The role of determining the levels of serum collagen type IV in diagnosing early diabetic nephropathy

Two molecules of type IV collagen are linked via the COOH-terminal non-collagenous domain (NCI domain). In this way, type IV collagen forms the main framework of basement membrane. We have developed sandwich Enzyme-Linked Immunosorbent Assay (ELISA) for human serum type IV collage peptide monoclonals for CO5 and CO6 recognizing two different determinants on the central triplex of human collagen molecules. Using this, we explored the possibility that serum levels of type IV collagen (Col IV) are an indicator of early diabetic nephropathy (DN). Serum type IV collagen levels were determined by ELISA in 36 patients with diabetic nephropathy. Serum hemoglobin A1c (HbA1c) and in twenty-four hour urinary albumin excretion rates (UAER) were measured at the same time. A relationship was found between serum levels of this collagen IV and the presence of diabetic nephropathy. That is, serum levels of type IV collagen in diabetic nephropathy were significantly higher than those found in non-insulin-dependent diabetic (NIDDM) patients without nephropathy and in healthy subjects (HS). It is possible that an elevated serum collagen type IV level reflects increased synthetic activity in basement membrane collagen type IV. Serum type IV collagen may be a useful marker for monitoring the dynamics of basement membrane metabolism and in this way serve as a clinical indicator of the progression or the activity of diabetic nephropathy and a marker for the assessment of therapeutic effects.     

Serum type IV collagen concentrations in diabetic patients with microangiopathy as determined by enzyme immunoassay with monoclonal antibodies.

In long-term diabetes mellitus, thickening of basement membrane in capillaries and small vessels is a characteristic lesion and plays an important role in the progression of diabetic microangiopathy. We have developed a sandwich enzyme immunoassay for human serum type IV collagen peptide with monoclonal antibodies. Previous studies suggested that collagen levels reflect the activity of fibrogenesis in basement membrane. Serum type IV collagen levels were measured in 137 non-insulin-dependent diabetic patients (aged 50-75 yr) with or without clinical signs of retinopathy, nephropathy, and/or neuropathy and 110 healthy subjects (aged 50-75 yr) without serological abnormality. Serum concentrations of type IV collagen were significantly higher (P less than 0.01) in diabetic patients (mean +/- SE 124.1 +/- 4.1 ng/ml) than in healthy subjects (73.9 +/- 2.2 ng/ml) and were increased with the prevalence or incidence of diabetic complications. In the patients with diabetic microangiopathy, serum type IV collagen levels became higher as clinical signs worsened. Especially in the patients with diabetic nephropathy, serum type IV collagen levels became higher with elevation of blood urea nitrogen, serum creatinine, and serum beta 2-microglobulin but not urinary excretion of beta 2-microglobulin and N-acetyl-beta-glucosaminidase. These observations indicated that elevation of serum type IV collagen in diabetic nephropathy was related to glomerular filtration dysfunction rather than renal tubular dysfunction. However, the antigen, which can be detected by our assay system, did not exist in urine specimens of healthy subjects, and an intimate relationship was not observed between serum type IV collagen level and serum creatinine level.(ABSTRACT TRUNCATED AT 250 WORDS)     

Urine and serum levels of the carboxyterminal domain (NCl) of collagen IV in membranous glomerulonephritis and diabetic nephropathy

Serum and urinary concentrations of NCl, the non collagenous globular domain of collagen IV, were used as markers for turnover of basement membranes. NCl levels were studied in membranous glomerulonephritis and diabetic nephropathy. Thirteen patients with membranous glomerulonephritis and 8 insulin-dependent diabetic patients with diabetic nephropathy were compared to 16 apparently healthy control subjects. The patients with membranous glomerulonephritis had lower levels of NCl in serum and urine compared to the control subjects. In comparison, the patients with diabetic nephropathy had similar levels of NCl in serum and urine as the control subjects. Furthermore, among patients with membranous glomerulonephritis, those with hypertension had higher serum levels of NCl than those without, which may indicate that hemodynamic factors influence the basement membrane collagen metabolism. It is suggested that there are differences in basement membrane turnover in membranous glomerulonephritis and diabetic nephropathy although there are similarities in glomerular histopathological features. Other possible mechanism are discussed. Further studies are needed to confirm the suggested mechanism.     

Histochemical and immunohistochemical studies of diseased human glomeruli

In order to study the localization of Lentil lectin (LCH)-binding glycoresidues in glomeruli from patients with a variety of glomerulopathies, and to elucidate the relationship between LCH-binding sugars and the components of the extracellular matrix, laminin and type IV collagen, investigations of formalin-fixed, paraffin-embedded kidney tissues digested with trypsin were carried out by the direct and indirect immunofluorescence microscopy techniques. The glomerular basement membrane (GBM) and the mesangium reacted well with LCH, whereas areas with sclerotic lesions exhibited a decreased reactivity. The pattern of LCH binding to the GBM in various glomerulopathies was similar to that of laminin but different from that of type IV collagen. The pattern of localization of LCH-reacting sites and of laminin in the GBM included the double linear lines in diabetic nephropathy, inner linear line with outer projections (spikes) in membranous nephropathy, and reduplicated basement membrane in membranoproliferative glomerulonephritis. The results obtained by enzyme-linked immunoadsorbent assay showed that LCH had a stronger reactivity for laminin than for type IV collagen or fibronectin. These findings suggest that LCH is more reactive with laminin than with other components of the glomerular extracellular matrix.     

Altered glomerular mRNA expression of basement membrane components and type I collagen in diabetic rats treated with or without insulin therapy

Glomerular basement membrane (GBM) thickening has been reported to be a characteristic change of diabetic nephropathy. Previous studies of GBM in animal models of diabetes indicated that there are no consensus in the alteration of synthesis of GBM component. The aim of this study was to determine whether the glomerular mRNA levels encoding type I and type IV collagen. B1 laminin, and heparan sulfate proteoglycan (HSPG) are altered in streptozotocin diabetic rats with or without insulin therapy. Glomerular mRNA levels for type I and type IV collagen, laminin B1, were significantly increased, but that for HSPG were marked decreased in 4 week diabetic rats compared with age-matched control rats. Insulin therapy has normalized these abnormally regulated gene expressions. Renal morphology shows no significant changes between 4 weeks diabetic rats and age-matched control rats. These results indicate that abnormal gene expressions of BM components and type I collagen might play an important role in the initiation of glomerular changes in diabetes.     

Alteration of collagen IV in acutely deteriorated renal allografts.

BACKGROUNDS: The changes in the basement membrane occurring in acutely deteriorated renal allografts (ADR) have not been extensively investigated. Our purpose is to elucidate the alteration of collagen IV, a main constituent of the basement membrane in ADR. METHODS: Fifty biopsy specimens of ADR and 10 of chronic transplant nephropathy (CTN) were examined with two monoclonal antibodies specific for collagen IV. JK199 and JK132 are monoclonal antibodies that recognize triple helical collagen IV containing the alpha1 chain. JK199 recognizes all the basement membrane containing [alpha1 (IV)]2alpha2(IV), although JK132 reacts only with a limited portion of it. In the normal kidney, JK199 reacts with the mesangial matrix, the basement membrane of Bowman's capsule (BBM), and the tubular basement membrane, as well as with the glomelular basement membrane (GBM). JK132 reacts with the mesangial matrix, BBM, and the tubular basement membrane. RESULTS: In ADR, increased intensity of JK199 was observed in GBM, the mesangial matrix, BBM, the tubular basement membrane, and the interstitium. Increased intensity of JK132 was observed in the mesangial matrix, BBM, and the tubular basement membrane, but was not remarkable in GBM or the interstitium. In contrast, biopsy specimens of CTN showed increased intensity of JK132 in GBM, the mesangial matrix, BBM, the tubular basement membrane and the interstitium. CONCLUSION: These results suggest that collagen IV is up-regulated in ADR. Differential staining of collagen IV with JK199 and JK132 in GBM and the interstitium may contribute to diagnose CTN.     

Serum and urinary concentrations of heparan sulfate in patients with diabetic nephropathy.

BACKGROUND: Heparan sulfate (HS) contributes to the negative charge in the glomerular basement membrane (GBM), which may maintain the GBM charge barrier. Changes in sulfation and/or the concentration of HS may be associated with the development of diabetic nephropathy. METHODS: Using two different antibodies specific for HS chains, one that reacts with the N-sulfated sequences in HS chains (10E4) and the other that reacts with neo-epitope of HS, which occurs after heparitinase digestion of HS chains (3G10), we examined the serum and urinary concentrations of HS by enzyme-linked immunosorbent assay and performed immunohistochemical staining of glomeruli in diabetic patients with and without nephropathy. RESULTS: The level of urinary excretion of 10E4 binding HS/creatinine clearance was significantly reduced in diabetic patients when compared with that in nondiabetic subjects (P < 0.0001), and the level was more decreased in patients with overt nephropathy than in patients without overt nephropathy. No differences or only small differences were found between these groups in serum and urinary 3G10-binding HS and in serum 10E4-binding HS. Immunohistochemical staining with these antibodies was consistent with the findings in the urine. CONCLUSIONS: The results suggest that a decreased HS N-sulfation exists in the urine, which may reflect a structural change or an altered processing of HS within the GBM. Because N-sulfation plays a key role in determining the extent of sulfation within the HS chains, the decreased urinary 10E4-binding HS may have potential implications with regard to the development of diabetic nephropathy.     

Inherited diseases of the glomerular basement membrane

The glomerular basement membrane (GBM) is a specialized form of basement membrane that has a major role in the maintenance of the glomerular filtration barrier. Like all basement membranes, it contains four main components: type IV collagen, laminin, nidogen, and heparan sulfate proteoglycans. Different isoforms of these large molecules are produced. These isoforms have a tissue-specific distribution; in the mature GBM, the major type IV collagen molecule is the alpha 3 alpha 4 alpha 5(IV) isoform, associated with laminin-521 (alpha 5 beta2 gamma 1), nidogen and agrin heparan sulfate proteoglycans. The importance of the GBM has been demonstrated by identification of hereditary glomerular diseases linked to structural anomalies of its components; for example, type IV collagen in Alport syndrome and familial benign hematuria, and laminin in Pierson syndrome. Type III collagen, an interstitial collagen, accumulates within the GBM of patients with the nail-patella syndrome, and abnormal deposition of fibronectin, another extracellular matrix protein, is characteristic of so-called fibronectin nephropathy. Development of animal models of these diseases has facilitated precise analysis of pathogenic mechanisms, but no specific treatments are available. Therapeutic trials in Alport syndrome nephropathy are underway, following promising preliminary results obtained in rodent and canine models of the disorder.     

Glomerular basement membrane antigens in congenital and acquired nephrotic syndrome in childhood.

Urinary and serum glomerular basement membrane (GBM) antigens were detected by immunodiffusion in patients with nephrotic syndrome and in healthy subjects. The excretion of urinary GBM antigens was greatest in patients with congenital nephrotic syndrome of Finnish type (CNF) and in patients with acquired, therapy-resistant nephrotic syndrome who had a variety of histologically identified glomerular lesions. One GBM antigen, indistinguishable from the urinary one, was also detected in the serum of four of these patients. Excretion of urinary GBM antigens was within normal limits, in patients with steroid-sensitive nephrotic syndrome with minimal changes in renal histology and in the parents (heterozygotes) of CNF patients.     

Urinary excretion of glomerular basement membrane-related peptides in children with renal disorders

Urinary excretion of glomerular basement membrane (GBM)-related peptides was analysed in 72 patients with a variety of renal diseases by immunoblotting using polyclonal antibodies against either collagenase or pepsin digests of human GBM. The specificity of the antibodies was verified by elution of antibodies bound to urinary GBM-related peptides on nitrocellulose blots and demonstration of reactivity of the eluted antibodies with the respective GBM digests. Furthermore, six mice immunized with urinary GBM-related peptides all developed focal linear deposits of mouse IgG along their GBM, linear and mesangial deposits of C3 in the glomeruli and serum antibodies reactive with human GBM. Monoclonal antibodies against urinary GBM-related peptides of one of the mice reacted with different peptides of the non-collagenous and collagenous domains of type IV collagen, the major structural protein of GBM. In the majority of the 75 patients' urines tested, excretion of GBM-related peptides with molecular weights of 33, 50, 80 and 150 kilodaltons (kD) was detectable. Patients with a diminished glomerular filtration rate (GFR) demonstrated excretion of the 33 kD peptide more frequently (91%) and never of the 80 kD peptide as compared with patients with normal GFR (33 kD [42%] 80 kD [87%]). The pattern of urinary GBM-related peptides was not specific for the underlying renal disease as in Alport's syndrome.     

Renal entactin (nidogen): isolation, characterization and tissue distribution.

Entactin/nidogen (E/N) was isolated from bovine renal tubular basement membrane. Apparent molecular weight, amino acid composition, and molecular configuration by electron microscopy rotary shadowing were similar to that of nidogen from EHS mouse tumor. The identity of bovine E/N was confirmed using a thrombin derived peptide, the sequence of which corresponded to a region within mouse and human E/N. Monoclonal and polyclonal anti-E/N antibodies were used to determine the distribution of E/N in human kidney by immunofluorescent and immunoelectron microscopy. E/N was present in all renal basement membranes and was distributed through the full width of the glomerular basement membrane (GBM) with accentuation along its epithelial aspects. E/N distribution was similar to that of novel collagen chain alpha 3(IV) NC domain in the GBM. In the mesangium, E/N was distributed mainly in the peripheral mesangial region that is bounded by the GBM, while classical collagen chain alpha 1(IV) NC as present diffusely throughout the mesangium. In the developing nephron, E/N was present in basement membranes of the ureteric bud, primitive vesicle and S-form. In all instances, E/N co-localized with laminin B2 chain. Prominent E/N detection within the mesangium was observed in diseases where mesangial expansion was present. This process was also seen in early diabetic nephropathy, but disappeared with disease progression. However, all thickened diabetic renal basement membranes showed an increase in E/N which was also present in Kimmelstiel-Wilson lesions. E/N was observed in the GBM "spikes" of membranous glomerulonephritis and in epithelial crescents associated with various disorders. The association between E/N, laminin and type IV collagen chains observed in the normal kidney were maintained in disorders with altered E/N distribution. We could not detect any changes in the distribution of E/N in other acquired and hereditary kidney diseases. These observations reflect the involvement of E/N in the structure and disease alteration of renal basement membranes and mesangial matrix.     

Urinary glycosaminoglycan and proteoglycan excretion in normoalbuminuric patients with type 1 diabetes mellitus

BACKGROUND: Diabetic nephropathy may be related to an abnormal metabolism of glycosaminoglycans (GAG) in the glomerular basement membrane (GBM). The first manifestation of nephropathy is microalbuminuria, whose appearance indicates a loss of GBM selectivity. The present study evaluated whether GAG excretion becomes abnormal in parallel with microalbuminuria, and whether such abnormalities are also present in normoalbuminuric diabetic patients. METHODS: We measured urinary GAG excretion in 60 patients with type 1 (insulin-dependent) diabetes mellitus and in 22 healthy subjects. GAG were isolated from 24-h urine using ion-exchange chromatography on DEAE Sephacel. GAG composition was determined by cellulose acetate electrophoresis and expressed as percentages by densitometric scanning of Alcian Blue stained strips. RESULTS: On subgrouping for albuminuric status and glyco-metabolic control, we found high urinary GAG concentrations in all except the normoalbuminuric patients with good glyco-metabolic control. The urinary GAG electrophoretic pattern showed alterations in chondroitin sulphate (CS) and heparan sulphate (HS) relative contents. A higher frequency of low sulphated chondroitin sulphate-proteoglycan (LSC-PG) was observed in all patients, including those with normoalbuminuria and good glyco-metabolic control. CONCLUSIONS: This urinary pattern may be indicative of an abnormal GBM metabolism. Since GAG play an important role in GBM permeability, these anomalies might consequently represent a first step towards selective changes of GBM in type 1 diabetes mellitus.     

Glomerular injury is exacerbated in diabetic integrin alpha1-null mice

Excessive glomerular collagen IV and reactive oxygen species (ROS) production are key factors in the development of diabetic nephropathy. Integrin alpha1beta1, the major collagen IV receptor, dowregulates collagen IV and ROS production, suggesting this integrin might determine the severity of diabetic nephropathy. To test this possibility, wild-type and integrin alpha1-null mice were rendered diabetic with streptozotocin (STZ) (100 mg/kg single intraperitoneal injection), after which glomerular filtration rate (GFR), glomerular collagen deposition, and glomerular basement membrane (GBM) thickening were evaluated. In addition, ROS and collagen IV production by mesangial cells as well as their proliferation was measured in vitro. Diabetic alpha1-null mice developed worse renal disease than diabetic wild-type mice. A significant increase in GFR was evident in the alpha1-null mice at 6 weeks after the STZ injection; it started to decrease by week 24 and reached levels of non-diabetic mice by week 36. In contrast, GFR only increased in wild-type mice at week 12 and its elevation persisted throughout the study. Diabetic mutant mice also showed increased glomerular deposition of collagen IV and GBM thickening compared to diabetic wild-type mice. Primary alpha1-null mesangial cells exposed to high glucose produced more ROS than wild-type cells, which led to decreased proliferation and increased collagen IV synthesis, thus mimicking the in vivo finding. In conclusion, this study suggests that lack of integrin alpha1beta1 exacerbates the glomerular injury in a mouse model of diabetes by modulating GFR, ROS production, cell proliferation, and collagen deposition.     

Biochemical composition of the glomerular extracellular matrix in patients with diabetic kidney disease

In the glomeruli, mesangial cells produce mesangial matrix while podocytes wrap glomerular capillaries with cellular extensions named foot processes and tether the glomerular basement membrane (GBM). The turnover of the mature GBM and the ability of adult podocytes to repair injured GBM are unclear. The actin cytoskeleton is a major cytoplasmic component of podocyte foot processes and links the cell to the GBM. Predominant components of the normal glomerular extracellular matrix (ECM) include glycosaminoglycans, proteoglycans, laminins, fibronectin-1, and several types of collagen. In patients with diabetes, multiorgan composition of extracellular tissues is anomalous, including the kidney, so that the constitution and arrangement of glomerular ECM is profoundly altered. In patients with diabetic kidney disease (DKD), the global quantity of glomerular ECM is increased. The level of sulfated proteoglycans is reduced while hyaluronic acid is augmented, compared to control subjects. The concentration of mesangial fibronectin-1 varies depending on the stage of DKD. Mesangial type III collagen is abundant in patients with DKD, unlike normal kidneys. The amount of type V and type VI collagens is higher in DKD and increases with the progression of the disease. The GBM contains lower amount of type IV collagen in DKD compared to normal tissue. Further, genetic variants in the α3 chain of type IV collagen may modulate susceptibility to DKD and end-stage kidney disease. Human cellular models of glomerular cells, analyses of human glomerular proteome, and improved microscopy procedures have been developed to investigate the molecular composition and organization of the human glomerular ECM.     

Podocyte biology in diabetic nephropathy

Glomerular visceral epithelial cells, namely podocytes, are highly specialized cells and give rise to primary processes, secondary processes, and finally foot processes. The foot processes of neighboring podocytes interdigitate, leaving between them filtration slits. These are bridged by an extracellular substance, known as the slit diaphragm, which plays a major role in establishing size-selective barrier to protein loss. Furthermore, podocytes are known to synthesize matrix molecules to the glomerular basement membrane (GBM), including type IV collagen, laminin, entactin, and agrin. Because diabetic nephropathy is clinically characterized by proteinuria and pathologically by glomerular hypertrophy and GBM thickening with foot process effacement, podocytes have been the focus in the field of research on diabetic nephropathy. As a result, many investigations have demonstrated that the diabetic milieu per se, hemodynamic changes, and local growth factors such as transforming growth factor-beta and angiotensin II, which are considered mediators in the pathogenesis of diabetic nephropathy, induce directly and/or indirectly hypertrophy, apoptosis, and structural changes, and increase type IV collagen synthesis in podocytes. This review explores some of the structural and functional changes of podocytes under diabetic conditions and their role in the development and progression of diabetic nephropathy.     

Glomerular size and charge selectivity in insulin-dependent diabetes mellitus

The pathogenesis of clinical nephropathy in Type 1 (insulin-dependent) diabetes was investigated by measuring renal fractional clearances of albumin, total IgG, IgG4 and beta 2-microglobulin, four plasma proteins which differ in size and charge. Seventy patients and eleven control subjects were studied. In diabetic patients with normal urinary albumin excretion (less than 30 mg/24 hr), fractional IgG clearance was two to three times higher than in control subjects, whereas fractional clearance of the anionic plasma proteins IgG4 and albumin was similar to that of control subjects. These alterations indicate an increase in anionic pore charge within the glomerular basement membrane concomitant with an increase in either pore size or impairment of tubular reabsorption. Diabetic patients, whose urinary albumin excretion has started to rise (30 to 100 mg/24 hr), had unchanged fractional IgG compared to patients with normal albumin excretion, while fractional IgG4 and albumin clearances were increased three- to fourfold; indicating unchanged glomerular pore size, but a decrease in anionic pore charge. In patients demonstrating urinary albumin excretion of greater than 100 mg/24 hr fractional IgG clearance increased to the same extent as fractional albumin clearance, indicating an increase in large pore area. Fractional beta 2-microglobulin clearances were similar to that of control subjects in the different patient groups indicating unchanged tubular reabsorption of proteins. Thus, the increase in large pore area seen in patients with clinical nephropathy is preceded by loss of anionic charge in the glomerular basement membrane. It is likely that this loss of anionic charge is due to loss of heparan sulphate-proteoglycan.     

Thin glomerular basement membrane disease: clinical significance of a morphological diagnosis--a collaborative study of the Italian Renal Immunopathology Group.

BACKGROUND: Thin glomerular basement membrane disease (TBMD) is a nephropathy defined by diffuse thinning of the glomerular basement membrane (GBM) at electron microscopy examination, without the alterations of Alport's syndrome (ATS). It is known that many patients with TBMD have a type IV collagen disorder and that the disease occasionally may be progressive. This study investigated 51 patients with the morphological diagnosis of TBMD lacking any sign of ATS, with the aim of defining the prevalence of type IV collagen mutations and the course of the disease. METHODS: Patients were investigated as follows: (a) clinical picture and family investigation; (b) renal biopsy findings; (c) immunohistochemical study of renal tissue for collagen IV alpha-chains; (d) pedigree reconstruction and molecular investigations in genes encoding type IV collagen chains, when DNA samples were available; and (e) follow-up data. RESULTS: Renal biopsy analysis revealed no light microscopy changes in 27 patients and minimal abnormalities in the remainder. Global glomerular sclerosis was found in seven cases and superimposed mesangial immunoglobulin-A deposits in four. Normal staining of GBM for alpha(IV) chains was observed in all but one patient, where alpha5(IV) was absent and molecular investigation revealed a COL4A5 mutation. Five out of 25 cases had a mutation in the COL4A3/COL4A4 genes. Eight out of 38 patients followed up for 12-240 months (21%) showed signs of disease progression or hypertension. CONCLUSIONS: This study confirms that a considerable proportion of patients with TBMD have a type IV collagen disorder and that this lesion is not always benign. Thus, families should be investigated carefully whenever possible and patients and affected relatives should be examined periodically for signs of disease progression.     

Renal distribution of collagen types III, IV and V in various glomerular diseases

The purpose of this study is to examine the immunochemical changes of the glomerular basement membrane (GBM) and the mesangium, in pretreated paraffin-embedded sections with trypsin by utilizing monoclonal antibodies to type III (anti-III), type IV (anti-IV) and type V (anti-V) collagens. We observed 6 normal kidneys and 44 kidneys with various renal diseases. In normal human kidney the staining with anti-IV demonstrated GBM, mesangium, Bowman's BM, tubular BM and capillary BM. Anti-V was also seen in the interstitium. On the other hand, anti-III stained only interstitium. Thickened GBM in membranoproliferative glomerulonephritis (MPGN) and diabetic nephropathy, and irregular GBM in Membranous Nephropathy and Alport's syndrome were also evident in anti-IV stain, while widened mesangial area was seen in anti-V rather than anti-IV stain. In severely proliferative GN, anti-III as well as anti-IV and anti-V was detected in the mesangium in spite of existence of neither adhesion nor Bowman's gap. In MPGN type II, anti-III was observed along the GBM. In obsolescent glomeruli, anti-IV was not always detected although anti-V was constantly seen. On the other hand, anti-III was markedly positive in the crescents and obsolescent glomeruli. These results suggest that it is possible for mesangial, endothelial and epithelial cell to produce several types of collagens and type III collagen is closely related to the process of the glomerular obsolescence.     

Constituents of the extracellular matrices in diabetic glomerulosclerosis

This study was undertaken to elucidate the distributions of laminin, fibronectin, type I, III, IV, V and VI collagen and heparan sulfate proteoglycan (HSPG) in diabetic nephropathy, using immunohistochemical procedures. The pathological features of diabetic glomerulosclerosis were characterized as diffuse and nodular lesions, showing an expanded mesangial matrix associated with a thickened glomerular basement membrane (GBM). In the thickened GBM, laminin was present throughout the whole membrane, type IV collagen occurred along the subendothelial side, and HSPG was present with no change in its amount. On the other hand, the components detected in the slightly expanded mesangial matrix were type IV, V and VI collagen, fibronectin and HSPG, but not laminin. When the matrix was expanded markedly, collagenous components were increased over the other components. In the typical Kimmelstiel-Wilson nodules, the mesangial matrix was occupied mainly by type V and VI collagen with a relative decrease in type IV collagen. When a nodular lesion adhered to Bowman's capsule, type I and III collagen occurred not only in Bowman's space but also within the lesion itself. Furthermore, laminin and HSPG became detectable on the outside of the lesion, but not within it. These results suggested that there was a difference in the distribution and proportion of extracellular matrix components between diffuse and nodular lesions. It appeared that the nodular lesion was not simply an advanced form of the diffuse lesion.     

Quantitative immunoelectron-microscopic analysis of the type IV collagen alpha1-6 chains in the glomerular basement membrane in childhood thin basement membrane disease

AIM: Thin basement membrane disease (TBMD) is characterized histologically by diffuse thinning of glomerular basement membrane (GBM). Although recent genetic analysis has shown that TBMD might be included within type IV collagen disorders, conventional immunohistochemical studies demonstrated normal labeling of type IV collagen alpha chains in the GBM. We have, however, successfully used confocal laser scanning microscopy to demonstrate a significantly reduced signal of type IV collagen alpha5 chain (alpha5(IV)) along capillary walls in TBMD. In order to further understand the association of type IV collagen with TBMD, we used immunoelectron microscopy to examine renal biopsies from 6 children with TBMD and six control children with minimal change nephrotic syndrome. METHODS: Ultrathin sections of LR gold resin were incubated with a rat monoclonal antibody against human alpha1(IV), alpha2(IV), alpha3(IV), alpha4(IV) alpha5(IV) or alpha6(IV) followed by colloidal gold conjugated goat anti-rat IgG. After taking electron micrographs, the labeling was quantitatively evaluated in the area occupied by the segments of basement membrane. The basement membrane was divided into three equal segments viz. subepithelial side, central portion and subendothelial side. RESULTS: In control subjects, the number of gold particles for alpha1(IV) or alpha2(IV) was significantly greater in the subendothelial side and central portion than in the subepithelial side of the GBM, whilst alpha3(IV), alpha4(IV) or alpha5(IV) labeling was significantly more prominent in the central portion compared to the subepithelial and subendothelial side of the GBM. TBMD samples showed a similar distribution pattern except that the subepithelial side and central portion of the GBM had a significantly reduced amount of alpha5(IV) antigen compared to control subjects. CONCLUSION: This is the first report demonstrating a diminished labeling intensity of alpha5(IV) in the central portion and subepithelial side of the GBM in renal biopsy specimens from patients with TBMD. These findings suggest that an abnormality of alpha5(IV) might possibly be associated with the pathogenesis of TBMD.