Mats Paulsson

A new nomenclature for the laminins

The authors have adopted a new nomenclature for the laminins. They are numbered with arabic numerals in the order discovered. The previous A, B1 and B2 chains, and their isoforms, are alpha, beta and gamma, respectively, followed by an arabic numeral to identify the isoform. For example, the first laminin identified from the Engelbreth-Holm-Swarm tumor is laminin-1 with the chain composition alpha 1 beta 1 gamma 1. The genes for these chains are LAMA1, LAMB1 and LAMC1, respectively.

Cartilage oligomeric matrix protein (COMP) is an abundant component of tendon

An abundant matrix protein was purified under native conditions from adult bovine tendon and identified as cartilage oligomeric matrix protein (COMP) by immunochemical crossreaction, amino acid sequence identity of tryptic peptides derived from both N‐ and C‐terminal regions, and structure revealed by electron microscopy. Immunohistochemistry showed age‐dependent differences in distribution of COMP in tendon.

Structure of low density heparan sulfate proteoglycan isolated from a mouse tumor basement membrane

A large heparan sulfate proteoglycan of low buoyant density (p = 1.32 to 1.40 g/cm3 in 6 M-guanidine.HCl) was extracted from a tumor basement membrane with denaturing solvents and purified by chromatography and CsCl gradient centrifugation. Chemical, immunological, physical and electron microscopical analyses have demonstrated a high degree of purity and have allowed us to propose a structural model for this proteoglycan. It is composed of an 80 nm long protein core formed from a single polypeptide chain (Mr about 500,000) with intrachain disulfide bonds. This core is folded into a row of six globular domains of variable size as shown by electron microscopy after rotary shadowing and negative staining. A multidomain structure was confirmed by protease digestion experiments that allowed the isolation of a single heparan sulfate-containing peptide segment representing less than 5% of the total mass of the protein core. Electron microscopy has visualized generally three heparan sulfate chains in each molecule close to each other at one pole of the protein core. The molecular mass and length (100 to 170 nm) of the heparan sulfate chains were found to vary consistently between different preparations. The mass per length ratio (350 nm-1) indicated an extended conformation for the heparan sulfate side-chains. These structural features are distinctly different from those of the high density proteoglycan, suggesting that both forms of basement membrane heparan sulfate proteoglycan are genetically distinct and not derived from a common precursor.

Solubilization of protein BM‐40 from a basement membrane tumor with cheating agents and evidence for its identity with osteonectin and SPARC

Up to 80% of the calcium‐binding protein BM‐40 could be extracted from a tumor basement membrane with a physiological buffer containing 10 mM EDTA. About half of its amino acid sequence was determined by Edman degradation demonstrating identity with cDNA deduced sequences of bone osteonectin and SPARC.

Merosin promotes cell attachment and neurite outgrowth and ls a component of the neurite-promoting factor of RN22 schwannoma cells

The laminin-like protein merosin was purified from human placenta in intact form and as pepsin fragments and compared to laminin in heparin affinity chromatography and cell binding assays. Intact merosin and a small fragment of merosin comprising the last two repeats of the heavy chain g domain bind to heparin. Intact merosin and large pepsin fragments of merosin, but not the small C-terminal fragment, mediate the attachment and spreading of several types of cells and promote neurite outgrowth from neuronal cells similar to laminin and its corresponding fragments. Cells with various integrin-type receptors for laminin attached equally well to merosin and laminin, suggesting that several of the known laminin binding receptors also bind to merosin. Antibodies to the beta 1 subunit of integrins inhibited neurite outgrowth on merosin as well as on laminin, confirming the involvement of integrin-mediated interaction of cells with both merosin and laminin. Schwannoma cells, which have previously been shown to produce a laminin-like, neurite-promoting factor, synthesize merosin in vivo and in vitro as shown by protein and mRNA analysis. The results suggest that merosin, which is the more abundant basement membrane protein in the laminin family, has properties very similar to laminin despite differences in the structure of the heavy chain. Furthermore, merosin may be identical to or a component of the neurite-promoting factors previously reported from heart, muscle, and Schwann cells.

THE CARTILAGE PROTEOGLYCAN AGGREGATE : ASSEMBLY THROUGH COMBINED PROTEIN-CARBOHYDRATE AND PROTEIN-PROTEIN INTERACTIONS

In vitro reassembled aggregates of cartilage proteoglycan (aggrecan) were studied by glycerol spraying/rotary shadowing electron microscopy and compared to the corresponding native (i.e. never dissociated) structures. In both cases a tightly packed central filament structure was observed consisting of the hyaluronate binding region (HABR) of the proteoglycan, link protein (LP) and hyaluronate (HA). This differs from earlier results where a discontinuous central filament structure was seen after spreading proteoglycan aggregates at a water/air interphase. Binding of isolated HABR to HA is random but upon addition of link protein a clustering of the HA-binding proteins is observed, indicating a cooperativity. In a fully saturated aggregate the HA is covered by a continuous protein shell consisting of HABR and LP. When added in amounts below saturation HABR and LP bind to the HA in clusters which are interrupted by free strands of HA. The proteoglycan aggregate is thus an example for a structure where a polysaccharide forms a template for a supramolecular assembly largely stabilized by protein-protein interactions.

Two adjacent N-terminal glutamines of BM-40 (osteonectin, SPARC) act as amine acceptor sites in transglutaminaseC-catalyzed modification.

The extracellular matrix protein BM-40 (osteonectin, SPARC) has recently been shown to be a major target for transglutaminase-catalyzed cross-linking in differentiating cartilage. In the present study we demonstrate that recombinant human BM-40 can be modified with [3H]putrescine in a 1:1 molar ratio by transglutaminaseC (tissue transglutaminase). Residues Gln3 and Gln4 were identified as major amine acceptor sites. This was confirmed with several mutant proteins, including deletions in the N-terminal domain I of BM-40, site-directed mutagenesis of the reactive glutamines, and fusion of the seven-amino acid-long N-terminal sequence (APQQEAL) to an unrelated protein. The results showed that the N-terminal target site is sufficient for modification by transglutaminase but at a low level. For high efficiency amine incorporation an intact domain I is required. The conservation of at least one of the transglutaminase target glutamines in the known vertebrate BM-40 sequences and their absence in an invertebrate homologue point to an important, but yet unknown, role of this modification in vertebrates.

Distinct antigenic characteristics of murine parietal yolk sac laminin

Two monoclonal antibodies (LAM-A and LAM-B) specific for laminin from normal and neoplastic parietal yolk sac (PYS) cells were produced in rats immunized with a mouse yolk sac carcinoma cell line. Both antibodies immunoprecipitated the 400,000- and 200,000-Da chains of laminin and reacted with purified PYS laminin in ELISA. LAM-A reacted with mouse and rat PYS laminin, whereas LAM-B reacted only with mouse PYS laminin. Formaldehyde- and methanol-fixed adult and fetal somatic tissues were immunohistochemically unreactive with either of the two antibodies. In acetone-fixed tissue sections, both antibodies reacted weakly with some medullary tubules of the kidney, the follicular basement membrane of the ovaries, and the seminiferous tubules. The antibodies appear to react with the polypeptide determinants residing on the terminal portion of the long arm of laminin. It is concluded that laminin derived from normal or malignant PYS cells has distinct antigenic sites that are immunochemically not apparent in most other basement membranes.

Basement membrane proteins produced by Schwann cells and in neurofibromatosis.

Mouse Schwann cells and rat RN22 schwannoma cells cultured in the absence of neurons and fibroblasts produce typical basement membrane proteins. Heparan sulfate proteoglycan (low density form), nidogen, and protein BM-40 were identified by radioimmunoassays, immunoblotting, and by immunoprecipitation after metabolic labeling. The cells also produce a laminin-like protein that differs from authentic laminin by a reduced A chain content and lack of antigenic determinants located in the long arm of laminin. Laminin possessing A and B chains is, however, produced by PYS-2 teratocarcinoma cells grown under the same conditions. Laminin from Schwann cell culture medium promotes neurite outgrowth, and this activity could be immunoprecipitated but not blocked by various antibodies against authentic laminin. In addition, Schwann cell laminin is found complexed noncovalently with nidogen. Sulfate incorporation revealed the synthesis of proteoglycans and entactin. A similar set of proteins and in addition collagen IV could be demonstrated in neurofibroma tissue by immunohistology, and were localized to the laminae densae of the multilayered basement membranes around Schwann cells and capillaries. Laminin purified from 0.5 M NaCl neurofibroma tissue extracts possessed both A and B chains. Nidogen was identified in a partially degraded form.

The intrinsic factor-vitamin B12 receptor, cubilin, is assembled into trimers via a coiled-coil alpha-helix

A large protein was purified from bovine kidney, using selective extraction with EDTA to solubilize proteins anchored by divalent cation-dependent interactions. An antiserum raised against the purified protein labeled the apical cell surface of the epithelial cells in proximal tubules and the luminal surface of small intestine. Ten peptide sequences, derived from the protein, all matched the recently published sequences for rat (Moestrup, S. K., Kozyraki, R., Kristiansen, M., Kaysen, J. H., Holm Rasmussen, H., Brault, D., Pontillon, F., Goda, F. O., Christensen, E. I., Hammond, T. G., and Verroust, P. J. (1998) J. Biol. Chem. 273, 5235–5242) and human cubilin, a receptor for intrinsic factor-vitamin B12 complexes, identifying the protein as bovine cubilin. In electron microscopy, a three-armed structure was seen, indicating an oligomerization of three identical subunits. This model was supported by the M rvalues of about 1,500,000 for the intact protein and 440,000 for its subunits obtained by analytical ultracentrifugation. In a search for a potential assembly domain, we identified a region of heptad repeats in the N-terminal part of the cubilin sequence. Computer-assisted analysis supported the presence of a coiled-coil α-helix between amino acids 103 and 132 of the human cubilin sequence and predicted the formation of a triple coiled-coil. We therefore conclude that cubilin forms a noncovalent trimer of identical subunits connected by an N-terminal coiled-coil α-helix.