Your search keyword '"T. Hijikata"' showing total 3 results

1. Unanticipated temporal and spatial effects of sarcomeric α-actinin peptides expressed in PtK2 cells

Author

H.L. Sweeney, Z X Lin, James J. Choi, Howard Holtzer, S. Holtzer, and T. Hijikata

Subjects

PTK2, macromolecular substances, Cell Biology, Transfection, Biology, Molecular biology, Epitope, Cell biology, Adherens junction, Actinin, alpha 1, Structural Biology, Cytotoxic T cell, Cytoskeleton, Receptor

Abstract

To understand the multiple roles of alpha-actinin in the assembly of (1) Z bands in muscle, and (2) a variety of cytoskeletal structures in non-muscle cells, 4 sarcomeric alpha-actinin derived cDNAs tagged with a MYC epitope were constructed. The constructs were: (1) full-length (FL/MYC); (2) minus EF-hands (-EF/MYC); (3) actin-binding site (+A/MYC); and (4) minus actin-binding site (-A/MYC). These four cDNAs were individually transfected into PtK2 cells. The exogenous sarcomeric alpha-actinin (s-alpha-actinin/MYC) was followed with labeled anti-MYC, the endogenous non-sarcomeric alpha-actinin (non-s-alpha-actinin) with labeled anti-non-s-alpha-actinin. The salient findings were: (1) the selective intracellular localizations of each expressed MYC-tagged peptide differed one from the other; (2) their respective localizations in the 10-24-h post-transfection (p.t.) period differed from their localizations in the 48-72-h p.t. period; (3) each MYC-positive peptide was cytotoxic, but each in a distinctive way; and (4) while the selective targeting of FL/MYC to dense bodies, adhesion plaques, adherens junctions, and ruffled membranes was consistent with binding studies in cell-free systems, the incorporation of the mutated peptides, particularly +A/MYC and -A/MYC was not. Changes in localization over time and the distinctive cytopathologies probably reflect domain-specific targeting. They also suggest unexpected cooperative involvement of multiple domains of alpha-actinin with specific receptors in distal cytoskeletal structures. To date, such qualitative in vivo interactions have not been described either in in vitro binding studies, or in short-term experiments involving localization and/or fate of microinjected labeled molecules into living cells.

Published

1997

2. Unanticipated temporal and spatial effects of sarcomeric alpha-actinin peptides expressed in PtK2 cells

Author

T, Hijikata, Z X, Lin, S, Holtzer, J, Choi, H L, Sweeney, and H, Holtzer

Subjects

Macropodidae, Sarcomeres, Binding Sites, Time Factors, Base Sequence, Cell Death, Recombinant Fusion Proteins, Molecular Sequence Data, Epithelial Cells, Kidney, Transfection, Cell Line, Animals, Actinin, Peptides, Dimerization, Cytoskeleton

Abstract

To understand the multiple roles of alpha-actinin in the assembly of (1) Z bands in muscle, and (2) a variety of cytoskeletal structures in non-muscle cells, 4 sarcomeric alpha-actinin derived cDNAs tagged with a MYC epitope were constructed. The constructs were: (1) full-length (FL/MYC); (2) minus EF-hands (-EF/MYC); (3) actin-binding site (+A/MYC); and (4) minus actin-binding site (-A/MYC). These four cDNAs were individually transfected into PtK2 cells. The exogenous sarcomeric alpha-actinin (s-alpha-actinin/MYC) was followed with labeled anti-MYC, the endogenous non-sarcomeric alpha-actinin (non-s-alpha-actinin) with labeled anti-non-s-alpha-actinin. The salient findings were: (1) the selective intracellular localizations of each expressed MYC-tagged peptide differed one from the other; (2) their respective localizations in the 10-24-h post-transfection (p.t.) period differed from their localizations in the 48-72-h p.t. period; (3) each MYC-positive peptide was cytotoxic, but each in a distinctive way; and (4) while the selective targeting of FL/MYC to dense bodies, adhesion plaques, adherens junctions, and ruffled membranes was consistent with binding studies in cell-free systems, the incorporation of the mutated peptides, particularly +A/MYC and -A/MYC was not. Changes in localization over time and the distinctive cytopathologies probably reflect domain-specific targeting. They also suggest unexpected cooperative involvement of multiple domains of alpha-actinin with specific receptors in distal cytoskeletal structures. To date, such qualitative in vivo interactions have not been described either in in vitro binding studies, or in short-term experiments involving localization and/or fate of microinjected labeled molecules into living cells.

Published

1997

3. Unanticipated temporal and spatial effects of sarcomeric alpha-actinin peptides expressed in PtK2 cells.

Author

Hijikata T, Lin ZX, Holtzer S, Choi J, Sweeney HL, and Holtzer H

Subjects

Actinin chemistry, Actinin genetics, Actinin physiology, Animals, Base Sequence, Binding Sites, Cell Death, Cell Line, Dimerization, Epithelial Cells metabolism, Kidney cytology, Macropodidae, Molecular Sequence Data, Peptides analysis, Peptides physiology, Recombinant Fusion Proteins analysis, Time Factors, Transfection, Actinin analysis, Cytoskeleton chemistry, Sarcomeres chemistry

Abstract

To understand the multiple roles of alpha-actinin in the assembly of (1) Z bands in muscle, and (2) a variety of cytoskeletal structures in non-muscle cells, 4 sarcomeric alpha-actinin derived cDNAs tagged with a MYC epitope were constructed. The constructs were: (1) full-length (FL/MYC); (2) minus EF-hands (-EF/MYC); (3) actin-binding site (+A/MYC); and (4) minus actin-binding site (-A/MYC). These four cDNAs were individually transfected into PtK2 cells. The exogenous sarcomeric alpha-actinin (s-alpha-actinin/MYC) was followed with labeled anti-MYC, the endogenous non-sarcomeric alpha-actinin (non-s-alpha-actinin) with labeled anti-non-s-alpha-actinin. The salient findings were: (1) the selective intracellular localizations of each expressed MYC-tagged peptide differed one from the other; (2) their respective localizations in the 10-24-h post-transfection (p.t.) period differed from their localizations in the 48-72-h p.t. period; (3) each MYC-positive peptide was cytotoxic, but each in a distinctive way; and (4) while the selective targeting of FL/MYC to dense bodies, adhesion plaques, adherens junctions, and ruffled membranes was consistent with binding studies in cell-free systems, the incorporation of the mutated peptides, particularly +A/MYC and -A/MYC was not. Changes in localization over time and the distinctive cytopathologies probably reflect domain-specific targeting. They also suggest unexpected cooperative involvement of multiple domains of alpha-actinin with specific receptors in distal cytoskeletal structures. To date, such qualitative in vivo interactions have not been described either in in vitro binding studies, or in short-term experiments involving localization and/or fate of microinjected labeled molecules into living cells.

Published

1997