Your search keyword '"Lisa A. Urry"' showing total 4 results

1. Receptor functions for the integrin VLA-3: fibronectin, collagen, and laminin binding are differentially influenced by Arg-Gly-Asp peptide and by divalent cations

Author

Mariano J. Elices, Martin E. Hemler, and Lisa A. Urry

Subjects

Integrins, Cations, Divalent, Molecular Sequence Data, Integrin, Binding, Competitive, Chromatography, Affinity, immune system diseases, Laminin, Cell surface receptor, hemic and lymphatic diseases, Cell Adhesion, Tumor Cells, Cultured, Humans, Amino Acid Sequence, Laminin binding, Cell adhesion, biology, hemic and immune systems, Integrin alpha3beta1, Articles, Cell Biology, respiratory system, Molecular biology, Extracellular Matrix, Fibronectins, Fibronectin, Biochemistry, Alpha-5 beta-1, biology.protein, Collagen, Oligopeptides

Abstract

The capability of the integrin VLA-3 to function as a receptor for collagen (Coll), laminin (Lm), and fibronectin (Fn) was addressed using both whole cell adhesion assays and ligand affinity columns. Analysis of VLA-3-mediated cell adhesion was facilitated by the use of a small cell lung carcinoma line (NCI-H69), which expresses VLA-3 but few other integrins. While VLA-3 interaction with Fn was often low or undetectable in cells having both VLA-3 and VLA-5, NCI-H69 cells readily attached to Fn in a VLA-3-dependent manner. Both Arg-Gly-Asp (RGD) peptide inhibition studies, and Fn fragment affinity columns suggested that VLA-3, like VLA-5, may bind to the RGD site in human Fn. However, unlike Fn, both Coll and Lm supported VLA-3-mediated adhesion that was not inhibited by RGD peptide, and was totally unaffected by the presence of VLA-5. In addition, VLA-3-mediated binding to Fn was low in the presence of Ca++, but was increased 6.6-fold with Mg++, and 30-fold in the presence of Mn++. In contrast, binding to Coll was increased only 1.2-fold with Mg++, and 1.7-fold in Mn++, as compared to the level seen with Ca++. Together, these experiments indicate that VLA-3 can bind Coll, Lm, and Fn, and also show that (a) VLA-3 can recognize both RGD-dependent and RGD-independent ligands, and (b) different VLA-3 ligands have distinctly dissimilar divalent cation sensitivities.

Published

1991

2. Expression of alpha 4 integrin mRNA and protein and fibronectin in the early chicken embryo

Author

Richard O. Hynes, Lisa A. Urry, and Mary Ann Stepp

Subjects

Antigens, Differentiation, T-Lymphocyte, Integrins, DNA, Complementary, Integrin alpha4, Integrin, Molecular Sequence Data, Chick Embryo, CD57 Antigens, Antigens, CD, medicine, Animals, Humans, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Lymphocyte homing receptor, In Situ Hybridization, Neural fold, biology, Myogenesis, Neural crest, Gene Expression Regulation, Developmental, Heart, General Medicine, Sequence Analysis, DNA, Molecular biology, Fibronectins, Fibronectin, Somite, medicine.anatomical_structure, Neural Crest, embryonic structures, biology.protein, Neural crest cell migration, Oligopeptides

Abstract

alpha 4 integrins (alpha 4 beta 1 and alpha 4 beta 7) have been shown to mediate both cell-matrix adhesion to fibronectin and cell-cell adhesion to VCAM-1. These interactions have been suggested to contribute to hematopoiesis, lymphocyte homing, recruitment of inflammatory cells, neural crest cell migration and myogenesis. We report here the cloning of chicken alpha 4 cDNA and its use to define the patterns of expression of alpha 4 mRNA and protein in early chicken embryos (19-22 somite pairs), a stage at which neural crest cells can be examined at various points in their migration and somitic development and differentiation can also be observed at various stages. We observe widespread expression of both alpha 4 mRNA and protein, although the patterns of steady state expression do not conform precisely. Many neural crest cells contain significant levels of alpha 4 mRNA. Some neural crest cells express alpha 4 protein but its expression is transient and/or limited to a subset of these cells. alpha 4 is strongly expressed at both mRNA and protein levels by somitic cells and their derivatives in the sclerotome, dermatome and myotome and is also expressed in neural tube, otic placode, heart, gut endoderm and some other tissues. Comparison with the distributions of fibronectin shows that, although some alpha 4 expression occurs in locations consistent with a role in cell-matrix adhesion to fibronectin, alpha 4 is also expressed in other places where fibronectin is low or absent and a role for alpha 4 in cell-cell interactions appears more likely.

Published

1994

3. The evolution of the thrombospondin gene family

Author

Temple F. Smith, Jack Lawler, Lisa A. Urry, Mark Duquette, and Katherine McHenry

Subjects

Molecular Sequence Data, Sequence alignment, Platelet Membrane Glycoproteins, Biology, Mice, Xenopus laevis, Species Specificity, Molecular evolution, Phylogenetics, Gene duplication, Genetics, Gene family, Animals, Humans, Amino Acid Sequence, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Phylogeny, Thrombospondin, Phylogenetic tree, Base Sequence, Sequence Homology, Amino Acid, Genes, Multigene Family, Thrombospondins, Chickens, Sequence Alignment

Abstract

Thrombospondin-1 is an adhesive glycoprotein that is involved in cellular attachment, spreading, migration, and proliferation. To date, four genes have been identified that encode for the members of the thrombospondin gene family. These four genes are homologous to each other in the EGF-like (type 2) repeats, the calcium-binding (type 3) motifs, and the COOH-terminal. The latter has been reported to be a cell-binding domain in thrombospondin-1. Phylogenetic trees have been constructed from the multisequence alignment of thrombospondin sequences from human, mouse, chicken, and frog. Two different algorithms generate comparable results in terms of the topology and the branch lengths. The analysis indicates that an early form of the thrombospondin gene duplicated about 925 million years ago. The gene duplication that produced the thrombospondin-1 and -2 branches of the family is predicted to have occurred 583 million years ago, whereas the gene duplication that produced the thrombospondin-3 and -4 branches of the family is predicted to have occurred 644 million years ago. These results indicate that the members of the thrombospondin gene family have existed throughout the evolution of the animal kingdom and thus probably participate in functions that are common to most of its members.

Published

1993

4. Integrin heterodimer and receptor complexity in avian and mammalian cells

Author

Gene H. Yee, Eugene E. Marcantonio, Richard O. Hynes, Lisa A. Urry, and Mary Ann Stepp

Subjects

Integrins, Macromolecular Substances, Blotting, Western, Molecular Sequence Data, Integrin, Ligands, CD49c, Chromatography, Affinity, Collagen receptor, Integrin complex, Cell Adhesion, Animals, Humans, Cloning, Molecular, Membrane Glycoproteins, biology, Articles, DNA, Cell Biology, Molecular biology, Fibronectins, Molecular Weight, Fibronectin, Integrin alpha M, Multigene Family, Alpha-5 beta-1, Immunologic Techniques, biology.protein, Integrin, beta 6, Chickens

Abstract

We report data showing that the integrin receptor complex in chickens contains several discrete heterodimers all sharing the beta 1-integrin subunit combined separately with different alpha-subunits. Using antisera to synthetic peptides based on cDNA sequences of chicken and human alpha-integrin subunits to analyze the integrin complement of avian and mammalian cells, we show that band 2 of the chicken integrin complex contains alpha-subunits related to both alpha 3- and alpha 5-subunits of human integrins. alpha 3 beta 1 and alpha 5 beta 1 have both previously been shown in human cells to be fibronectin receptors and alpha 3 beta 1 can also act as a receptor for laminin and collagen. We also provide evidence for the presence, in band 1 of the chicken integrin complex, of a third integrin alpha-subunit which is also alpha 5 related. This integrin subunit exists in a separate heterodimer complex with beta 1 and binds to fibronectin-affinity columns. These results provide explanations for published data showing that the avian integrin complex contains receptor activity for a variety of extracellular matrix proteins. We conclude that the chicken integrin complex comprises a set of beta 1-integrin heterodimers equivalent to the human VLA antigens and includes at least two fibronectin receptors. Finally, we show that chicken embryo fibroblasts also contain a beta 3-class integrin related to the RGD receptors defined in various human cells.

Published

1989