Effects of early diabetes on uridine diphosphosugar synthesis in the rat renal cortex

Effects of oral antihyperglycemic agents on extracellular matrix synthesis by mesangial cells

BACKGROUND

Increased expression of the glucose transporter GLUT1 in mesangial cells (MCs) markedly stimulates glucose transport and the formation of extracellular matrix (ECM), even when ambient glucose concentrations are low. Certain antihyperglycemic agents cause GLUT1 overexpression and increase glucose transport in various tissues. However, their effects on the kidney are unknown. Because diabetic glomerulosclerosis is characterized by the accumulation of mesangial matrix, was studied the effects of antihyperglycemic agents on matrix metabolism in MCs cultured either in 8 or 20 mM glucose.

METHODS

Membrane-associated GLUT1 was measured by immunoblotting. The initial rate of glucose transport was determined according to the 2-deoxy-D[14C(U)]glucose uptake. Collagen metabolism was studied by metabolic radiolabeling with [14C]-proline. Fibronectin in the medium was measured by ELISA. GLUT1 mRNA was estimated by Northern analysis.

RESULTS

The sulfonylurea tolazamide increased GLUT1 protein expression by 107 and 69% in 8 and 20 mM glucose-grown cells, respectively. However, GLUT1 mRNA levels remained unchanged. Transporter-dependent deoxyglucose uptake was increased by tolazamide up to 184% in a dose-dependent fashion and was evident at both glucose concentrations after three or five days of exposure to the drug. Tolazamide significantly stimulated transforming growth factor-beta 1 (TGF-beta 1) secretion and the total synthesis of collagen and collagen and fibronectin accumulation in the medium of MCs maintained in high or low glucose concentrations. The biguanide metformin did not alter GLUT1 expression, glucose transport, fibronectin formation, or collagen metabolism, except at high concentrations.

CONCLUSION

Tolazamide markedly enhances ECM synthesis and accumulation in MCs probably by stimulating GLUT1 expression, glucose transport and TGF-beta 1 secretion, irrespective of the ambient glucose concentration. This effect was dose-dependent and minimally inducible by metformin.

Role of glomerular mechanical strain in the pathogenesis of diabetic nephropathy

Glomerular rigidity limits the glomerular expansion and mesangial cell (MC) stretch induced by variations in intracapillary pressure. In tissue culture, MC stretch stimulates synthesis of extracellular matrix components (ECM). Therefore, altered glomerular rigidity in diabetes may influence ECM accumulation by modulating the glomerular distention and MC stretch associated with glomerular hypertension. An ambient of high glucose concentration per se also enhances MC formation of ECM, possibly altering the cellular response to mechanical stretch. In this study, compliance was measured in isolated perfused glomeruli from streptozotocin-injected rats at four days (4d-D), five weeks (5w-D) and six months (6m-D) after induction of diabetes. In addition, collagen metabolism induced by stretch was investigated in MC cultured in 8 and 35 mM glucose concentrations. Glomerular compliance was normal in 5w-D rats and moderately increased in 4d-D (16%) and 6m-D animals (14%). As compared to static cultures. MC stretch increased total collagen synthesis (8 mM, 50%; 35 mM, 27%) and catabolism. However, while the fraction of newly formed collagen being catabolized increased in 8 mM-stretched cultures, in 35 mM-stretched it was unchanged. This resulted in marked increase in the net collagen accumulated in the incubation medium (4 vs. 24%) and cell layer 5 vs. 15%) only in the latter. In diabetes, the largely unaltered glomerular stiffness renders hypertension-induced MC stretch unopposed. More importantly, the accumulation of ECM caused by any degree of mechanical strain is greatly aggravated in a milieu of high glucose concentration.

Overexpression of glucose transporters in rat mesangial cells cultured in a normal glucose milieu mimics the diabetic phenotype

An environment of high glucose concentration stimulates the synthesis of extracellular matrix (ECM) in mesangial cell (MC) cultures. This may result from a similar increase in intracellular glucose concentration. We theorized that increased uptake, rather than glucose concentration per se is the major determinant of exaggerated ECM formation. To test this, we compared the effects of 35 mM glucose on ECM synthesis in normal MCs with those of 8 mM glucose in the same cells overexpressing the glucose transporter GLUT1 (MCGT1). Increasing medium glucose from 8 to 35 mM caused normal MCs to increase total collagen synthesis and catabolism, with a net 81-90% increase in accumulation. MCs transduced with the human GLUT1 gene (MCGT1) grown in 8 mM glucose had a 10-fold greater GLUT1 protein expression and a 1.9, 2.1, and 2.5-fold increase in cell myo-inositol, lactate production, and cell sorbitol content, respectively, as compared to control MCs transduced with bacterial beta-galactosidase (MCLacZ). MCGT1 also demonstrated increased glucose uptake (5-fold) and increased net utilization (43-fold), and greater synthesis of individual ECM components than MCLacZ. In addition, total collagen synthesis and catabolism were also enhanced with a net collagen accumulation 111-118% greater than controls. Thus, glucose transport activity is an important modulator of ECM formation by MCs; the presence of high extracellular glucose concentrations is not necessarily required for the stimulation of matrix synthesis.

A role for glycosphingolipid accumulation in the renal hypertrophy of streptozotocin-induced diabetes mellitus

Glucosylceramide (GlcCer) and related glycosphingolipids have been implicated as causal elements in both the growth of cells and in the regulation of hormonal signaling. We therefore studied whether the renal hypertrophy induced by diabetes was associated with enhanced synthesis of glycosphingolipids. 16 d after the induction of diabetes, increases in renal size and concentration of glucocerebroside and ganglioside GM3 were observed paralleling an increase in UDP-Glc concentration. GlcCer synthase and beta-glucosidase-specific activities were no different between control and diabetic kidneys. The apparent Km of the GlcCer synthase with respect to UDP-Glc was 250 microM and was unchanged in the diabetic kidneys. The observed concentrations of UDP-Glc were 149 and 237 microM in control and diabetic kidneys, respectively. The UDP-Glc level is thus rate limiting with regard to GlcCer synthesis. To determine whether the changes in glycolipid content were functionally significant, diabetic and control groups were treated with the GlcCer synthase inhibitor, D-threo-1-phenyl-2-decanoyl-amino-3-morpholino-1- propanol, 2 wk after the induction of diabetes. Kidney weights in the diabetic rats treated with D-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol were no different than the control groups. Morphometric analysis of glomerular volumes paralleled changes in renal growth. Glycosphingolipid formation may therefore represent a significant pathway for glucose utilization in early diabetic nephropathy.

Intraglomerular pressure and mesangial stretching stimulate extracellular matrix formation in the rat

To define the interplay of glomerular hypertension and hypertrophy with mesangial extracellular matrix (ECM) deposition, we examined the effects of glomerular capillary distention and mesangial cell stretching on ECM synthesis. The volume of microdissected rat glomeruli (Vg), perfused ex vivo at increasing flows, was quantified and related to the proximal intraglomerular pressure (PIP). Glomerular compliance, expressed as the slope of the positive linear relationship between PIP and Vg was 7.68 x 10(3) microns 3/mmHg. Total Vg increment (PIP 0-150 mmHg) was 1.162 x 10(6) microns 3 or 61% (n = 13). A 16% increase in Vg was obtained over the PIP range equivalent to the pathophysiological limits of mean transcapillary pressure difference. A similar effect of renal perfusion on Vg was also noted histologically in tissue from kidneys perfused/fixed in vivo. Cultured mesangial cells undergoing cyclic stretching increased their synthesis of protein, total collagen, and key components of ECM (collagen IV, collagen I, laminin, fibronectin). Synthetic rates were stimulated by cell growth and the degree of stretching. These results suggest that capillary expansion and stretching of mesangial cells by glomerular hypertension provokes increased ECM production which is accentuated by cell growth and glomerular hypertrophy. Mesangial expansion and glomerulosclerosis might result from this interplay of mechanical and metabolic forces.

Uridine and cytidine nucleotide synthesis in renal hypertrophy: biochemical differences in response to the growth stimulus of diabetes and unilateral nephrectomy

The effects of unilateral nephrectomy (UN) and streptozotocin (STZ) diabetes on the activities of enzymes involved in uridine and cytidine synthesis in early renal growth (3-14 days after stimulus to growth) have been compared. Measurements were also made of glucose-6-phosphate dehydrogenase (G6PDH) and 6-phosphogluconate dehydrogenase (6PGDH) and of glucose 6-phosphate (G6P), UDP-glucose, and glycogen, in relation to phosphoribosyl pyrophosphate, ribonucleotide, and complex carbohydrate formation. There were striking differences in the activities of CTP synthetase, G6PDH, and 6PGDH in the two conditions, with a three-fold increase in all three enzymes at 3 and 5 days and a two-fold increase above basal values at 14 days of STZ diabetes. The UN group showed no significant change in CTP synthetase at any stage and the activity of G6PDH and 6PGDH only kept pace with renal growth. Changes in routes of uridine synthesis were less marked, with a more rapid rise in carbamoyl-phosphate synthetase (glutamine) and a lesser response of dihydroorotate dehydrogenase in the UN relative to the STZ-diabetic groups. The enzymes of complex II and of uracil phosphoribosyltransferase showed essentially similar patterns during renal hypertrophy in UN and STZ diabetes. The parallel increase in CTP synthetase, G6PDH, and 6PGDH in the kidney in diabetes, also known to increase in growth situations in hepatomas and in renal tumors, is discussed in relation to hormone signals involved in renal growth. The importance of the concentration of CTP, and thus of CTP synthetase, in the CTP-cytidyltransferase reaction, an enzyme with a high Km for CTP, makes the present observation of the striking increase in CTP synthetase in STZ diabetes of particular interest in relation to phosphatidylcholine formation and hormone signal transduction.

Pyrimidine nucleotide synthesis in the rat kidney in early diabetes

Early renal hypertrophy of diabetes is associated with increases in the tissue content of RNA, DNA, and sugar nucleotides involved in the formation of carbohydrate-containing macromolecules. We have previously reported an increase in the activity of enzymes of the de novo and salvage pathways of purine synthesis in early diabetes; the present communication explores the changes in the pathways of pyrimidine synthesis. Measurements have been made of key enzymes of the de novo and salvage pathways at 3, 5, and 14 days after induction of diabetes with streptozotocin (STZ), phosphoribosyl pyrophosphate (PPRibP), and some purine and pyrimidine bases. Carbamoyl-phosphate synthetase II, the rate-limiting enzyme of the de novo route, did not increase in the first 5 days after STZ treatment, the period of most rapid renal growth; a significant rise was seen at 14 days (+38%). Dihydroorotate dehydrogenase, a mitochondrial enzyme, showed the most marked rise (+147%) at 14 days. The conversion of orotate to UMP, catalyzed by the enzymes of complex II, was increased at 3 days (+42%), a rise sustained to 14 days. The salvage route enzyme, uracil phosphoribosyltransferase (UPRTase), showed a pattern of change similar to complex II. The effect of the decreased concentration of PPRibP on the activities of CPSII, for which it is an allosteric activator, and on activities of OPRTase and UPRTase, for which it is an essential substrate, is discussed with respect to the relative Ka and Km values for PPRibP and the possibility of metabolite channeling.

Uracil ribonucleotide metabolism in rat and human glomerular epithelial and mesangial cells

Uridine diphosphosugars (UDP-sugars: UDP-N-acetylglucosamine, UDP-glucose, and UDP-glucuronic acid) are essential coenzymes for the synthesis of glomerular basement membrane and mesangial matrix (GBM-MM). This study has characterized UDP-sugar metabolism in rat and human glomerular cells in tissue culture. Culture of rat mesangial cells in medium containing dialyzed fetal calf serum resulted in UTP loss (28 +/- 4 nmol.mg DNA-1.h-1); the addition of 2 microM orotate to this medium resulted in net UTP accretion (5.42 +/- 0.06 nmol.mg DNA-1.h-1). Rat mesangial cells demonstrated 16- and 29- to 46-fold greater UTP and UDP-sugar pools, respectively, than whole glomeruli. In human mesangial cells, 6-azauridine (500 microM) decreased UDP-sugar pools by 48% (P less than 0.05), whereas uridine (50 microM) produced a 2.5-fold increase. Human and rat mesangial cells had greater (1.8- to 6.1-fold) UDP-sugar pools than epithelial cells and 1.7-3.4 times greater labeled precursor incorporation into UDP-sugars. In conclusion, glomerular cells utilize both exogenous orotate and uridine for ribonucleotide synthesis, and the extracellular concentration of these precursors markedly influence the formation and cellular content of UDP-sugars. Prominent differences exist between separate glomerular cell populations in their metabolism of UDP-sugars. This may represent diverse activity of glycosylating reactions.

The effect of aldose reductase inhibitor Statil (ICI 128436) on the glucose over-utilization in kidney of diabetic rats

The present study examined the effect of the aldose reductase inhibitor Statil (ICI 128436, ICI, Cheshire, U.K.) on the levels of metabolites and activities of enzymes involved in the glycolysis, polyol pathway and pentose phosphate pathway and on the flux of radioactive glucose through these pathways in kidney of streptozotocin diabetic rats. In kidneys of diabetic rats of 30 days duration the level of sorbitol was increased by +82% and fructose concentration was raised by +42%. After treatment with Statil for 9 days (reversal study) a significant fall in kidney sorbitol concentration and kidney fructose concentration was found. Lactate and UDP-glucose concentrations which were both significantly raised in diabetes by +80% and +23% respectively decreased by 20% after Statil treatment, together with a decline in UDP-glucose dehydrogenase activity. Aldose reductase and sorbitol dehydrogenase activities were also significantly lowered by Statil. In the reversal study there was no significant effect of Statil on the flux of glucose via alternative routes in the kidney cortex. In kidneys of diabetic rats of 9 days duration, the level of sorbitol increased by +61% and the concentration of fructose was raised by +30%. The treatment with Statil (25 mg/kg) from the day of induction of diabetes (prevention study) prevented the accumulation of sorbitol, fructose and UDP-glucose. The increase in the incorporation of radioactive glucose through the pentose phosphate pathway seen in diabetes was less marked in the renal cortex of diabetic rats treated with Statil ab initio.

Concentration of phosphoribosyl pyrophosphate in renal hypertrophy. Contrasting effects of early diabetes and unilateral nephrectomy

Studies were made of the renal phosphoribosyl pyrophosphate (PPRibP) content and PPRibP synthetase (EC 2.7.6.1) activity in rats diabetic for 5, 14 or 20 days, or unilaterally nephrectomized (UN) for 5 days, and in doubly lesioned animals. Approximately equal degrees of renal enlargement were found after 5 days diabetes or 5 days UN. In the doubly lesioned animals the increment of growth was additive. Unilateral nephrectomy of 5 days duration, in contrast with diabetes, had no effect on the PPRibP content of the contralateral kidney, nor did it modify the renal PPRibP content when performed on animals diabetic for 5, 14 or 20 days. The activity of PPRibP synthetase was unaffected by diabetes, UN or diabetes +UN. The results pinpoint a stage of nucleotide synthesis which is differentially affected by the two stimuli, in line with evidence for differences in regulation of nucleic acid turnover in the two conditions.

De novo pyrimidine nucleotide biosynthesis in isolated rat glomeruli

Uracil ribonucleotide-sugars and aminosugars are required for glomerular basement membrane (GBM) biosynthesis. Since these nucleotides are metabolic derivatives of uridine 5'-triphosphate (UTP), we have studied the cellular pools of uridine 5'-diphosphoglucose (UDPG), uridine 5'-diphosphoglucuronic acid (UDPGA), uridine 5'-diphospho-N-acetyl glucosamine (UDPAG) and UTP, and measured UTP synthesis de novo in isolated glomeruli incubated in vitro. Improved techniques for nucleotide quantitation were established and the optimal conditions for glomerular isolation and incubation determined. Substantial quantities of uracil ribonucleotide coenzymes and an active utilization of orotate for the synthesis of pyrimidine nucleotides were demonstrated. UTP synthesis and the pools of UDPG and UDPGA varied markedly with changes in the experimental conditions. The adverse effects of suboptimal conditions were more apparent in glomeruli from diabetic animals than in controls. The use of suboptimal conditions could provide misleading information on GBM metabolism in isolated glomeruli since uracil ribonucleotide coenzyme availability might be reduced.

Renal hypertrophy in experimental diabetes. Effect of diabetes on the pathways of glucose metabolism: differential response in adult and immature rats

The effect of short-term diabetes, 5 days after the administration of streptozotocin, on renal growth and the activity of alternative pathways of glucose metabolism was studied in immature (21-day-old) rats and in adult rats. The kidney weight increased by 28% in the adult diabetic rats, but by only 10% in the immature diabetic rats, relative to their age-matched control groups. The flux of glucose via the pentose phosphate pathway was increased 2-3-fold in the adult diabetic rats, but was unchanged in the immature diabetic group. Enzymes of this pathway (glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase) increased by 29% and 77% respectively in adult diabetic rats; in the immature group they showed changes of +5% and +28% respectively. The rate of glucose phosphorylation increased significantly in both groups of diabetic rats; only minor changes were observed in oxidation via the tricarboxylic acid cycle. Increases of 40-50% were found in the activity of enzymes involved in UDP-glucose metabolism (phosphoglucomutase, UDPglucose pyrophosphorylase and UDPglucose dehydrogenase) and in lactate dehydrogenase in both young and adult animals. The results suggest a differential renal response to streptozotocin-diabetes according to the stage of renal growth and development, and it is proposed that the difference is related to the developmental emergence of aldose reductase. Enzymes involved in formation of ribose 5-phosphate and NADPH are strikingly increased in the adult diabetic, whereas metabolic functions dependent on a high ambient glucose concentration, e.g. synthesis of glycogen and glucuronate, are similarly affected in adult and immature diabetic groups, both showing certain aspects of 'glucose overutilization'.

Concentration of phosphoribosyl pyrophosphate in the kidney during development and in experimental diabetic hypertrophy

The effect of developmental growth on the kidney content of phosphoribosyl pyrophosphate PPRibP was studied in rats at ages between the foetal animal and up to 100 days of age. In addition, the effect of short-term diabetes (up to 14 days) on the renal content of PPRibP was studied in immature rats and in adults aged approx. 60 days. The developmental pattern of PPRibP is such that the PPRibP content is lowest in the young rat and increases as the rate of kidney growth slows. In the adult rat, the early kidney hypertrophy of diabetes is accompanied by a fall in PPRibP content and, again, the PPRibP content returns to normal as the rate of kidney hypertrophy diminishes. Induction of diabetes in the immature rat causes a lesser degree of kidney hypertrophy and also a smaller depression of renal PPRibP content. The activity of PPRibP synthetase (EC 2.7.6.1) is not significantly affected by age or diabetes. The changes in PPRibP content are discussed in relation to the generation of ribose 5-phosphate by the pentose phosphate pathway and the utilization of PPRibP for nucleotide synthesis via the 'de novo' and salvage pathways.

Effect of diabetes on the sugar nucleotides in several tissues of the rat

Studies have been carried out to determine the effect of diabetes on the concentrations of sugar nucleotides in several tissues of the rat. This represents one aspect of an investigation aimed at evaluating the role which alterations in the metabolism of glycoproteins or other glycoconjugates may play in the development of the long-term complications of this disease. Measurements were made of the nucleotides of hexoses, N-acetylhexosamines, hexuronic acids, and sialic acid in liver, kidney, skeletal muscle, testis and heart of alloxan-diabetic rats and age-matched controls. Of the intermediates studied, only UDP-glucose and UDP-galactose showed significant alterations in diabetes. The direction of the changes depended on the tissue, with the levels in liver and skeletal muscle being decreased, those in kidney and testis increased and the concentrations in heart being unchanged. In the diabetic liver, the concentrations of UDP-glucose was reduced to 0.75 that of normal, while in skeletal muscle both UDP-glucose and UDP-galactose were significantly decreased (diabetic to normal ratios of 0.67 and 0.64, respectively). Kidney and testis, on the other hand, showed elevations of both UDP-glucose and UDP-galactose, with the diabetic levels being 1.2 to 1.3 those of normal levels. The direction of change in UDP-glucose in a tissue appeared to reflect its known ability to synthesize glycogen in diabetes. The finding of elevated UDP-glucose and UDP-galactose concentrations in diabetic kidney is considered to be potentially of great importance to the increased synthesis of basement membrane collagen by this tissue.