0000000000236766
AUTHOR
Petri Nykvist
Integrin-mediated Cell Adhesion to Type I Collagen Fibrils
In the integrin family, the collagen receptors form a structurally and functionally distinct subgroup. Two members of this subgroup, α1β1 and α2β1 integrins, are known to bind to monomeric form of type I collagen. However, in tissues type I collagen monomers are organized into large fibrils immediately after they are released from cells. Here, we studied collagen fibril recognition by integrins. By an immunoelectron microscopy method we showed that integrin α2I domain is able to bind to classical D-banded type I collagen fibrils. However, according to the solid phase binding assay, the collagen fibril formation appeared to reduce integrin α1I and α2I domain avidity to collagen and to lower …
The Fibril-associated Collagen IX Provides a Novel Mechanism for Cell Adhesion to Cartilaginous Matrix
Collagen IX is the prototype fibril-associated collagen with interruptions in triple helix. In human cartilage it covers collagen fibrils, but its putative cellular receptors have been unknown. The reverse transcription-PCR analysis of human fetal tissues suggested that based on their distribution all four collagen receptor integrins, namely alpha1beta1, alpha2beta1, alpha10beta1, and alpha11beta1, are possible receptors for collagen IX. Furthermore primary chondrocytes and chondrosarcoma cells express the four integrins simultaneously. Chondrosarcoma cells, as well as Chinese hamster ovary cells transfected to express alpha1beta1, alpha2beta1, or alpha10beta1 integrin as their only collage…
Integrin alpha(2)I domain recognizes type I and type IV collagens by different mechanisms.
The collagens are recognized by the alphaI domains of the collagen receptor integrins. A common structural feature in the collagen-binding alphaI domains is the presence of an extra helix, named helix alphaC. However, its participation in collagen binding has not been shown. Here, we have deleted the helix alphaC in the alpha(2)I domain and tested the function of the resultant recombinant protein (DeltaalphaCalpha(2)I) by using a real-time biosensor. The DeltaalphaCalpha(2)I domain had reduced affinity for type I collagen (430 +/- 90 nM) when compared with wild-type alpha(2)I domain (90 +/- 30 nM), indicating both the importance of helix alphaC in type I collagen binding and that the collag…
The cell adhesion domain of type XVII collagen promotes integrin-mediated cell spreading by a novel mechanism.
Type XVII collagen (BP180) is a keratinocyte transmembrane protein that exists as the full-length protein in hemidesmosomes and as a 120-kDa shed ectodomain in the extracellular matrix. The largest collagenous domain of type XVII collagen, COL15, has been described previously as a cell adhesion domain (Tasanen, K., Eble, J. A., Aumailley, M., Schumann, H., Baetge, J, Tu, H., Bruckner, P., and Bruckner-Tuderman, L. (2000) J. Biol. Chem. 275, 3093-3099). In the present work, the integrin binding of triple helical, human recombinant COL15 was tested. Solid phase binding assays using recombinant integrin alpha(1)I, alpha(2)I, and alpha(10)I domains and cell spreading assays with alpha(1)beta(1)…
Distinct Recognition of Collagen Subtypes by α1β1 and α2β1Integrins
Two integrin-type collagen receptors, α1β1 and α2β1, are structurally very similar. However, cells can concomitantly express the both receptors and they might have independent functions. Here, Chinese hamster ovary (CHO) cells, which lack endogenous collagen receptors, were transfected with either α1 or α2 integrin cDNA. Cells were allowed to adhere to various collagen types and their integrin function was tested by observing the progression of cell spreading. The cells expressing α1β1 integrin could spread on collagen types I, III, IV, and V but not on type II, while α2β1 integrin could mediate cell spreading on collagen types I-V. Type XIII is a transmembrane collagen and its interaction …
Integrins as cellular receptors for fibril-forming and transmembrane collagens
Nykvist tutki väitöskirjatyössään säikeitä muodostavia kollageeneja I, II, III ja V, verkkomaisia rakenteita muodostavaa kollageenityyppiä IV ja solun pintaan ankkuroituja kollageeneja XIII ja XVII.Integriinit ovat joukko solun pinnan reseptiivisiä valkuaisaineita, jotka välittävät solujen välisiä ja/tai solujen ja soluväliaineen välisiä vuorovaikutuksia. Integriinit rakentuvat toisiinsa sitoutuneesta alfa- ja beeta-alayksiköstä, joiden yhdistelmät osallistuvat elimistön normaaliin toimintaan säädellen solujen kasvua, vaeltamista, erilaistumista ja ilmiasua. Ne yhdistävät solun sisäiseen viestintäjärjestelmään osallistuvat valkuaisaineet solun ympäristöön. Tämä vuorovaikutus on kaksisuuntai…
Selective Binding of Collagen Subtypes by Integrin α1I, α2I, and α10I Domains
Four integrins, namely alpha(1)beta(1), alpha(2)beta(1), alpha(10)beta(1), and alpha(11)beta(1), form a special subclass of cell adhesion receptors. They are all collagen receptors, and they recognize their ligands with an inserted domain (I domain) in their alpha subunit. We have produced the human integrin alpha(10)I domain as a recombinant protein to reveal its ligand binding specificity. In general, alpha(10)I did recognize collagen types I-VI and laminin-1 in a Mg(2+)-dependent manner, whereas its binding to tenascin was only slightly better than to albumin. When alpha(10)I was tested together with the alpha(1)I and alpha(2)I domains, all three I domains seemed to have their own collag…