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dc.contributor.authorShaw, Leslie M.
dc.contributor.authorMercurio, Arthur M.
dc.date2022-08-11T08:08:01.000
dc.date.accessioned2022-08-23T15:39:38Z
dc.date.available2022-08-23T15:39:38Z
dc.date.issued1994-06-01
dc.date.submitted2010-11-07
dc.identifier.citationMol Biol Cell. 1994 Jun;5(6):679-90. <a href="http://www.molbiolcell.org/cgi/content/abstract/5/6/679">Link to article on publisher's website</a>
dc.identifier.issn1059-1524 (Linking)
dc.identifier.pmid7949424
dc.identifier.urihttp://hdl.handle.net/20.500.14038/26217
dc.description.abstractSeveral integrin alpha subunits have structural variants that are identical in their extracellular and transmembrane domains but that differ in their cytoplasmic domains. The functional significance of these variants, however, is unknown. In the present study, we examined the possibility that the A and B variants of the alpha 6 beta 1 integrin laminin receptor differ in function. For this purpose, we expressed the alpha 6A and alpha 6B cDNAs, as well as a truncated alpha 6 cDNA (alpha 6-delta CYT) in which the cytoplasmic domain sequence was deleted after the GFFKR pentapeptide, in P388D1 cells, an alpha 6 deficient macrophage cell line. Populations of stable alpha 6A, alpha 6B, and alpha 6-delta CYT transfectants that expressed equivalent levels of cell surface alpha 6 were obtained by fluorescence-activated cell sorter and shown to form heterodimers with endogenous beta 1 subunits. Upon attachment to laminin, the alpha 6A transfectants extended numerous pseudopodia. In contrast, the alpha 6B transfectants remained rounded and extended few processes. The transfectants were also examined for their ability to migrate toward a laminin substratum using Transwell chambers. The alpha 6A transfectants were three- to fourfold more migratory than the alpha 6B transfectants. The alpha 6-delta CYT transfectants did not attach to laminin in normal culture medium, but they did attach in the presence of Mn2+. The alpha 6-delta CYT transfectants migrated to a lesser extent than either the alpha 6A or alpha 6B transfectants in the presence of Mn2+. The alpha 6 transfectants differed significantly in the concentration of substratum bound laminin required for half-maximal adhesion in the presence of Mn2+:alpha 6A (2.1 micrograms/ml), alpha 6B (6.3 micrograms/ml), and alpha 6-delta CYT (8.8 micrograms/ml). Divalent cation titration studies revealed that these transfectants also differed significantly in both the [Ca2+] and [Mn2+] required to obtain half-maximal adhesion to laminin. These data demonstrate that the A and B variants of the alpha 6 cytoplasmic domain can differentially modulate the function of the alpha 6 beta 1 extracellular domain.
dc.language.isoen_US
dc.relation<a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&list_uids=7949424&dopt=Abstract">Link to Article in PubMed</a>
dc.subjectAnimals
dc.subjectCalcium
dc.subjectCell Adhesion
dc.subjectCell Communication
dc.subjectCell Line
dc.subjectCell Movement
dc.subjectCytoplasm
dc.subjectDNA, Complementary
dc.subjectGenetic Variation
dc.subjectIntegrin alpha6beta1
dc.subjectIntegrins
dc.subjectLaminin
dc.subjectMacrophages
dc.subjectManganese
dc.subjectMice
dc.subjectMolecular Structure
dc.subjectTransfection
dc.subjectCancer Biology
dc.subjectNeoplasms
dc.titleRegulation of cellular interactions with laminin by integrin cytoplasmic domains: the A and B structural variants of the alpha 6 beta 1 integrin differentially modulate the adhesive strength, morphology, and migration of macrophages
dc.typeJournal Article
dc.source.journaltitleMolecular biology of the cell
dc.source.volume5
dc.source.issue6
dc.identifier.legacyfulltexthttps://escholarship.umassmed.edu/cgi/viewcontent.cgi?article=1130&amp;context=cancerbiology_pp&amp;unstamped=1
dc.identifier.legacycoverpagehttps://escholarship.umassmed.edu/cancerbiology_pp/130
dc.identifier.contextkey1633355
refterms.dateFOA2022-08-23T15:39:38Z
html.description.abstract<p>Several integrin alpha subunits have structural variants that are identical in their extracellular and transmembrane domains but that differ in their cytoplasmic domains. The functional significance of these variants, however, is unknown. In the present study, we examined the possibility that the A and B variants of the alpha 6 beta 1 integrin laminin receptor differ in function. For this purpose, we expressed the alpha 6A and alpha 6B cDNAs, as well as a truncated alpha 6 cDNA (alpha 6-delta CYT) in which the cytoplasmic domain sequence was deleted after the GFFKR pentapeptide, in P388D1 cells, an alpha 6 deficient macrophage cell line. Populations of stable alpha 6A, alpha 6B, and alpha 6-delta CYT transfectants that expressed equivalent levels of cell surface alpha 6 were obtained by fluorescence-activated cell sorter and shown to form heterodimers with endogenous beta 1 subunits. Upon attachment to laminin, the alpha 6A transfectants extended numerous pseudopodia. In contrast, the alpha 6B transfectants remained rounded and extended few processes. The transfectants were also examined for their ability to migrate toward a laminin substratum using Transwell chambers. The alpha 6A transfectants were three- to fourfold more migratory than the alpha 6B transfectants. The alpha 6-delta CYT transfectants did not attach to laminin in normal culture medium, but they did attach in the presence of Mn2+. The alpha 6-delta CYT transfectants migrated to a lesser extent than either the alpha 6A or alpha 6B transfectants in the presence of Mn2+. The alpha 6 transfectants differed significantly in the concentration of substratum bound laminin required for half-maximal adhesion in the presence of Mn2+:alpha 6A (2.1 micrograms/ml), alpha 6B (6.3 micrograms/ml), and alpha 6-delta CYT (8.8 micrograms/ml). Divalent cation titration studies revealed that these transfectants also differed significantly in both the [Ca2+] and [Mn2+] required to obtain half-maximal adhesion to laminin. These data demonstrate that the A and B variants of the alpha 6 cytoplasmic domain can differentially modulate the function of the alpha 6 beta 1 extracellular domain.</p>
dc.identifier.submissionpathcancerbiology_pp/130
dc.contributor.departmentDepartment of Cancer Biology
dc.source.pages679-90


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