Actin filaments are key elements in the dynamic machinery of motile cells and in the scaffolding that maintains the shape of cells. Three cell types, each of which is specialized in such a way that separate characteristics of the actin cytoskeleton and its regulation will be studied. 1) The acrosomal reaction of Thyone sperm as a model system for investigations of the polymerization of actin. For example, how is the unpolymerized actin maintained in an insoluble state prior to induction and what role, if any, do precursor phospholipids, more specifically, phosphoinositol, play in regulation actin assembly? 2) The differentiation of hair cells of the chicken cochlea as a model for understanding how the length, number, and distribution of actin filaments is determined. First, is the length of the actin filaments regulated by capping macromolecules? This could be determined by adding exogenous gel filtered monomeric actin to detergent extracted sensory epithelia under polymerizing conditions. Those filaments that are capped should fail to elongate, while those that are uncapped will elongate. Second, when in development are new filaments added to the existing stereociliary actin bundle and where does nucleation occur? Third, how is the cuticular plate, a naturally occurring actin gel, formed? In collaboration with David DeRosier we will look at what proteins are involved and how they produce this gel. Fourth, how do actin binding proteins specifically """"""""know"""""""" where to bind, e.g. to the stereocilia, the cuticular plate, or zonula adhaerens ring? Fifth, using in situ hybridization techniques it would be interesting to try to determine when the mRNA for actin is made in differentiating, hair cells and how different hair cells end up with the same amount of F-actin. 3) The growth and spread of the intracytoplasmic bacterial parasite, Listeria, as a model for identifying substances that nucleate the polymerization of actin and control the length of actin filaments. These studies are also of importance medically as we are studying the cell biology of entry, reproduction, and spread in host macrophages. Listeria is a model for other even more virulent bacterial such as Shigella. First, I will examine actin nucleation from the surface of Listeria by adding exogenous gel filtered actin to detergent extracted infected macrophages to see if Listeria will induce actin assembly from its surface. Second, in collaboration with Dan Portnoy, we will isolate mutant strains of Listeria that do not spread from cell to cell because they lack associated actin filaments. From these mutants I hope to identify the gene and gene products in Listeria that are needed for actin nucleation.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD014474-15
Application #
2197100
Study Section
Cellular Biology and Physiology Subcommittee 1 (CBY)
Project Start
1980-07-01
Project End
1995-02-28
Budget Start
1994-03-01
Budget End
1995-02-28
Support Year
15
Fiscal Year
1994
Total Cost
Indirect Cost
Name
University of Pennsylvania
Department
Biology
Type
Schools of Arts and Sciences
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Gedde, M M; Higgins, D E; Tilney, L G et al. (2000) Role of listeriolysin O in cell-to-cell spread of Listeria monocytogenes. Infect Immun 68:999-1003
Hager, K M; Striepen, B; Tilney, L G et al. (1999) The nuclear envelope serves as an intermediary between the ER and Golgi complex in the intracellular parasite Toxoplasma gondii. J Cell Sci 112 ( Pt 16):2631-8
Shaw, M K; Tilney, L G; Musoke, A J et al. (1995) MHC class I molecules are an essential cell surface component involved in Theileria parva sporozoite binding to bovine lymphocytes. J Cell Sci 108 ( Pt 4):1587-96
Shaw, M K; Tilney, L G (1995) The entry of Theileria parva merozoites into bovine erythrocytes occurs by a process similar to sporozoite invasion of lymphocytes. Parasitology 111 ( Pt 4):455-61
Shaw, M K; Tilney, L G; McKeever, D J (1993) Tick salivary gland extract and interleukin-2 stimulation enhance susceptibility of lymphocytes to infection by Theileria parva sporozoites. Infect Immun 61:1486-95
Camilli, A; Tilney, L G; Portnoy, D A (1993) Dual roles of plcA in Listeria monocytogenes pathogenesis. Mol Microbiol 8:143-57
Tilney, L G; Tilney, M S (1993) The wily ways of a parasite: induction of actin assembly by Listeria. Trends Microbiol 1:25-31
Brundage, R A; Smith, G A; Camilli, A et al. (1993) Expression and phosphorylation of the Listeria monocytogenes ActA protein in mammalian cells. Proc Natl Acad Sci U S A 90:11890-4
Tilney, L G; DeRosier, D J; Weber, A et al. (1992) How Listeria exploits host cell actin to form its own cytoskeleton. II. Nucleation, actin filament polarity, filament assembly, and evidence for a pointed end capper. J Cell Biol 118:83-93
Tilney, L G; Tilney, M S; DeRosier, D J (1992) Actin filaments, stereocilia, and hair cells: how cells count and measure. Annu Rev Cell Biol 8:257-74

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