Actin polymerization and pseudopod reorganization accompany anti-CD3- induced growth arrest in Jurkat T cells

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Actin polymerization and pseudopod reorganization accompany anti-CD3- induced growth arrest in Jurkat T cells

MV Parsey and GK Lewis
Department of Microbiology and Immunology, University of Maryland Medical School, Baltimore 21201.

T cell activation via CD3/Ti linked pathways results in the polymerization and reorganization of actin. However, little is known about the morphology and temporal appearance of filamentous actin (F- actin) after activation. Similarly, little is known about the relationship between F-actin and changes in cell shape or other parameters of activation, such as the appearance of proteins newly phosphorylated on tyrosine, that occur after stimulation via the CD3/Ti complex. Accordingly, we have characterized changes in cell shape and F- actin morphology occurring in the Jurkat T cell leukemia attached to the surface of culture vessels by immobilized anti-CD3 antibodies (OKT3, UCHT-1, SPV-T3b). These antibodies induced activation within 30 min as measured by increased protein tyrosine kinase activity and conversion of the proto-oncogene product, lck, from 56 kDa to 60 kDa (p56lck conversion), and after 12 to 96 h as measured by growth arrest and, in some experiments, IL-2 production. Activation was not seen when cells were attached to the substrates using antibodies directed to other cell surface proteins including CD71 (transferrin receptor), CD7, and CD11a (LFA-1), demonstrating the specificity of activation for immobilized anti-CD3 antibodies. Temporal changes in cell shape and F- actin morphology were characterized in Jurkat cells attached by immobilized anti-CD3 antibodies (stimulatory antibodies) and compared with the patterns obtained obtained in Jurkat cells attached by antibodies specific for the other markers (nonstimulatory antibodies). In these experiments, Jurkat cells were incubated with antibody-coated substrates for 1 to 30 min at 37 degrees C and actin rearrangements were visualized on fixed, detergent-permeabilized cells using rhodamine- conjugated phalloidin. Analysis of cell shape and F-actin morphology during the first 30 min of activation revealed a unique pattern that was observed only when cells were stimulated with anti-CD3 antibodies. Jurkat cells attached by either stimulatory or nonstimulatory antibodies reorganized their actin similarly after the first minute of culture, as characterized by the formation of small, F-actin rich pseudopods at the sites of attachment. After 5 min of culture in cells attached by stimulatory antibodies, the actin was polymerized into a dense collar rimming the inner edge of the cell. From 15 to 60 min, this collar was replaced by numerous F-actin rich, branched pseudopods. These branched pseudopods were larger and had longer microfilament bundles than their earlier counterparts. By contrast, in cells attached by nonstimulatory antibodies, the initial configuration was maintained for at least 60 min, except that a decrease in microfilament bundle length was noted.(ABSTRACT TRUNCATED AT 400 WORDS)

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ARTICLES

Actin polymerization and pseudopod reorganization accompany anti-CD3- induced growth arrest in Jurkat T cells

				M. D. Gallego, M. Santamaria, J. Pena, and I. J. Molina Defective Actin Reorganization and Polymerization of Wiskott-Aldrich T Cells in Response to CD3-Mediated Stimulation Blood, October 15, 1997; 90(8): 3089 - 3097. [Abstract] [Full Text] [PDF]

				Q. Zhu, C. Watanabe, T. Liu, D. Hollenbaugh, R. M. Blaese, S. B. Kanner, A. Aruffo, and H. D. Ochs Wiskott-Aldrich Syndrome/X-Linked Thrombocytopenia: WASP Gene Mutations, Protein Expression, and Phenotype Blood, October 1, 1997; 90(7): 2680 - 2689. [Abstract] [Full Text] [PDF]

				S. C. Bunnell, P. A. Henry, R. Kolluri, T. Kirchhausen, R. J. Rickles, and L. J. Berg Identification of Itk/Tsk Src Homology 3Domain Ligands J. Biol. Chem., October 11, 1996; 271(41): 25646 - 25656. [Abstract] [Full Text] [PDF]

				S. Caplan and M. Baniyash Normal T Cells Express Two T Cell Antigen Receptor Populations, One of Which Is Linked to the Cytoskeleton via zeta Chain and Displays a Unique Activation-dependent Phosphorylation Pattern J. Biol. Chem., August 23, 1996; 271(34): 20705 - 20712. [Abstract] [Full Text] [PDF]