Laminin forms an independent network in basement membranes

Peter D. Yurchenco, Yi Shan Cheng, Holly Colognato

Research output: Contribution to journalArticlepeer-review

214 Scopus citations

Abstract

Laminin self-assembles in vitro into a polymer by a reversible, entropy-driven and calcium-facilitated process dependent upon the participation of the short arm globular domains. We now find that this polymer is required for the structural integrity of the collagen-free basement membrane of cultured embryonal carcinoma cells (ECC) and for the supramolecular organization and anchorage of laminin in the collagen-rich basement membrane of the Engelbreth-Holm-Swarm tumor (EHS). First, low temperature and EDTA induced the dissolution of ECC basement membranes and released ∼80% of total laminin from the EHS basement membrane. Second, laminin elastase fragments (E4 and E1′) possessing the short arm globules of the B1, B2, and A chains selectively acted as competitive ligands that dissolved ECC basement membranes and displaced laminin from the EHS basement membrane into solution. The fraction of laminin released increased as a function of ligand concentration, approaching the level of the EDTA-reversible pool. The smaller (∼20%) residual pool of EHS laminin, in contrast, could only be effectively displaced by E1′ and E4 if the collagenous network was first degraded with bacterial collagenase. The supramolecular architecture of freeze-etched and platinum/carbon replicated reconstituted laminin gel polymer, ECC, and collagenase-treated EHS basement membranes were compared and found to be similar, further supporting the biochemical data. We conclude that laminin forms a network independent of that of type IV collagen in basement membranes. Furthermore, in the EHS basement membrane four-fifths of laminin is anchored strictly through noncovalent bonds between laminin monomers while one-fifth is anchored through a combination of these bonds and laminin-collagen bridges.

Original languageEnglish (US)
Pages (from-to)1119-1133
Number of pages15
JournalJournal of Cell Biology
Volume117
Issue number5
DOIs
StatePublished - Jun 1992

All Science Journal Classification (ASJC) codes

  • Cell Biology

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