Hynda K. Kleinman scite author profile

We have studied the reconstitution of basement membrane molecules from extracts prepared from the basement membrane of the EHS tumor. Under physiological conditions and in the presence of added type IV collagen and heparan sulfate proteoglycan, gellike structures form whose ultrastructure appears as interconnected thin sheets resembling the lamina dense zone of basement membrane. The major components of the reconstituted structures include laminin, type IV collagen, heparan sulfate proteoglycan, entactin, and nidogen. These components polymerize in constant proportions on reconstitution, suggesting that they interact in defined proportions. Molecular sieve studies on the soluble extract demonstrate that laminin, entactin, and nidogen are associated in large but dissociable complexes which may be a necessary intermediate in the deposition of basement membrane. The reconstituted matrix was biologically active and stimulated the growth and differentiation of certain cells.

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Role of laminin and basement membrane in the morphological differentiation of human endothelial cells into capillary-like structures.

Kubota

et al. 1988

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Abstract. We have defined a signal responsible for the morphological differentiation of human umbilical vein and human dermal microvascular endothelial cells in vitro. We find that human umbilical vein endothelial cells deprived of growth factors undergo morphological differentiation with tube formation after 6-12 wk, and that human dermal microvascular endothelial cells differentiate after 1 wk of growth factor deprivation. Here, we report that morphological differentiation of both types of endothelial cells is markedly accelerated by culture on a reconstituted gel composed of basement membrane proteins. Under these conditions, tube formation begins in 1-2 h and is complete by 24 h. The tubes are maintained for >2 wk. Little or no proliferation occurs under these conditions, although the cells, when trypsinized and replated on fibronectin-coated tissue culture dishes, resume division. U1-trastructurally, the tubes possess a lumen surrounded by endothelial cells attached to one another by junctional complexes. The cells possess Weibel-Palade bodies and factor VIII-related antigens, and take up acetylated low density lipoproteins. Tubule formation does not occur on tissue culture plastic coated with laminin or collagen IV, either alone or in combination, or on an agarose or a collagen I gel. However, endothelial cells cultured on a collagen I gel supplemented with laminin form tubules, while supplementation with collagen IV induces a lesser degree of tubule formation. Preincubation of endothelial cells with antibodies to laminin prevented tubule formation while antibodies to collagen IV were less inhibitory. Preincubation of endotheial cells with synthetic peptides derived from the laminin B1 chain that bind to the laminin cell surface receptor or incorporation of these peptides into the gel matrix blocked tubule formation, whereas control peptides did not. These observations indicate that endothelial cells can rapidly differentiate on a basement membrane-like matrix and that laminin is the principal factor in inducing this change.

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Isolation and characterization of type IV procollagen, laminin, and heparan sulfate proteoglycan from the EHS sarcoma

Kleinman¹,

McGarvey²,

Liotta³

et al. 1982

Biochemistry

1,136

621

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We have studied the extractability of type IV collagen, laminin, and heparan sulfate proteoglycan from EHS tumor tissue growth in normal and lathyritic animals. Laminin and heparan sulfate proteoglycan were readily extracted with chaotropic solvents from both normal and lathyritic tissue. The collagenous component was only solubilized from lathyritic tissue in the presence of a reducing agent. These results indicate that lysine-derived cross-links and disulfide bonds stabilize the collagenous component in the matrix but not the laminin or the heparan sulfate proteoglycan. The majority of the collagen present in the extracts had a native triple helix based upon the pattern of peptides resistant to pepsin digestion and visualization in the electron microscope by the rotary shadow technique. This protein was composed of chains (Mr 185000 and 170000) identical in migration to the chains of newly synthesized type IV procollagen. This finding confirms earlier work that indicates that the biosynthetic form, type IV procollagen, is incorporated as such in the basement membrane matrix. Material with smaller chains (Mr 160000 and 140000) appeared on storage in acetic acid solutions. These results indicate that the lower molecular weight collagen in acid extracts of basement membrane arises artifactually due to an endogenous acid-active protease.

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Osteonectin, a bone-specific protein linking mineral to collagen

Termine

Kleinman

Whitson

et al. 1981

Cell

1,052

559

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Hynda K. Kleinman

Matrigel: Basement membrane matrix with biological activity

Basement membrane complexes with biological activity

Role of laminin and basement membrane in the morphological differentiation of human endothelial cells into capillary-like structures.

Isolation and characterization of type IV procollagen, laminin, and heparan sulfate proteoglycan from the EHS sarcoma

Osteonectin, a bone-specific protein linking mineral to collagen

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