Maria G. Kosfiszer scite author profile

Maria G. Kosfiszer

2Publications

106Citation Statements Received

91Citation Statements Given

How they've been cited

236

105

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Affiliations

The University of Texas Southwestern Medical Center

Publications

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Cell body and flagellar agglutinins in Chlamydomonas reinhardtii: the cell body plasma membrane is a reservoir for agglutinins whose migration to the flagella is regulated by a functional barrier.

Hunnicutt

Kosfiszer

Snell

1990

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Abstract. Fertilization in Chlamydomonas reinhardtiiis initiated when gametes of opposite mating types adhere to each other via adhesion molecules (agglutinins) on their flagella. Adhesion leads to loss of active agglutinins from the flagella and recruitment of new agglutinins from a pool associated with the cell body. We have been interested in determining the precise cellular location of the pool and learning more about the relationship between agglutinins in the two domains. In the studies reported here we describe methods for purification of mr. cell body agglutinins by use of ammonium sulfate precipitation, chromatography (molecular sieve, ion exchange, and hydrophobic interaction), and sucrose gradient centrifugation. About 90% of the total agglutinins were associated with the cell body and the remainder were on the flagella. Cell body agglutinins were indistinguishable from mr-flagellar agglutinins by SDS-PAGE, elution properties on a hydrophobic interaction column, and in sedimentation properties on sucrose gradients. The nonadhesiveness of cell bodies suggested that the cell body agglutinins would be intracellular, but our results are not consistent with this interpretation. We have demonstrated that brief trypsin treatment of deflagellated gametes destroyed all of the cell body agglutinins and, in addition, we showed that the cell body agglutinins were accessible to surface iodination. These results indicated that C. reinhardtii agglutinins have a novel cellular disposition: active agglutinins, representing ~10% of the total cellular agglutinins, are found only on the flagella, whereas the remaining 90% of these molecules are on the external surface of the cell body plasma membrane in a nonfunctional form. This segregation of cell adhesion molecules into distinct membrane domains before gametic interactions has been demonstrated in sperm of multicellular organisms and may be a common mechanism for sequestering these critical molecules until gametes are activated for fusion. In experiments in which surface-iodinated cell bodies were permitted to regenerate new flagella, we found that the agglutinins (as well as the 350,000 Mr, major flagellar membrane protein) on the newly regenerated flagella were iodinated. These results indicate that proteins destined for the flagella can reside on the external surface of the cell body plasma membrane and are recruited onto newly forming flagella as well as onto preexisting flagella during fertilization.URING fertilization in the biflagellated alga Chlamydomonas reinhardtii, gametes of opposite mating types (mr. and mr) adhere to each other via agglutinin molecules on the surfaces of their flagella. This adhesive interaction induces a cAMP-mediated signal (Pijst, et al., 1984;Pasquale and Goodenough, 1987) leading to several events in fertilization including (a) secretion of a serine protease that converts an inactive prometalloprotease to an active enzyme, g-lysin, Snell et al., 1989;Adair and Snell, 1990) that releases the cell wall (b)

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CD44 activation and associated primary adhesion is inducible via T cell receptor stimulation.

et al. 1997

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A defining juncture in the life of a T cell is its encounter with its cognate Ag, resulting finally in effector and/or memory T cells known to express, among other characteristics, increased surface levels of CD44. The requirements for the "activation" of CD44 to bind its major ligand, hyaluronan (HA), and the in vivo role of this interaction remain unresolved. We have recently proposed that the CD44/HA interaction is involved in primary lymphocyte adhesion, leading to extravasation at inflammatory sites. We show here that activation of CD44 and ability to engage in rolling occurs directly through polyclonal as well as Ag-specific TCR-initiated signaling. Using a superantigen, it is primarily the Ag-specific activated Vbeta-bearing cells that are induced to bind HA. In addition, this CD44 activation does not appear to be the result of overt changes in glycosylation. These results connect activation of CD44 on T cells with the initiation of immune responses and suggest potential roles for the CD44/HA interaction.

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