Selective Binding of Collagen Subtypes by Integrin α1I, α2I, and α10I Domains
Four integrins, namely α 1 β 1 , α 2 β 1 , α 10 β 1 , and α 11 β 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 α subunit. We have produced the human integrin α 10 I domai...
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| Veröffentlicht in: | The Journal of biological chemistry 2001-12, Vol.276 (51), p.48206 |
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| container_title | The Journal of biological chemistry |
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| creator | Mira Tulla Olli T. Pentikäinen Tiina Viitasalo Jarmo Käpylà Ulla Impola Petri Nykvist Liisa Nissinen Mark S. Johnson Jyrki Heino |
| description | Four integrins, namely α 1 β 1 , α 2 β 1 , α 10 β 1 , and α 11 β 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 α subunit. We have produced the human integrin α 10 I domain as a recombinant protein to reveal its ligand binding specificity. In general, α 10 I did recognize collagen types IâVI and laminin-1 in a Mg 2+ -dependent manner, whereas its binding to tenascin was only slightly better than to albumin. When α 10 I was tested together with the α 1 I and α 2 I domains, all three I domains seemed to have their own collagen binding preferences. The integrin α 2 I domain bound much better to fibrillar collagens (IâIII) than to basement membrane type IV collagen or to beaded filament-forming
type VI collagen. Integrin α 1 I had the opposite binding pattern. The integrin α 10 I domain was similar to the α 1 I domain in that it bound very well to collagen types IV and VI. Based on the previously published atomic structures of the
α 1 I and α 2 I domains, we modeled the structure of the α 10 I domain. The comparison of the three I domains revealed similarities and differences that could potentially explain their
functional differences. Mutations were introduced into the αI domains, and their binding to types I, IV, and VI collagen was
tested. In the α 2 I domain, Asp-219 is one of the amino acids previously suggested to interact directly with type I collagen. The corresponding
amino acid in both the α 1 I and α 10 I domains is oppositely charged (Arg-218). The mutation D219R in the α 2 I domain changed the ligand binding pattern to resemble that of the α 1 I and α 10 I domains and, vice versa, the R218D mutation in the α 1 I and α 10 I domains created an α 2 I domain-like ligand binding pattern. Thus, all three collagen receptors appear to differ in their ability to recognize distinct
collagen subtypes. The relatively small structural differences on their collagen binding surfaces may explain the functional
specifics. |
| doi_str_mv | 10.1074/jbc.M104058200 |
| format | Article |
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an inserted domain (I domain) in their α subunit. We have produced the human integrin α 10 I domain as a recombinant protein to reveal its ligand binding specificity. In general, α 10 I did recognize collagen types IâVI and laminin-1 in a Mg 2+ -dependent manner, whereas its binding to tenascin was only slightly better than to albumin. When α 10 I was tested together with the α 1 I and α 2 I domains, all three I domains seemed to have their own collagen binding preferences. The integrin α 2 I domain bound much better to fibrillar collagens (IâIII) than to basement membrane type IV collagen or to beaded filament-forming
type VI collagen. Integrin α 1 I had the opposite binding pattern. The integrin α 10 I domain was similar to the α 1 I domain in that it bound very well to collagen types IV and VI. Based on the previously published atomic structures of the
α 1 I and α 2 I domains, we modeled the structure of the α 10 I domain. The comparison of the three I domains revealed similarities and differences that could potentially explain their
functional differences. Mutations were introduced into the αI domains, and their binding to types I, IV, and VI collagen was
tested. In the α 2 I domain, Asp-219 is one of the amino acids previously suggested to interact directly with type I collagen. The corresponding
amino acid in both the α 1 I and α 10 I domains is oppositely charged (Arg-218). The mutation D219R in the α 2 I domain changed the ligand binding pattern to resemble that of the α 1 I and α 10 I domains and, vice versa, the R218D mutation in the α 1 I and α 10 I domains created an α 2 I domain-like ligand binding pattern. Thus, all three collagen receptors appear to differ in their ability to recognize distinct
collagen subtypes. The relatively small structural differences on their collagen binding surfaces may explain the functional
specifics.</description><identifier>ISSN: 0021-9258</identifier><identifier>EISSN: 1083-351X</identifier><identifier>DOI: 10.1074/jbc.M104058200</identifier><identifier>PMID: 11572855</identifier><language>eng</language><publisher>American Society for Biochemistry and Molecular Biology</publisher><ispartof>The Journal of biological chemistry, 2001-12, Vol.276 (51), p.48206</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Mira Tulla</creatorcontrib><creatorcontrib>Olli T. Pentikäinen</creatorcontrib><creatorcontrib>Tiina Viitasalo</creatorcontrib><creatorcontrib>Jarmo KäpylÃ</creatorcontrib><creatorcontrib>Ulla Impola</creatorcontrib><creatorcontrib>Petri Nykvist</creatorcontrib><creatorcontrib>Liisa Nissinen</creatorcontrib><creatorcontrib>Mark S. Johnson</creatorcontrib><creatorcontrib>Jyrki Heino</creatorcontrib><title>Selective Binding of Collagen Subtypes by Integrin α1I, α2I, and α10I Domains</title><title>The Journal of biological chemistry</title><description>Four integrins, namely α 1 β 1 , α 2 β 1 , α 10 β 1 , and α 11 β 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 α subunit. We have produced the human integrin α 10 I domain as a recombinant protein to reveal its ligand binding specificity. In general, α 10 I did recognize collagen types IâVI and laminin-1 in a Mg 2+ -dependent manner, whereas its binding to tenascin was only slightly better than to albumin. When α 10 I was tested together with the α 1 I and α 2 I domains, all three I domains seemed to have their own collagen binding preferences. The integrin α 2 I domain bound much better to fibrillar collagens (IâIII) than to basement membrane type IV collagen or to beaded filament-forming
type VI collagen. Integrin α 1 I had the opposite binding pattern. The integrin α 10 I domain was similar to the α 1 I domain in that it bound very well to collagen types IV and VI. Based on the previously published atomic structures of the
α 1 I and α 2 I domains, we modeled the structure of the α 10 I domain. The comparison of the three I domains revealed similarities and differences that could potentially explain their
functional differences. Mutations were introduced into the αI domains, and their binding to types I, IV, and VI collagen was
tested. In the α 2 I domain, Asp-219 is one of the amino acids previously suggested to interact directly with type I collagen. The corresponding
amino acid in both the α 1 I and α 10 I domains is oppositely charged (Arg-218). The mutation D219R in the α 2 I domain changed the ligand binding pattern to resemble that of the α 1 I and α 10 I domains and, vice versa, the R218D mutation in the α 1 I and α 10 I domains created an α 2 I domain-like ligand binding pattern. Thus, all three collagen receptors appear to differ in their ability to recognize distinct
collagen subtypes. The relatively small structural differences on their collagen binding surfaces may explain the functional
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an inserted domain (I domain) in their α subunit. We have produced the human integrin α 10 I domain as a recombinant protein to reveal its ligand binding specificity. In general, α 10 I did recognize collagen types IâVI and laminin-1 in a Mg 2+ -dependent manner, whereas its binding to tenascin was only slightly better than to albumin. When α 10 I was tested together with the α 1 I and α 2 I domains, all three I domains seemed to have their own collagen binding preferences. The integrin α 2 I domain bound much better to fibrillar collagens (IâIII) than to basement membrane type IV collagen or to beaded filament-forming
type VI collagen. Integrin α 1 I had the opposite binding pattern. The integrin α 10 I domain was similar to the α 1 I domain in that it bound very well to collagen types IV and VI. Based on the previously published atomic structures of the
α 1 I and α 2 I domains, we modeled the structure of the α 10 I domain. The comparison of the three I domains revealed similarities and differences that could potentially explain their
functional differences. Mutations were introduced into the αI domains, and their binding to types I, IV, and VI collagen was
tested. In the α 2 I domain, Asp-219 is one of the amino acids previously suggested to interact directly with type I collagen. The corresponding
amino acid in both the α 1 I and α 10 I domains is oppositely charged (Arg-218). The mutation D219R in the α 2 I domain changed the ligand binding pattern to resemble that of the α 1 I and α 10 I domains and, vice versa, the R218D mutation in the α 1 I and α 10 I domains created an α 2 I domain-like ligand binding pattern. Thus, all three collagen receptors appear to differ in their ability to recognize distinct
collagen subtypes. The relatively small structural differences on their collagen binding surfaces may explain the functional
specifics.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>11572855</pmid><doi>10.1074/jbc.M104058200</doi></addata></record> |
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| title | Selective Binding of Collagen Subtypes by Integrin α1I, α2I, and α10I Domains |
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