Abstract
The relationship between concanavalin A (ConA) receptors and the chemosensory behaviour of the ciliated protozoan Tetrahymena thermophila was studied using the peptide chemoattractants proteose peptone and fibroblast growth factor. Studies on the chemosensory behaviour in semisolid methylcellulose showed that 50 µg/m1 ConA selectively inhibited the persistent element of swimming behaviour by reducing time runs of cells responding to proteose peptone from 12.2±4.5 min to 0.8±0.3 min. Methyl-alpha-D-mannoside, but not methyl-alpha-D-galactoside, abolished the inhibitory effect of ConA, suggesting that mannoside-containing ConA receptors are involved in maintaining a persistent swimming behaviour. Control experiments, carried out in liquids where persistent swimming is less important for cellular behaviour, showed that ConA did not affect proteose-peptone-induced chemoattraction under these conditions as measured by a two-phase assay for chemoattraction. Also, no inhibitory effect of ConA could be found on swimming rates when individual velocities of ConA-treated cells were determined. When tested in liquid chemoattraction assays, ConA was found to be a weak but significant chemoattractant. Studies of the cellular location of ConA receptors on the plasma membrane of starved cells showed an unequal distribution. A preferential clustering of receptors at the anterior end of the cell was observed when determined at high concentrations (l00 µg/ml) of fluorescent ConA. Methyl-alpha-D-mannoside but not methyl-alpha-D-galactoside abolished the fluorescent ConA labelling, indicating a preferential clustering of these mannoside-containing receptors at the anterior part of the plasma membrane and cilia. At lower concentrations (25 µg/ml), FITC-ConA produced more general labelling of the entire cell membrane. The results suggest that ConA receptors are necessary for the persistent element of swimming and that binding of ConA to its receptors interferes with processes related to signal transduction rather than by limiting the free movement of cilia required for locomotion. The gradient of receptors seen at high FITC-ConA concentrations may be important for a putative spatial chemosensory mechanism, i.e. chemotaxis.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Almalgor, M.,Ron, A., Bar-Tana, J. (1981) Chemotaxis in Tetrahymena thermophila. Cell Motil. 1:261-268
Bar-shavit, Z., Ofek, I., Goldman, R., Mirelman, D., Sharon, D. (1977) Biochem. Biophys. Res. Commun. 78:455-460
Calder, P.C., Bond, J.A., Hunt, S.V., Newsholme, E. (1991) Effect of fatty acids on the proliferation of concanavalin A-stimulated rat lymph node lymphocytes. Int. J. Biochem. 23: 579-588
Casci, R.J., Hufnagel, L.A. (1988) Cell pairing during mating in Tetrahymena. Does phagocytosis or cell surface receptor participate in ConA block? J. Protozool. 35: 424 - 430
Christensen S.T., Rasmussen, L. (1992) Evidence for growth factors which control cell multiplication in Tetrahymena thermophila. Acta Protozool. 31: 215 - 219
Christensen, S.T., Wheatley, D.N., Rasmussen, L. (1995) Mechanisms controlling death, survival and proliferation in a model unicellular eukaryotic cell system, Tetrahymena thermophila. Cell Death Differ. 2: 301 - 308
Dentier, W. L. (1992) Identification of Tetrahymena ciliary proteins labeled with sulfosuccinimidyl 6-(biotinamido) hexanoat and Concanavalin A and fractionated with Triton X-114. J. Protozool. 39: 368-378
Frisch, A., Loyter, A. (1977). Inhibition of conjugation in Tetrahymena pyriformis by ConA. Exp. Cell Res. no: 337-346
Grassili, E., Prati, C. de, Monti, D., Troiano, L., Menegazzi, M., Barbieri, D., Francesci, C., Suzuki, H. (1992) Studies on the relationship between proliferation and cell death. II. Early gene expression during concanavalin A-induced proliferation or dexamethasone-induced apoptosis of rat thymocytes. Biochem. Biophys. Res. Commun. 188: 1261 - 1266
Hufnagel, L.A. (1992) Cortical ultrastrucure and chemoreception in ciliated protists (ciliophora). Microsc. Res. Tech. 22: 225-264
Koppelhus, U., Heilung-Larsen, P., Leick, V. (1994). An improved quantitative assay for chemokinesis in Tetrahymena. Biol. Bull. 187: 8-15
Kovacs, P., Sunderman, C., Estridge, B.H., Csaba, G. (1995) A concofocal microscopic evaluation of the effects of insulin imprinting on the binding of concanavalin A by Tetrahymena pyriformis. Cell Biol. Int. 19: 973-978.
Leick, V., Hellung-Larsen, P. (1985) Chemosensory responses in Tetrahymena; the involvement of peptides and other signal substances. J. Protozool 32: 550-553.
Leick, V., Frederiksen, K., Lyhne, I., Hellung-Larsen, P. (1990) A paper membrane filter assay for ciliate chemoattraction. Anal. Biochem. 184: 63 - 66
Leick, V., Koppelhus, U., Rosenberg, J. (1995) Cilia-mediated oriented chemokinesis in Tetrahymena thermophila. J. Eukaryot. Microbiol. 41:546-553
Leick, V., Grave, M., Hellung-Larsen, P. (1996) In: Csaba, G., Muller, W.E.G. (eds) Signal peptide-induced chemosensory behaviour in free cililiates: bioassays and cellular mechanisms. Progress in molecular and subcellular biology,vol17. Springer, Berlin Heidelberg New York, pp. 61 - 66
Menco, B. Ph. M. (1992). Ultrastructural studies on membrane, cytoskeletal, mucous, and protective compartments in olphactation. Microsc. Res. Tech. 22: 215-224
Preston, T.M., Grebecki, A. (1995) Motility and behaviour in protists. In: Brugerolle, G., Mignot, J.-P. (eds.) Protistological actualities (Proceedings of the Second European Congress of Protistology). Université Blaise Pascal de Clermont-Ferrand, Laboratoire de Biologie de Protistes, Aubiere, pp. 185 - 193
Watanabe, S., Toyohara, A., Suzaki, T., Shigenaka, Y. (1981) The relation of ConA receptor distribution to the conjugation process in Tetrahymena thermophila. J. Protozool. 28:171-175
Weinbaum, D.L., Sullivan, J.A., Mandell, G.L. (198o) Receptors for ConA cluster at the front of polarized neutrophils. Nature 286: 725 - 726
Wheatley, D.N., Rasmussen, L., Tiedtke, A. (1994) Tetrahymena: a model for growth, cell cycle, and nutritional studies, with biotechnological potential. Bioessays 16: 367 - 371
Wolfe, J. (1993) The ciliary membrane and its engagement in conjugation. In: Plattner, H. (ed.) Membrane traffic in protozoa.(Adv. Cell and Mol. Biol. of Membr.,Vol. 2A, pp. 149-179) JAI Press, Greenwhich, CT
Wolfe, J., Feng, S. (1988) ConA receptor tipping in Tetrahymena and its relationship to cell adhesion during conjugation. Development 102: 699-708
Wolfe, J., Pagliaro, L., Fortune, H. (1986) Coordination of concanavalin-A-receptor distribution and surface differentiation in Tetrahymena. Differentiation 31: 1 - 9
Wolfe, J., Mpoke, S., Tirone, S.F. (1993) Cilia, ciliary proteins and mating recognition in Tetrahymena thermophila. Exp. Cell Res.209: 342-349
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1998 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Leick, V., Bøg-Hansen, T.C., Christensen, S.T., Kaufman, S.J. (1998). ConcanavalinA receptors and the chemosensory behaviour of Tetrahymena thermophila . In: EBO — Experimental Biology Online Annual 1996/97. EBO — Experimental Biology Online Annual, vol 1996/1997. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-00932-1_5
Download citation
DOI: https://doi.org/10.1007/978-3-662-00932-1_5
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-662-00934-5
Online ISBN: 978-3-662-00932-1
eBook Packages: Springer Book Archive