The Amino-terminal One-third of Defines the Ligand Recognition Specificity of Integrin
The integrin α subunits play a major role in the regulation of ligand binding specificity. To gain further insight into the regions of the α subunits that regulate ligand specificity, we have utilized α /α chimeras to identify regions of α that when substituted for the homologous regions of α...
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| Veröffentlicht in: | The Journal of biological chemistry 1996-01, Vol.271 (4), p.2033 |
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| container_issue | 4 |
| container_start_page | 2033 |
| container_title | The Journal of biological chemistry |
| container_volume | 271 |
| creator | Joseph C. Loftus Carol E. Halloran Mark H. Ginsberg Larry P. Feigen Jeffery A. Zablocki Jeffrey W. Smith |
| description | The integrin α subunits play a major role in the regulation of ligand binding specificity. To gain further insight into the
regions of the α subunits that regulate ligand specificity, we have utilized α /α chimeras to identify regions of α that when substituted for the homologous regions of α switched the ligand binding phenotype of α β to that of α β . We report that the ligand recognition specificity of β integrins is regulated by the amino-terminal one-third of the α subunit. Substitution of the amino-terminal portion of α with the corresponding 334 residues of α reconstituted reactivity with both α β -specific activation-dependent (PAC1) and -independent (OPG2) ligand mimetic antibodies in addition to small highly specific
activation-independent ligands. In contrast, substitution of the amino-terminal portion alone or the divalent cation repeats
alone were not sufficient to change ligand binding specificity. These data in combination with previous studies demonstrate
that integrin ligand recognition requires cooperation between elements in both the α and β subunits and indicate that the
ligand binding pocket is a structure assembled from elements of both the α and β subunits. |
| doi_str_mv | 10.1074/jbc.271.4.2033 |
| format | Article |
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regions of the α subunits that regulate ligand specificity, we have utilized α /α chimeras to identify regions of α that when substituted for the homologous regions of α switched the ligand binding phenotype of α β to that of α β . We report that the ligand recognition specificity of β integrins is regulated by the amino-terminal one-third of the α subunit. Substitution of the amino-terminal portion of α with the corresponding 334 residues of α reconstituted reactivity with both α β -specific activation-dependent (PAC1) and -independent (OPG2) ligand mimetic antibodies in addition to small highly specific
activation-independent ligands. In contrast, substitution of the amino-terminal portion alone or the divalent cation repeats
alone were not sufficient to change ligand binding specificity. These data in combination with previous studies demonstrate
that integrin ligand recognition requires cooperation between elements in both the α and β subunits and indicate that the
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regions of the α subunits that regulate ligand specificity, we have utilized α /α chimeras to identify regions of α that when substituted for the homologous regions of α switched the ligand binding phenotype of α β to that of α β . We report that the ligand recognition specificity of β integrins is regulated by the amino-terminal one-third of the α subunit. Substitution of the amino-terminal portion of α with the corresponding 334 residues of α reconstituted reactivity with both α β -specific activation-dependent (PAC1) and -independent (OPG2) ligand mimetic antibodies in addition to small highly specific
activation-independent ligands. In contrast, substitution of the amino-terminal portion alone or the divalent cation repeats
alone were not sufficient to change ligand binding specificity. These data in combination with previous studies demonstrate
that integrin ligand recognition requires cooperation between elements in both the α and β subunits and indicate that the
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regions of the α subunits that regulate ligand specificity, we have utilized α /α chimeras to identify regions of α that when substituted for the homologous regions of α switched the ligand binding phenotype of α β to that of α β . We report that the ligand recognition specificity of β integrins is regulated by the amino-terminal one-third of the α subunit. Substitution of the amino-terminal portion of α with the corresponding 334 residues of α reconstituted reactivity with both α β -specific activation-dependent (PAC1) and -independent (OPG2) ligand mimetic antibodies in addition to small highly specific
activation-independent ligands. In contrast, substitution of the amino-terminal portion alone or the divalent cation repeats
alone were not sufficient to change ligand binding specificity. These data in combination with previous studies demonstrate
that integrin ligand recognition requires cooperation between elements in both the α and β subunits and indicate that the
ligand binding pocket is a structure assembled from elements of both the α and β subunits.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>8567656</pmid><doi>10.1074/jbc.271.4.2033</doi></addata></record> |
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| ispartof | The Journal of biological chemistry, 1996-01, Vol.271 (4), p.2033 |
| issn | 0021-9258 1083-351X |
| language | eng |
| recordid | cdi_highwire_biochem_271_4_2033 |
| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection |
| title | The Amino-terminal One-third of Defines the Ligand Recognition Specificity of Integrin |
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