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1.
Lens capsule collagen synthesis by epithelial and fiber cells was examined by immunoprecipitation and collagenase digestion in embryonic and posthatch chicken eye lens. Epithelial cells and lens fibers in the process of terminal differentiation produce alpha 1 and alpha 2 type IV collagen chains. At 6 days of embryonic development in addition to the alpha 1 (IV) and alpha 2 (IV) collagen chains, lens cells produce high molecular weight collagenase-sensitive proteins not immunologically related to type IV collagen. Lens capsule collagen components have been identified in central and outer fibers isolated from 18-day embryos and from 10-day posthatch chicken eyes. At these stages, fibers which have an increasing number of picnotic nuclei still show collagen synthesis due to long-lived mRNA. Analysis of collagen synthesis by lens cells incubated with actinomycin D suggests that stabilization of collagen mRNA occurs in lens fiber cells and to a lesser extent in epithelial cells as early as 6 days of embryonic development.  相似文献   

2.
Type IV collagen includes six genetically distinct polypeptides named alpha1(IV) through alpha6(IV). These isoforms are speculated to organize themselves into unique networks providing mammalian basement membranes specificity and inequality. Recent studies using bovine and human glomerular and testis basement membranes have shown that unique networks of collagen comprising either alpha1 and alpha2 chains or alpha3, alpha4, and alpha5 chains can be identified. These studies have suggested that assembly of alpha5 chain into type IV collagen network is dependent on alpha3 expression where both chains are normally present in the tissue. In the present study, we show that in the lens and inner ear of normal mice, expression of alpha1, alpha2, alpha3, alpha4, and alpha5 chains of type IV collagen can be detected using alpha chain-specific antibodies. In the alpha3(IV) collagen-deficient mice, only the expression of alpha1, alpha2, and alpha5 chains of type IV collagen was detectable. The non-collagenous 1 domain of alpha5 chain was associated with alpha1 in the non-collagenous 1 domain hexamer structure, suggesting that network incorporation of alpha5 is possible in the absence of the alpha3 chain in these tissues. The present study proves that expression of alpha5 is not dependent on the expression of alpha3 chain in these tissues and that alpha5 chain can assemble into basement membranes in the absence of alpha3 chain. These findings support the notion that type IV collagen assembly may be regulated by tissue-specific factors.  相似文献   

3.
We have isolated and characterized overlapping cDNA clones which code for a previously unidentified human collagen chain. Although the cDNA-derived primary structure of this new polypeptide is very similar to the basement membrane collagen alpha 1(IV) and alpha 2(IV) chains, the carboxyl-terminal collagenous/non-collagenous junction sequence does not correspond to the junction sequence in either of the newly described alpha 3(IV) or alpha 4(IV) chains (Butkowski, R.J., Langeveld, J.P.M., Wieslander, J., Hamilton, J., and Hudson, B. G. (1987) J. Biol. Chem. 262, 7874-7877). Thus the protein presented here has been designated the alpha 5 chain of type IV collagen. Four clones encode an open reading frame of 1602 amino acids that cover about 95% of the entire chain including half of the amino-terminal 7S domain and all of the central triple-helical region and carboxyl-terminal NC1 domain. The collagenous region of the alpha 5(IV) chain contains 22 interruptions which are in most cases identical in distribution to those in both the alpha 1(IV) and alpha 2(IV) chains. Despite the relatively low degree of conservation among the amino acids in the triple-helical region of the three type IV collagen chains, analysis of the sequences clearly showed that alpha 5(IV) is more related to alpha 1(IV) than to alpha 2(IV). This similarity between the alpha 5(IV) and alpha 1(IV) chains is particularly evident in the NC1 domains where the two polypeptides are 83% identical in contrast to the alpha 5(IV) and alpha 2(IV) identity of 63%. In addition to greatly increasing the complexity of basement membranes, the alpha 5 chain of type IV collagen may be responsible for specialized functions of some of these extracellular matrices. In this regard, it is important to note that we have recently assigned the alpha 5(IV) gene to the region of the X chromosome containing the locus for a familial type of hereditary nephritis known as Alport syndrome (Myers, J.C., Jones, T.A., Pohjalainen, E.-R., Kadri, A.S., Goddard, A.D., Sheer, D., Solomon, E., and Pihlajaniemi, T. (1990) Am. J. Hum. Genet. 46, 1024-1033). Consequently, the newly discovered alpha 5(IV) collagen chain may have a critical role in inherited diseases of connective tissue.  相似文献   

4.
Our previous report showed that human fetal lung fibroblasts secreted non-disulfide-bonded, non-helical collagenous polypeptides of alpha1(IV) and alpha2(IV) chains depending on culture conditions [Connective Tissue (1999) 31, 161-168]. The secretion of non-helical collagenous polypeptides is unexpected from the current consensus that such polypeptides are not secreted under physiological conditions. The absence of interchain disulfide bonds among alpha1(IV) and alpha2(IV) chains was always correlated with the absence of triple-helical structure of the type IV collagen. The finding corresponds with the fact that the interchain disulfide bonds are formed at or close to the completion of the type IV collagen triple-helix formation. The present report shows that ascorbate is the primary factor for the triple-helix formation of the type IV collagen. When human mesangial cells were cultured with ascorbate, only the triple-helical type IV collagen was secreted. However, when the cells were cultured without ascorbate, the non-helical alpha1(IV) and alpha2(IV) chains were secreted. Relative amounts of the secreted products were unchanged with or without ascorbate, suggesting that ascorbate is required for the step of the triple-helix formation. The ascorbate-dependency of the triple-helix formation of the type IV collagen was observed in all the human cells examined. The non-helical alpha1(IV) chain produced by the ascorbate-free culture contained about 80% less hydroxyproline than the alpha1(IV) chain from the triple-helical type IV collagen. The evidence for the non-association of the non-helical alpha1(IV) and alpha2(IV) chains in the conditioned medium was obtained by an anti-alpha1(IV) antibody-coupled affinity column chromatography for the conditioned medium. Although all the non-helical alpha1(IV) chains were found in the bound fraction, all the non-helical alpha2(IV) chains were recovered in the flow-through fraction. The present findings suggest that ascorbate plays a key role in the trimerization step of three alpha chains and/or in the subsequent triple-helix formation of the type IV collagen.  相似文献   

5.
H Sage  P Bornstein 《Biochemistry》1979,18(17):3815-3822
A novel collagen chain, termed alpha C, has been isolated from human placenta by limited pepsin digestion. The collagen containing the alpha C chain copurifies with placental AB collagen during selective salt precipitation but is virtually absent from fetal birth membranes, which contain relatively larger amounts of AB. Both native AB and alpha C-containing collagens are resistant to human skin collagenase under conditions that support cleavage of type I by greater than 90%. The alpha C chain was separated from alpha B by phosphocellulose chromatography and subsequently from alpha P by chromatography on CM-cellulose. Its amino acid composition is distinct from alpha A and alha B although all three chains posses compositional features in common; the carbohydrate content of the alpha C chain was intermediate between those of alpha A and alpha B. Analysis by NaDodSO4-polyacrylamide gel electrophoresis of peptides produced by CNBr cleavage and by limited digestion with the enzyme mast cell protease indicated different and unique products for the alpha A, alpha B, and alpha C chains. The data support the existence of another collagen chain which is related to the alpha A and alpha B chains but which is structurally unique. The proteins containing these chains may in turn comprise a subfamily of collagen isotypes which represents a divergence from and/or specialization of the type IV basement membrane collagens.  相似文献   

6.
Electron immunohistochemical studies demonstrate that cultured embryo-derived parietal yolk sac (ED-PYS) carcinoma cells synthesize type IV collagen. This material has been isolated and characterized. The collagen obtained after limited pepsin digestion from the medium in which the cells are grown is composed of homogeneous components with a molecular mass of approximately 95 000 daltons. When chromatographed on (carboxymethyl)cellulose under denaturing conditions, the chains elute as acidic components slightly before the human alpha 1(I) chain and coincident with the position of elution of the pepsin-derived human alpha 1(IV) chain. This analysis indicates the presence of a single type of collagen chain in the pepsin-derived ED-PYS synthesized material. In addition, the profile of cyanogen bromide (CNBr) cleavage products obtained from the pepsin-derived ED-PYS cell collagen chains is essentially identical with that derived from the human alpha 1(IV) chain. Isolation of the medium collagen in the absence of pepsin digestion reveals the presence of two high molecular weight components equivalent in size to procollagen alpha chains. However, both high molecular weight products yield CNBr cleavage products that correspond to those obtained from the pepsin-derived alpha 1(IV) chain. The ED-PYS cell-associated collagens obtained with or without the use of pepsin contain components that are essentially identical with those isolated from the culture-medium collagen. These data provide definitive evidence for the existence of type IV collagen molecules composed solely of alpha 1(IV) procollagen chains and further document the usefulness of ED-PYS cells for investigating the biosynthesis of basement membrane components.  相似文献   

7.
Our previous reports showed that cultured human cells secrete non-disulfide-bonded non-helical alpha1(IV) and alpha2(IV) chains under physiological conditions. In the present report we show that the alpha(IV) chains in non-helical form were reactive to lectin ABA (Agaricus bisporus agglutinin), whereas the alpha(IV) chains secreted in triple-helical form were not. These results indicate that ABA could be used to distinguish the two conformational isomers of type IV collagen polypeptides. An alpha1(IV) chain isolated from human placenta with an antibody-coupled column showed a positive reaction to ABA, indicating that gelatin form of the type IV collagen alpha1(IV) chain is produced and retained in the tissue in vivo. A possible significance of the gelatin form is discussed from the finding that the non-helical alpha1(IV) chain purified with EDTA-free buffer contained degraded polypeptides including NC1-size domain and showed an apparent inhibition against activated pro-MMP-9. This is the first report to show that a gelatin form of protein exists in vivo.  相似文献   

8.
Type IV collagen, which has long been assumed to contain two alpha 1(IV) and one alpha 2(IV) chains, also contains alpha 3(IV), alpha 4(IV), and alpha 5(IV) chains. Stoichiometry of collagenous alpha(IV) chains differs among tissues, suggesting the existence of subclasses of type IV collagen, each with a unique chain composition. This study seeks to define, by characterization of subunit compositions of NC1 domain populations, the structural organization of type IV collagen from bovine glomerular basement membrane. NC1 hexamers from type IV collagen were separated on two affinity chromatography columns, one containing monoclonal antibodies to the alpha 3 chain, and another, to the alpha 1 chain. SDS-polyacrylamide gel electrophoresis, immunoblotting, reversed phase high-performance liquid chromatography, and enzyme-linked immunosorbent assay identified three NC1 hexamer populations: 1) a hexamer composed of (alpha 1)2 and (alpha 2)2 homodimers; 2) a hexamer composed of (alpha 3)2 and (alpha 4)2 homodimers; 3) a hexamer containing all four alpha chains connected in heterodimers, alpha 1-alpha 3 and alpha 2-alpha 4. Results suggest that there are two distinct type IV collagen molecules, one composed of alpha 1(IV) and alpha 2(IV) chains and another composed of alpha 3(IV) and alpha 4(IV) chains. Furthermore, polymerization occurs between molecules with the same chain composition and between molecules with different chain composition. Moreover, crosslinking between different alpha chains is restricted, thus limiting the number of possible macromolecular structures.  相似文献   

9.
Three distinctive heparin-binding sites were observed in type IV collagen by the use of rotary shadowing: in the NC1 domain and at distances 100 and 300 nm from the NC1 domain. Scatchard analysis indicated different affinities for these sites. Electron microscopic analysis of heparin-type IV collagen interaction with increasing salt concentrations showed the different affinities to be NC1 greater than 100 nm greater than 300 nm. The NC1 domain bound specifically to chondroitin/dermatan sulfate side chains as well. This binding was observed at the electron microscope and in solid-phase binding assays (where chondroitin sulfate could compete for the binding of [3H]heparin to NC1-coated substrata). The triple helix-rich, rod-like domain of type IV collagen did not bind to chondroitin/dermatan sulfate side chains. In solid-phase binding assays only heparin could compete for the binding of [3H]heparin to this domain. In order to more precisely map potential heparin-binding sites in type IV collagen, we chemically synthesized 17 arginine- and lysine-containing peptides from the alpha 1(IV) and alpha 2(IV) chains. Three peptides from the known sequence of the alpha 1(IV) and alpha 2(IV) chains were shown to specifically bind heparin: peptide Hep-I (TAGSCLRKFSTM), from the alpha 1(NC1) chain, peptide Hep-II (LAGSCLARFSTM), a peptide corresponding to the same sequence in peptide Hep-I from the alpha 2 (NC1) chain, and peptide Hep-III (GEFYFDLRLKGDK) which contained an interruption of the triple helical sequence of the alpha 1(IV) chain at about 300 nm from the NC1 domain, were demonstrated to bind heparin in solid-phase binding assays and compete for the binding of [3H]heparin to type IV collagen-coated substrata. Therefore, each of these peptides may represent a potential heparin-binding site in type IV collagen. The mapping of the binding of heparin or related structures, such as heparan sulfate proteoglycan, to specific sequences of type IV collagen could help the understanding of several structural and functional properties of this basement membrane protein as well as interactions with other basement membrane and/or cell surface-associated macromolecules.  相似文献   

10.
Collagen type IV is a major component of the basal lamina of blood vessels. Six genetically distinct collagen type IV chains have been identified and are distributed in a tissue-specific manner. Here we define a novel function for soluble non-collagenous (NC1) domains of the alpha2(IV), alpha3(IV), and alpha6(IV) chains of human collagen type IV in the regulation of angiogenesis and tumor growth. These NC1 domains were shown to regulate endothelial cell adhesion and migration by distinct alpha(v) and beta(1) integrin-dependent mechanisms. Systemic administration of recombinant alpha2(IV), alpha3(IV), and alpha6(IV) NC1 domains potently inhibit angiogenesis and tumor growth, whereas alpha1(IV), alpha4(IV), and alpha5(IV) showed little if any effect. These findings suggest that specific NC1 domains of collagen type IV may represent an important new class of angiogenesis inhibitors.  相似文献   

11.
The COOH-terminal non-collagenous domains (NC1) of type IV collagen from glomerular basement membranes (GBM), lens capsule basement membranes, and Descemet's membrane varied in the distribution of their NC1 subunits. All of these basement membranes (BMs) contained both classical (alpha 1(IV) and alpha 2(IV)) and novel collagen chains (alpha 3(IV), alpha 4(IV) and the Alport antigen). Whereas GBM had a predominance of disulfide-bonded subunits, the lens capsule and Descemet's membrane were primarily monomeric, differences that are likely related to the functional and structural diversity of collagen in various tissues. A heterodimer formed from monomeric subunits of alpha 3(IV) and the Alport antigen exists in human and bovine GBM. This dimer represents an important cross-link of the NC1 domain of novel collagen. Additionally, immunoaffinity methodology showed that the novel BM collagen hexamers segregate into populations containing only novel BM subunits without the participation of the classical subunits (alpha 1(IV) and alpha 2(IV)). These data provided evidence for the presence of two separate networks of BM collagen: one containing alpha 1(IV) and alpha 2(IV), and the other consisting of the novel collagen chains.  相似文献   

12.
Type IV collagen is a major structural component of basement membranes. Four constituent polypeptides have been described and characterized to different degrees. Whereas the primary structure of the alpha 1(IV) and alpha 2(IV) chains has been completely established, only short protein sequences have been reported for the recently recognized alpha 3(IV) and alpha 4(IV) subunits. We have isolated overlapping human cDNA clones whose derived amino acid sequence is highly homologous to the alpha 1(IV) and alpha 2(IV) chains. However, these clones code for neither alpha 3(IV) nor alpha 4(IV), and thus this new polypeptide has been designated the alpha 5 chain of type IV collagen. To determine whether the gene encoding the alpha 5(IV) chain is syntenic with the contiguously arranged alpha 1(IV) and alpha 2(IV) genes at 13q34, the alpha 5(IV) cloned DNA was hybridized to genomic DNA from somatic cell hybrids and to metaphase chromosomes. The results demonstrated that the alpha 5(IV) collagen gene is located on the long arm of the X chromosome. Since 14 collagen genes have previously been assigned to nine autosomes, these data represent the first mapping of a collagen gene to the X chromosome. Most important, the alpha 5(IV) gene has been sublocalized to bands Xq22----q23, which are in the same region known to contain the locus for the X-linked form of Alport syndrome. It is therefore possible that this severe dominantly inherited nephritis, manifested by splitting of the glomerular basement membrane, could be caused by mutations in the alpha 5(IV) collagen gene.  相似文献   

13.
Collagen type IV provides a biomechanically stable scaffold into which the other constituents of basement membranes are incorporated, but it also plays an important role in cell adhesion. This occurs with collagen type IV mainly via the alpha1beta1 integrin, and the proposed epitope involved in this type of collagen/integrin interaction corresponds to a non-sequential R/Xaa/D motif, where the arginine and aspartate residues are provided by the alpha2 and alpha1 chains of the collagen molecule, respectively. Since the stagger of the three alpha chains in native collagen type IV is still unknown and different alignments of the chains lead to different spatial epitopes, two heterotrimeric collagen peptides containing the natural 457-469 sequences of the cell adhesion site were synthesized in which the single chains were assembled via disulfide bonds into the two most plausible alpha1alpha2alpha1' and alpha2alpha1alpha1' registers. The differentiated triple-helical stabilities of the two heterotrimers suggest a significant structural role of the chain register in collagen, although the binding to alpha1beta1 integrin is apparently less affected as indicated by preliminary experiments.  相似文献   

14.
We describe a novel autoimmune disease characterized by severe subepidermal bullous eruptions and renal insufficiency with IgG autoantibodies directed against the NC1 domain of the alpha5(IV) collagen chain. In vivo deposits of IgG and C3 were found along the dermal-epidermal junction of skin lesions. The identity of the target antigen was determined by immunochemical analyses of candidate antigens using the patients' autoantibodies. The patients' IgG autoantibodies reacted with a 185-kDa polypeptide that was distinguished from the known autoantigens of the extracellular matrix including type XVII collagen, type VII collagen, or the alpha3, beta3, and gamma2 chains of laminin 5. Preincubation of the serum with recombinant alpha5(IV)NC1 domain of type IV collagen abolished immunoreactivity with the 185-kDa antigen. The serum reacted specifically with the alpha5(IV)NC1, among the six NC1 domains of type IV collagen, by Western blot and enzyme-linked immunosorbent assay analyses. The patients' autoantibodies reacted with normal skin and renal glomerulus but not with skin and glomerulus of a patient with Alport syndrome in which the basement membranes are devoid of the alpha5(IV) collagen chain. This study provided for the first time unambiguous evidence for the alpha5(IV) collagen chain as the target antigen in a novel autoimmune disease characterized by skin and renal involvement.  相似文献   

15.
The noncollagenous domain hexamer of collagen IV from bovine glomerular basement membrane was further investigated to determine the types of collagen chain from which subunits M2*b and M3 are derived. M2*b was shown to be a shorter form, containing 9 fewer residues, of M2*a which was previously established as the noncollagenous domain of a third chain, alpha 3, of collagen IV (Saus, J., Wieslander, J., Langeveld, J.P.M., Quinones, S., and Hudson, B.G. (1988) J. Biol. Chem. 263, 13374-13380). M3 was identified as the noncollagenous domain of a fourth chain, alpha 4, of type IV collagen, on the basis of additional sequence data together with previous findings. A comparison of the collagenous-noncollagenous junction regions of alpha 3(IV) and alpha 4(IV) chains with those of classical alpha 1(IV) and alpha 2(IV) chains reveals structural information which provides a potential strategy for molecular cloning of these novel chains. The results further reveal the complexity of electrophoresis patterns of the hexamer and potential ambiguities in using one-dimensional patterns to determine whether molecular defects of collagen IV occur in pathological processes affecting basement membranes.  相似文献   

16.
The present paper describes how epithelial cells, cultured from bovine anterior lens capsule explants, synthesize and secrete procollagen type IV polypeptide chains alpha 1(IV) and alpha 2(IV). Metabolic labeling of these cells with [14C]proline for different time intervals and subsequent analysis by SDS/polyacrylamide gel electrophoresis revealed the presence of two polypeptide chains with apparent molecular masses of 180 kDa and 170 kDa. The procollagens were bacterial-collagenase-sensitive and were specifically immunoprecipitated by antibodies raised against the 7S domain of type IV collagen. Type IV procollagen poly(A)-rich RNA was isolated from cultured lens capsule cells and translated in a reticulocyte lysate cell-free system. Two polypeptides with apparent molecular masses of 152 kDa and 145 kDa were identified as procollagen type IV unmodified chains by gel electrophoresis, collagenase digestion and specific immunoprecipitation. During experiments in which cells were labeled in the presence of alpha, alpha'-bipyridyl, type IV procollagen appeared as one major band comigrating with a 145 kDa polypeptide on SDS-gel electrophoresis.  相似文献   

17.
Unlabeled collagenous proteins were quantified as inhibitors of binding of native, soluble, radioiodinated type I collagen to the fibroblast surface. Collagen types IV, V a minor cartilage isotype (1 alpha 2 alpha 3 alpha), and the collagenlike tail of acetylcholinesterase did not inhibit binding. Collagen types II and III behaved as competitive inhibitors of type I binding. Denaturation of native collagenous molecules exposed cryptic inhibitory determinants in the separated constituent alpha chains. Inhibition of binding by unlabeled type I collagen was not changed by enzymatic removal of the telopeptides. Inhibitory determinants were detected in cyanogen bromide-derived peptides from various regions of helical alpha 1 (I) and alpha 1(III) chains. The aminoterminal propeptide of chick pro alpha 1(I) was inhibitory for binding, whereas the carboxyterminal three-chain propeptide fragment of human type I procollagen was not. The data are discussed in terms of the proposal that binding to surface receptors initiates the assembly of periodic collagen fibrils in vivo.  相似文献   

18.
Collagen IV is a major component of vertebrate basal laminae (BLs). Studies in humans have revealed a family of genes encoding alpha 1- alpha 6 collagen IV chains and implicated alpha 3-alpha 6 in disease processes (Goodpasture and Alport syndromes and diffuse leiomyomatosis). To extend studies of these components to an experimentally accessible animal, we cloned cDNAs encoding partial collagen alpha 3, alpha 4, and alpha 5(IV) chains from the mouse. Ribonuclease protection assays showed that all three genes were expressed at highest levels in kidney and lung; alpha 5(IV) was also expressed at high levels in heart. We then made antibodies specific for each collagen IV chain. Immunohistochemical studies of several tissues revealed many combinations of collagen IV chains; however, alpha 3 and alpha 4 (IV) were always coexpressed, and only appeared in BLs that were alpha 5(IV) positive. The alpha 3-alpha 5(IV) chains were frequently but not exclusively associated with the S (beta 2) chain of laminin, as were the alpha 1, 2 (IV) collagen chains with laminin B1 (beta 1). An analysis of developing rat kidney BLs showed that newly formed (S-shaped) nephrons harbored collagen alpha 1 and alpha 2(IV) and laminin B1; maturing (capillary loop stage) BLs contained collagen alpha 1-alpha 5(IV) and laminin B1 and S-laminin; and mature glomerular BLs contained mainly collagen alpha 3-alpha 5(IV) and S-laminin. Thus, collagen alpha 1 and alpha 2(IV) and laminin B1 appear to be fetal components of the glomerular BL, and there is a developmental switch to collagen alpha 3-alpha 5(IV) and S-laminin expression.  相似文献   

19.
Collagen type IV is a highly specialized form of collagen found only in basement membranes, where it provides mechanical stability and structural integrity to tissues and organs, and binding sites for cell adhesion. In its ubiquitous form, collagen type IV consists of two alpha1 chains and one alpha2 chain, whose internal alignment within the triple helix seems to exert a strong influence on the binding affinity to alpha1beta1 integrin receptor. This has been assessed recently using two synthetic collagen peptides that contain the cell adhesion epitope of collagen type IV and are assembled into the most plausible alpha1alpha2alpha1' and alpha2alpha1alpha1' registers. In the present study, the effects of the chain register on the stability of the triple helix and the folding kinetics of these collagen peptides were investigated by CD spectroscopy and microcalorimetry. The results revealed a multi-domain structural organization for both trimers, with an unexpected strong effect of the chain alignment on the conformational stability. Molecular dynamics simulations served to rationalize more properly the experimental results.  相似文献   

20.
Protein A-gold immunocytochemistry was applied in combination with morphometrical approaches to reveal the alpha 1(IV), alpha 2(IV), and alpha 3(IV) chains of type IV collagen as well as entactin on renal basement membranes, particularly on the glomerular one, during maturation. The results have indicated that a heterogeneity between renal basement membranes appears during the maturation process. In the glomerulus at the capillary loop stage, both the epithelial and endothelial cell basement membranes were labeled for the alpha 1(IV) and alpha 2(IV) chains of type IV collagen and entactin. After fusion, both proteins were present on the entire thickness of the typical glomerular basement membrane. At later stages, the labeling for alpha 1(IV) and alpha 2(IV) chains of type IV collagen decreased and drifted towards the endothelial side, whereas the labeling for the alpha 3(IV) chain increased and remained centrally located. Entactin remained on the entire thickness of the basement membrane during maturation and in adult stage. The distribution of endogenous serum albumin in the glomerular wall was studied during maturation, as a reference for the functional properties of the glomerular basement membrane. This distribution, dispersed through the entire thickness of the basement membrane at early stages, shifted towards the endothelial side of the lamina densa with maturation, demonstrating a progressive acquisition of the permselectivity. These results demonstrate that modifications in the content and organization of the different constituents of basement membranes occur with maturation and are required for the establishment of the filtration properties of the glomerular basement membrane.  相似文献   

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