAPP (unbiased for all practical purposes) stereologic methods. The basic foundation of all stereology, sampling, will be reviewed in relation to most of the methods discussed. Estimation of error variances and some of the basic problems in stereology will be reviewed briefly. Finally, a few comments will be made about the future directions for stereology in kidney research.

Podocyte loss and progressive glomerular injury in type II diabetes

Kidney biopsies from Pima Indians with type II diabetes were analyzed. Subjects were classified clinically as having early diabetes (n = 10), microalbuminuria (n = 17), normoalbuminuria, despite a duration of diabetes equal to that of the subjects with microalbuminuria (n = 12), or clinical nephropathy (n = 12). Subjects with microalbuminuria exhibited moderate increases in glomerular and mesangial volume when compared with those with early diabetes, but could not be distinguished from subjects who remained normoalbuminuric after an equal duration of diabetes. Subjects with clinical nephropathy exhibited global glomerular sclerosis and more prominent structural abnormalities in nonsclerosed glomeruli. Marked mesangial expansion was accompanied by a further increase in total glomerular volume. Glomerular capillary surface area remained stable, but the glomerular basement membrane thickness was increased and podocyte foot processes were broadened. Broadening of podocyte foot processes was associated with a reduction in the number of podocytes per glomerulus and an increase in the surface area covered by remaining podocytes. These findings suggest that podocyte loss contributes to the progression of diabetic nephropathy.

Expression of nitric oxide synthase in macula densa in streptozotocin diabetic rats

Renal haemodynamic changes are suggested to be an early sign of diabetic glomerulopathy. The juxtaglomerular apparatus relevant to the renin angiotensin system, known to be the site of nitric oxide (NO) production, is considered to play a role in the regulation of glomerular blood flow. This study was therefore designed to clarify whether in situ expression of nitric oxide synthase (NOS) is altered in the kidney of diabetic rats. Streptozotocin-induced diabetic rats with 6, 8, 12 and 32 weeks diabetes duration and age-matched normal control rats were used. The expression of a constitutive form of NOS (cNOS, neural type) and NADPH diaphorase activity in the renal cortex were studied immunohistochemically and histochemically. Diabetic rats had lower body weight and heavier kidney mass compared to control rats at each time point examined. Mean glomerular surface area was greater in 6, 8 and 12-week diabetic rats compared to age-matched control rats. cNOS reaction was localized in the macula densa and appeared less intense in diabetic rats compared to age-matched control rats. The mean number of macula densa cells positive for cNOS in each glomerulus and in each glomerular area was significantly lower in diabetic rats compared to control rats at any time examined. In contrast, NADPH diaphorase activity was detected in both juxtaglomerular arterioles and macula densa cells. The staining reaction of NADPH diaphorase in the arterioles remained positive but appeared less intense in macula densa cells in diabetic rats. These results suggest that NO production in macula densa cells may be reduced in diabetic rats, modulating the vasodilatory function of afferent arterioles. Further investigation on the changes in inducible NOS as well as endothelial cNOS are necessary to clarify mechanisms of haemodynamic changes in the diabetic kidney.

Type II diabetic nephropathy in perspective

The magnitude of type II diabetic nephropathy dilemma is observable in the growing number of diabetic patients with end-stage renal lesion receiving various modalities of treatment. Progressive glomerulopathy associated with proteinuria and hypertension is strongly causative of renal failure and mortality in diabetic patients. Besides hypertension, diabetes exceeds all other glomerulopathies in causing end-stage renal failure. Alterations in glomerular structure and function observed in diabetic patients are implicated in the development and progression of renal derangement. Diabetic glomerulosclerosis, an aggregate of structural and functional perturbations of the kidney, is indicated by alterations in the accumulation of extracellular matrix components, The pathology, epidemiology, risk factors, and other dependent variables may throw some light in the pathogenetic mechanisms and the prevention, treatment, and management modalities of type II diabetic nephropathy.

Mechanisms of diabetic nephropathy

Diabetes leads to end-stage renal disease in a considerable fraction of patients. A number of risk factors for this process can be identified. These include glycemic control, familial and ethnic risks, and hemodynamic alterations in both systemic and intrarenal hypertension. This latter category of hemodynamic risks may interact with metabolic and genetic influences to ultimately produce progressive diabetic nephropathy. However, manipulation of these vascular stresses by antihypertensive therapy presently offers the most efficacious means of influencing the progression and perhaps even clinical appearance of diabetic nephropathy.

Alteration of mesangial response to ANP and angiotensin II by glucose

To test the hypothesis that the function of glomerular mesangial cells is impaired in diabetes, we examined the responsiveness of mesangial cells cultured under high concentrations of glucose to atrial natriuretic peptide (ANP1) and angiotensin II (Ang II). The ANP-induced accumulation of cGMP was enhanced in mesangial cells cultured under high glucose conditions, possibly due to the activation of particulate guanylate cyclase. Ang II action in mesangial cells was evaluated by measuring the ability of Ang II to inhibit ANP-induced cGMP accumulation through both activating phosphodiesterase (initial phase) and inhibiting guanylate cyclase (maintenance phase). The inhibition of both ANP-induced cellular cGMP accumulation and particulate guanylate cyclase activity by Ang II was significantly reduced in mesangial cells cultured under high concentrations of glucose. Moreover, in the cells exposed to high concentrations of glucose, both basal and Ang II-stimulated levels of inositol 1,4,5-trisphosphate (IP3) were significantly reduced. These results indicate that, in high glucose conditions, the actions of ANP and Ang II are modulated differently, resulting in the impairment of contractile responsiveness of mesangial cells.

Diabetic nephropathy

Diabetic nephropathy occurs in approximately 35% of all diabetic patients, both insulin and non-insulin dependent. It accounts for the largest proportion increase of all diseases as a cause for endstage renal disease in the United States. Certain populations, i.e., Pima Indians and Mexican and black Americans, have a higher propensity for developing diabetic nephropathy. The reasons for this increased incidence, however, are unclear. Pathophysiologically, numerous changes in vascular reactivity and renal physiology occur in early diabetes. These include increased sodium avidity, lower threshold for vasoconstriction secondary to angiotensin II and norepinephrine, a greater than 50% of normal increase in renal vasodilation following a protein meal, and loss of renal autoregulation. These differences are not seen in nondiabetic hypertensive subjects. The therapeutic approach to lower elevated arterial pressure in these patients should take these changes in physiology into account. Specifically, antihypertensive agents are preferred that have natriuretic properties and also blunt the effects of vasoconstrictors on both the vasculature and the cellular level, i.e., inhibit mesangial hypertrophy and matrix expansion, the hallmark of diabetes. Ideal agents, therefore, are angiotensin converting enzyme (ACE) inhibitors in the early stages of the disease, and certain calcium antagonists once renal insufficiency occurs. These choices are largely due to the hemodynamic, natriuretic, and anti-proteinuric effects of these agents. Good blood pressure control is essential for preservation of renal function, regardless of agents used. The ACE inhibitors and calcium antagonists of the verapamil and diltiazem groups have demonstrated superior efficacy for preservation of renal function over conventional therapy.

The impact of experimental diabetes mellitus in rats on glomerular capillary number and sizes

The structural counterpart of the increased glomerular filtration found in acute diabetes mellitus and experimental diabetes has been ascribed to the increased glomerular filtration surface. Using modern design-based stereological methods and light microscopy on perfusion-fixed rat kidneys the average total surface area of capillaries per glomerulus in control rats was 291 +/- 42 10(-3) mm2 (+/- SD) increasing to 383 +/- 55 10(-3) mm2 in 10-day-diabetic rats. There was a further increase to 469 +/- 70 10(-3) mm2 in 50-day-diabetic rats. The average total length of capillaries per glomerulus increased from 12.5 +/- 2.2 mm in the control rats to 16.9 +/- 2.4 mm in the 10-day-diabetic rats whereas the further increase to 19.4 +/- 3.0 mm in the 50-day-diabetic rats failed to reach statistical significance. The average number of topologically defined capillaries per glomerulus increased from 215 +/- 29 in the control rats to 260 +/- 45 and 316 +/- 29 in the 10-day-diabetic and 50-day-diabetic rats, respectively. The results showed just a slight increase in the mean length of a capillary from 58.1 +/- 6.2 microns in the control rats to 65.6 +/- 2.6 microns in the 10-day-diabetic rats after which it normalized in the 50-day-diabetic rats to 61.3 +/- 3.6 microns. The geometric factor or "resistance" in Poiseuille's law did not differ between the three groups, neither did the diameter of the capillaries, nor the number of glomeruli.(ABSTRACT TRUNCATED AT 250 WORDS)

The effects of angiotensin-converting enzyme inhibitors on the clinical and biochemical parameters in diabetic nephropathy

Captopril's short-term effects on clinical and biochemical parameters were studied in 21 diabetic nephropathic patients. Their mean age was 57.50 +/- 2.28 years; 16 of them were women and 5 were men. Eleven patients had been regulated with insulin and 10 of them had been regulated with oral antidiabetics. Fifteen patients were microalbuminuric (200 mg/daily and below albuminuria) and their mean diabetes mellitus history was 14.86 +/- 1.44 years. Six patients had advanced diabetic nephropathy (400 mg/daily and above albuminuria). Their mean diabetes mellitus history was 4.50 +/- 2.87 years. Captopril in a low dose (37.5 mg/daily p.o., three separated doses) was given during 20 days. In the microalbuminuria group there were insignificant alterations in renal function, blood glucose levels, and systolic blood pressure. Diastolic blood pressure decreased significantly in this group (p < .05). Microalbuminuria increased significantly after the therapy in this group (p < .05). In the advanced diabetic nephropathy group, blood glucose and systemic blood pressure levels did not change significantly (p > .05), while serum BUN and creatinine levels increased significantly (p < .05), and GFR decreased significantly in this group (p < .05). Albuminuria decreased after the therapy in this group (p < .05). In all study groups, serum potassium levels increased significantly while serum total protein and albumin levels did not change significantly.We concluded that in the microalbuminuria group, increasing microalbuminuria may be related to a captopril-induced increase in renal plasma flow rate and single nephron glomerular filtration rate. This increase in microalbuminuria cannot be related with blood glucose levels, renal functions, and systemic blood pressure alterations.(ABSTRACT TRUNCATED AT 250 WORDS)

Correlation between mitochondrial enlargement in renal proximal tubules and microalbuminuria in rats with early streptozotocin-induced diabetes

To clarify the ultrastructural changes in renal proximal tubules causing microalbuminuria in the early stage of diabetic nephropathy, three different groups of rats were prepared: rats with streptozotocin (STZ)-induced diabetes given no treatment (DMut; n = 7), rats with STZ-induced diabetes treated with insulin (DMt; n = 7), and non-diabetic rats injected with citrate buffer (control; n = 7). In each group, the laboratory findings, ATP content of the renal cortex, and the size of proximal tubule cells and their nuclei and mitochondria (MT) were determined. In two weeks after the start of the study, MT in renal proximal tubules showed diffuse enlargement in the DMut group as compared with those in the control group. Renal cortical ATP content, fractional sodium excretion (FENa), urinary excretion of beta 2-microglobulin and albumin were also increased significantly in the DMut group relative to the controls. In the DMt group, most of the examined parameters returned almost to normal. There were positive correlations between each of the following parameters: hyperglycemia and MT enlargement, MT enlargement and increased cortical ATP content, increased cortical ATP content and increased FENa, increased FENa and increased urinary excretion of beta 2-microglobulin and albumin. On the basis of these results, we conclude that mitochondrial enlargement, resulting from disturbed metabolism of ATP, may reduce active transport in renal proximal tubules, which, in turn, may impair reabsorption in the tubules. This would cause urinary excretion of low-molecular-weight proteins and microalbumin in the early stage of diabetic nephropathy.

Mitochondrial enlargement and basement membrane thickening of renal proximal tubules, possible initiators of microalbuminuria in non-insulin-dependent diabetics (NIDDM)

To clarify the morphological changes in renal proximal tubules at the onset of diabetic nephropathy, we observed 177 biopsy samples from patients with Non-Insulin-Dependent Diabetics (NIDDM) using light and electron microscopy. Group I had no proteinuria (p.u.), group II had p.u. < or = 0.5 g/day, group III had p.u. > 0.5 g/day, group IV had serum creatine level (Cr) > 1.5 mg/dl. Twenty age-matched normal patients and 80 patients with IgA nephropathy were used as controls. In groups I and II, the following features were significantly different from those in the controls: spherical enlargement of mitochondria (MT) in proximal tubule cells, hypertrophy of proximal tubule cells and their nuclei, and thickening of both the proximal tubule basement membrane (TBM) and the glomerular basement membrane (GBM). Among the histological changes observed in group I, the thickness of the GBM and TBM indicated that the disease would lead to diabetic nephropathy. MT enlargement was positively correlated with nuclear and cytoplasmic enlargement of the proximal tubule cells in diabetic patients (p < 0.05), but was not correlated with other morphological changes or disease prognosis. Glomerular nodular lesions, glomerular sclerotic change, and cortical tubulointerstitial fibrosis became evident in groups III and IV. From the above, we concluded that MT enlargement and thickening of the TBM are possible causes of reduced active transport in the proximal tubules, causing microalbuminuria in diabetics, and initial impairment of post-tubule transport.

Glomerular structural changes in type 1 (insulin-dependent) diabetes mellitus: causes, consequences, and prevention

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.

The number of glomeruli in type 1 (insulin-dependent) and type 2 (non-insulin-dependent) diabetic patients

The number of glomeruli per kidney in Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetic patients was estimated by an unbiased stereological method: the fractionator. No significant differences were observed between Type 1 and Type 2 diabetic patients without severe diabetic glomerulopathy and non-diabetic patients. Diabetic patients with proteinuria who were in the early stages of diabetic nephropathy also had a normal number of glomeruli. On the other hand, a subgroup classified as Type 1 diabetic patients with severe diabetic glomerulopathy had significantly less glomeruli compared with Type 1 diabetic patients with mild or no glomerulopathy. A probable explanation is that Type 1 diabetic patients lose glomeruli in relation to the progression of diabetic glomerulopathy. A more theoretical alternative is, however, that development of diabetic glomerulopathy is facilitated by a low number of glomeruli.

Inhibition of cellular autophagy in proximal tubular cells of the kidney in streptozotocin-diabetic and uninephrectomized rats

To examine the significance of anti-catabolism in renal hypertrophy, cellular autophagy was investigated by electron microscopic morphometry in proximal tubular cells (PTCs) of the outer cortex of the rat kidney after the induction of diabetes mellitus by streptozotocin (STZ) and after unilateral nephrectomy. Adult male Sprague-Dawley rats were divided into three groups and killed by retrograde perfusion fixation, 1, 2 and 3 days after the induction of diabetes (group D; n = 24), after unilateral nephrectomy (group N; n = 24) and after combined treatment (group DN; n = 24). Untreated, age-matched litter mates served as controls (group C; n = 24). By comparison with these controls, the left kidney to initial body weight ratio was increased by 8, 23, and 15% in group D animals, by 8, 23, and 24% in group N animals, and by 10, 21, and 25% in group DN animals at the first, second and third day, respectively. Quantitative evaluation of large test areas showed that the volume and numerical densities of autophagic vacuoles (AVs) in PTCs were significantly lower in these hypertrophed kidneys than in the controls. The average reduction in AV volume density was about 65% in group D animals, about 50% in group N animals and about 75% in group DN animals. These data show that autophagic degradation of cytoplasmic components in PTCs is inhibited in renal hypertrophy independently of the growth stimulus, i.e. uninephrectomy or diabetes. Since insulin per se inhibits cellular autophagy in PTCs, the expected effect of insulin dificiency seems to be counteracted by as yet undefined stimuli that may be related to metabolic work load.

Glomerular number and size in relation to age, kidney weight, and body surface in normal man

The number and size of glomeruli in normal, mature human kidneys were estimated by a direct and unbiased stereological method, the fractionator. The number was 617,000 on average, and the mean size 6.0 M microns3. Both glomerular number and size showed significant negative correlation to age and significant positive correlation to kidney weight. Apparently, humans loose glomeruli with age. Body surface area correlated positively to kidney weight and total glomerular volume but not to number of glomeruli. Body surface area correlates significantly with metabolic rate (Robertson and Reid, Lancet, 1: 940-943, 1952). Thus, intraspecies adaptation of kidney filtration capacity to the metabolic demand is performed by changing the size of glomeruli, i.e., the number of glomeruli in individuals of a given species is independent of the metabolic rate.

Renal hemodynamics and segmental tubular reabsorption in early type 1 diabetes

To investigate mechanisms underlying GFR control in diabetes mellitus, renal hemodynamics and segmental tubular handling of sodium, using lithium clearance, were assessed in 41 insulin-dependent diabetics (IDD) treated by insulin for 11 +/- 8 days, and in 19 normal controls. Average GFR and effective renal plasma flow (ERPF) were slightly but not significantly higher (136 +/- 22 vs. 123 +/- 16 ml/min.1.73 m2) in IDD than in normal subjects. GFR and ERPF were positively and strongly correlated in controls (r = 0.61, P less than 0.001) and in diabetics (r = 0.72, P less than 0.0001) indicating the marked flow dependency of GFR in both populations. After adjustment for ERPF, GFR was significantly higher in diabetics, suggesting a role of increased glomerular capillary pressure and ultrafiltration coefficient in the subset of "hyperfiltering" patients. Both fractional (FPRNa) and absolute (APRNa) proximal sodium reabsorption were significantly higher in IDD and significantly correlated with GFR. The ensuing decrease in sodium distal delivery could deactivate the tubuloglomerular feedback response and thus favor sustained vasodilation and high GFR in some diabetics. The renal effects of acute administration of drugs acting predominantly at either the pre- or the postglomerular resistance using nicardipine (N = 16) or captopril (N = 25) were further evaluated in IDD. The renal response to captopril or nicardipine was different in IDD. Whereas both drugs induced a marked decrease in renal vascular resistance, GFR was slightly decreased by captopril and was unchanged after nicardipine; these results are similar to those observed in normotensive non-diabetic subjects.(ABSTRACT TRUNCATED AT 250 WORDS)

Studies of renal autoregulation in pancreatectomized and streptozotocin diabetic rats

We studied renal autoregulation in pancreatectomized Munich-Wistar diabetic rats and in their sham-operated controls. In a second experiment we studied renal autoregulation in untreated and insulin treated streptozotocin diabetic Munich-Wistar rats and their nondiabetic controls. In the first experiment the diabetic rats had higher baseline renal blood flows (RBF). There was a fall in renal vascular resistance (RVR) and sustained RBF in both diabetic and control rats as renal perfusion pressures (RPP) was reduced from 130 and 110 mm Hg. As RPP was reduced from 110 and 80 mm Hg, there was no significant Change in RVR in control rats and RBF began to fall. Below RPP of 80 mm Hg RVR rose and RBF fell sharply in these rats. In contrast, there was a progressive fall in RVR as RPP was lowered to 60 mm Hg in the diabetic rats and, thus, RBF was much better sustained in these animals. In the second experiment the plasma glucose level was 502 +/- 52 mg/dl (X +/- SD) in the untreated diabetic rats and only modestly reduced to 411 +/- 49 mg/dl in the insulin treated animals. Untreated streptozotocin diabetic rats had moderately reduced and insulin-treated diabetic rats had mildly reduced baseline RVR and RBF. However, in these animals as in the pancreatectomized rats the increases in RVR noted in control rats at subautoregulatory RPPs were not seen. Thus, regardless of whether baseline RBFs were increased or decreased, diabetic rats sustained RBF at markedly reduced RPPs far more efficiently than did nondiabetic rats. The pathogenesis of these abnormalities in diabetic rats was not learned in these studies.(ABSTRACT TRUNCATED AT 250 WORDS)

Aldose reductase in the etiology of diabetic complications: 2. Nephropathy

The progression of diabetic nephropathy can be arrested by an improvement in diabetic control. High glucose concentrations increase the flux through the aldose reductase pathway, and it has been proposed that this may contribute to renal damage. Aldose reductase is present in both the glomerulus and the renal tubule. Biochemical changes associated with increased sorbitol production have been demonstrated in animal models, including myo-inositol depletion, reduced Na+-K+ ATPase activity, and activation of the pentose phosphate and glucuronate-xylose pathways. Selective inhibition of aldose reductase reverses these biochemical changes and prevents some of the structural and functional abnormalities in diabetic rats. The potential beneficial effects of aldose reductase inhibitors on diabetic kidney disease in man are at present being investigated.

Diabetic nephropathy in insulin-dependent diabetic patients: renal hemodynamics and derived treatment strategies

Late complications such as retinopathy and neuropathy contribute substantially to the morbidity of patients with diabetes mellitus but have only moderate effect on their life expectancy. However, once diabetic nephropathy occurs, life expectancy of patients with diabetes mellitus is shortened considerably. This review discusses briefly several possible pathogenetic mechanisms involved in the development of diabetic nephropathy. Changes in renal hemodynamics as the initiating and contributing factor to the development of diabetic nephropathy are discussed in more detail. Finally, the article reviews possible therapeutic measures to prevent the development of diabetic nephropathy, or to slow down its progression.

Glomerular filtration rate and kidney volume in normoalbuminuric non-insulin-dependent diabetics--lack of glomerular hyperfiltration and renal hypertrophy in uncomplicated NIDDM

Glomerular filtration rate (GFR) and kidney volume were evaluated in 18 healthy normoalbuminuric non-insulin-dependent diabetic patients and compared to 12 healthy controls matched for sex, age and body mass index (BMI). The patients (12 males, six females) were 61.6 +/- 3.4 (mean +/- SD) years old, the known diabetes duration was 5 +/- 4.8 years, fasting plasma glucose 8.6 +/- 2.3 mmol/l, urinary albumin excretion rate 7.9 x/divided by 2.0 micrograms/min, BMI 26.8 +/- 2.8 kg/m2 and blood pressure systolic/diastolic 145 +/- 19/82 +/- 7 mmHg. The GFR was measured by the plasma clearance of [51Cr]EDTA, using a single shot procedure. The kidney volume was measured by ultrasonic scanning. The GFR was not increased in diabetics: 100.4 +/- 16.7 ml/min/1.73 m2 as compared to controls: 93.8 +/- 11.4 ml/min/1.73 m2. The kidney volume was similar in the two groups. Diabetics: 231.1 +/- 33.4 ml/1.73 m2.

CONTROLS

236.3 +/- 45.7 ml/1.73 m2. There was a borderline significant correlation between kidney volume and GFR (r = 0.40, p = 0.10) in diabetics. No correlation between glycosylated haemoglobin and GFR was found in diabetics. In contrast to the findings in insulin-dependent diabetes renal hypertrophy and hyperfunction were not characteristic features in this series of non-insulin-dependent diabetics. It is suggested that diabetic glomerulopathy is not always a consequence of long-standing hyperfiltration.

Diabetic microangiopathy, genetics, environment, and treatment

As the major cause of disability and death in insulin-dependent diabetes, microangiopathy is obviously of major concern to diabetologists. Unlike macroangiopathy, which can readily be prevented by means that are currently on hand, the origin and treatment of microangiopathy remain far more problematical. The complexity of this lesion is indicated by the findings in this laboratory that hyperglycemia induced by the rodenticide, vacor, can cause microangiopathy independent of genetic diabetes, yet significant microangiopathic lesions can be detected in genetic diabetic patients before the appearance of hyperglycemia. Further, there is now intriguing evidence based both on basement membrane measurements from our laboratory and on clinical studies showing that significant microangiopathy only rarely occurs prior to the onset of puberty. The evidence that control or even normalization of blood glucose levels does not influence the course of established microangiopathy is becoming increasingly convincing. Five prospective, randomized studies over the past five years have shown that strict regulation of glucose has no consistent benefit on, and in some studies may, at least transiently, accelerate, the retinopathy of diabetes. Moreover, the first controlled study of successful pancreatic transplantation to achieve normalization of blood glucose levels has again demonstrated that established retinopathy is neither prevented nor even delayed by normal glucose levels. This review, therefore, emphasizes that, though hyperglycemia is required for clinically significant microangiopathy to occur, clearly other factors, genetic, environmental, or both, must play major roles in determining the course of microangiopathy. It is toward these nonglycemic factors in the development of diabetic microangiopathy that future research should increasingly be directed.

A strong correlation between glomerular filtration rate and filtration surface in diabetic nephropathy

Quantitative structural studies were performed in kidney biopsy specimens from 24 long-term Type 1 (insulin-dependent) diabetic patients with persistent albuminuria due to diabetic glomerulopathy. Ten patients were receiving antihypertensive treatment, and among the remaining patients the mean blood pressure was 142/91 mm Hg (SD = 11/9). The urinary albumin excretion rate showed a range from 100 to 5494 micrograms/min (geometric mean 688 micrograms/min.) Glomerular filtration rate also showed a wide range, from supranormal to markedly decreased values (128 to 28 ml.min-1. (1.73 m2)-1, mean 75). The filtration surface (interface between capillary and urinary space) per total number of nephrons (open + occluded) was estimated by combined light-and electron microscopy. The percentage occluded glomeruli as well as structural quantities in the open glomeruli were taken into account in this estimate. A highly significant correlation was seen between glomerular filtration rate and filtration surface per nephron (r = 0.77, p less than 10(-4). The percentage occluded glomeruli contributed significantly to the variation in glomerular filtration rate (for this relationship tested separately r = -0.78, p less than 10(-5). The volume of open glomeruli was even larger than that seen in early diabetic glomerular hypertrophy and tended to increase with the percentage of glomerular closure, indicating that a compensatory hypertrophy might have taken place. In the open glomeruli the filtration surface constituted a smaller percent of total capillary surface (the remaining part facing the mesangial regions) than in early diabetic patients and control subjects. Our study has demonstrated that reduced glomerular filtration surface is closely associated with reduced glomerular filtration rate in Type 1 diabetic patients with diabetic nephropathy.

Prognostic implications of renal hypertrophy in diabetes mellitus

Early in the course of type 1 diabetes mellitus, hypertrophy of the kidney is a consistent finding that is easily diagnosed using current noninvasive methods, especially ultrasonography. Renal functional changes occur in association with hypertrophy, most notably glomerular hyperfiltration. The structural counterpart of this functional change is an early increase in capillary filtration surface area. In most forms of nondiabetic renal hypertrophy, kidney size is closely linked to GFR. In contrast, in diabetes, persistence of hypertrophy after the clinical onset of overt kidney disease (microalbuminuria, hypertension, decreased GFR, etc.) suggests that sustained release of one or more growth factors may continue even after kidney function declines. The fact that growth factors can act in both an autocrine and paracrine fashion raises the possibility that the local effects of such substances may act as local mediators of kidney growth. Failure of renal hypertrophy to reverse following strict glycemic control for a few months may turn out to be an important prognostic indicator of future progression of the renal disease, but this remains to be established. Prospective studies of kidney size in patients with newly diagnosed type 1 diabetes, using accurate noninvasive methods, may be helpful in establishing whether irreversible ("autonomous") hypertrophy of the kidney is indeed a useful prognostic indicator. As therapies are developed that target the different microvascular complications of diabetes (retinopathy, nephropathy, neuropathy), a noninvasive estimation of kidney size may be a cost-effective method of predicting ultimate renal involvement. Since microalbuminuria occurs relatively late in the disease process, early and persistent hypertrophy of the kidney may become a useful prognostic test in the earliest stages of the disease.

Glomerular membranopathy in adolescents with insulin-dependent diabetes

Kidney biopsy specimens from 15 patients ranging in age from 11 to 19 years with two- to 14-year histories of insulin-dependent diabetes mellitus were evaluated electron microscopically. Although the mean duration of disease was only eight years, the glomerular basement membrane (GBM) in these patients showed a variety of alterations typical of insulin-dependent diabetes mellitus. Saccular glomerular microaneurysms, previously little recognized, were seen in six of the specimens. These lesions, always associated with breaks in the paramesangial BM, were morphologically distinct from the ectatic capillary loops and glomerular capillary aneurysms described previously in diabetic glomerulopathy. All of the patients with such aneurysms also had other severe GBM alterations. Lytic or mechanical injury to the structurally and biochemically altered diabetic GBM may be responsible for the formation of microaneurysms.

Are the 'second generation' oral hypoglycemic agents really different?

The common denominator of the numerous data collected from experimental studies on isolated organs, on healthy subjects and on diabetic patients, is a specific effect of sulfonylureas on insulin release in the presence (or absence) of glucose. However, there are significant differences in the capacity of the various chemical preparations active in that respect. There are biochemical data suggesting that the glyburide- and chlorpropamide-type of preparations are affecting sites of the B-cells that are different from both the glucose and the tolbutamide receptors. Thus, glibenclamide seems to be qualitatively different from the older sulfonylureas, being more a potentiator than a stimulator. Therefore, we called this type the representative of 'the second generation' drugs. The extra-B-cell actions of these drugs, predominantly the stimulation of somatostatin and the inhibition of glucagon, are favorably adding to these antidiabetic actions. In clinical therapy, these specific properties make it possible to diagnose and to treat patients successfully who were regarded before as being non-responsive to sulfonylureas and being insulin-dependent. On the basis of blood glucose decreases and C-peptide increases, a specific glibenclamide-glucose-response-test has been described which is a valuable medium for predicting the outcome of oral antidiabetic therapy.

Diabetic nephropathy. Is end-stage renal disease inevitable?

The appearance of proteinuria in an insulin-dependent diabetic patient is an ominous sign. Proteinuria heralds the presence of diabetic nephropathy and early death, or chronic renal failure requiring dialysis or transplantation, in 50% of patients. The pathogenesis of diabetic nephropathy is unknown. Adequate insulin administration is the most important preventive measure. Hypertension, if present, should be aggressively treated to delay progression of renal disease. Good nutrition, prompt treatment of urinary tract infections, and caution in the use of radiocontrast agents are other important preventive measures. Hemodialysis, peritoneal dialysis, and transplantation are options for patients with end-stage renal disease. No matter which is selected, the patient may still have multiple amputations, blindness, congestive heart failure, infections, and uncontrolled glycemia. Advancements are being made, however, that promise a better future for insulin-dependent diabetics.

Hemodynamic factors in the genesis of diabetic microangiopathy

There are many candidate mechanisms to explain the phenomenon of delayed microvascular disease in the diabetic. All may play some part in determining the genesis, the evolution or the ultimate degree and form of the angiopathy. General metabolic and humoral factors may provide the pathogenetic background against which special local conditions, e.g., in the retina or renal cortex, will determine the morphology of the angiopathy and its functional and structural consequences. Some of the processes occurring in the diabetic person may, however, be of major importance in initiating and maintaining conditions for the evolution of microvascular disease. The hemodynamic changes and the vascular responses to them that we have described are, we suggest, very likely to be an important component of this sort. Unlike the later structural changes, these hemodynamic phenomena are to be found very early in the diabetic state. Of most clinical importance, perhaps, is that they appear, with the achievement of adequate metabolic correction, to be reversible.

Glomerular manifestations of diabetes in the BB rat

Morphologic characteristics of the renal glomeruli and tubules of BB rats with spontaneous diabetes mellitus were studied at 30 weeks' duration of diabetes. Whereas the glomerular basement membrane (GBM) was significantly thickened, no changes in the diabetic glomeruli were seen in the peripheral capillary wall area and in the fractional volumes of the mesangial cells or of the mesangial matrix. Light microscopy of the diabetic kidneys were normal, and immunofluorescent examination of diabetic glomeruli showed no increased accumulation of albumin, C3, or IgG. Diabetic rats had increased renal blood flow and glomerular filtration rates. Diabetic rats at 7, 17, and 30 weeks excreted normal amounts of urinary albumin. Thus kidneys of the BB diabetic rat differ from other experimental models of diabetes in that GBM thickening occurs in the absence of mesangial changes and of increased albuminuria. These studies suggest that the mesangium may influence glomerular permeability in diabetes, while thickening of the GBM in diabetes does not necessarily coincide with increased urinary albumin excretion. Furthermore, these results are consonant with the hypothesis that genetic factors may influence the pathological expression of diabetic nephropathy in rats.

Proteinuria in children with insulin-dependent diabetes: relationship to duration of disease, metabolic control, and retinal changes

The relationship of early retinal changes and subclinical proteinuria to duration and metabolic regulation of insulin-dependent diabetes was studied in 67 children. Retinopathy was found in 25 patients and occurred almost exclusively (96%) in those with duration of disease longer than five years. Glomerular filtration rate was normal or increased in all patients. Urinary excretion of beta 2-microglobulin, albumin, transferrin, and IgG was significantly increased in patients, as compared with controls, whereas serum concentrations of these proteins were generally normal. The mechanisms responsible for the hyperexcretion of both large and small proteins are unclear but probably involve both glomerular and tubular dysfunction. Increased urinary protein excretion occurred independently of duration of disease. Retinopathy but not microproteinuria was more common in patients with glycosylated hemoglobin greater than 11% and in those with duration of disease longer than five years. Although a significant association was found between retinopathy and the hyperexcretion of one or more of the large molecular weight proteins, the weight of the evidence suggests that these two sequelae of diabetes differ in their pathogenesis. Long-term follow-up of these patients may provide insight as to their risk of developing more serious retinopathy or nephropathy, and whether good glycemic control may protect against these complications of insulin-dependent diabetes.

The natural history of diabetic nephropathy in type I diabetes and the role of metabolic control in its prevention, reversibility and clinical course

The authors present a contemporary picture of the pathogenesis and clinical course of diabetic nephropathy in type I diabetics describing the stages of the disease and the possible evidence for reversibility of the kidney damage with tight metabolic control. During the so-called latency period, which is clinically non-detectable, the predominant functional abnormalities (increase in GFR with sub-clinical glomerular proteinuria) can be corrected by strict control although there is no evidence for the regression of the associated anatomical changes such as the enlarged filtration area. As for the described increase in thickness of the glomerular basement membrane, from experimental data and pancreatic transplants in man, delay in its development and to some extent regression of the glomerular lesions can be expected. The problem of how the renal lesions in experimental diabetes mirror the changes in the human kidney is discussed. During the symptomatic period, with intermittent and subsequently constant proteinuria and progressive decline in renal function, which are observed in only about 30% of type I diabetics, the role of arterial hypertension and its effective control is emphasized. Finally, the renal failure period is indicative of irreversible damage to the kidneys. The progression from its early to its late stages is variable between different patients but each individual patient shows a constant rate of deterioration. The evidence for the efficacy of medical treatment in slowing down its progression is very limited at present but much can be done to improve the quality of life by dietary measures, treatment of fluid overload and hypertension. When the end-stage diabetic kidney disease is reached, with serum creatinine above 8 mg/dl, renal transplantation from a living donor offers a good chance for a relatively acceptable quality of life for years. In conclusion, it is stressed that the morbidity of diabetic nephropathy could eventually be reduced through effective control of the metabolic abnormalities of diabetes with the methods presently available.