Toyooka Lab

Translational Research for Autism & Parkinson's Disease

Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts1


Journal article


Y. Yashiro‐Ohtani, Xuyu Zhou, K. Toyo-oka, X. Tai, C. Park, T. Hamaoka, R. Abe, K. Miyake, H. Fujiwara
The Journal of Immunology, 2000

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APA   Click to copy
Yashiro‐Ohtani, Y., Zhou, X., Toyo-oka, K., Tai, X., Park, C., Hamaoka, T., … Fujiwara, H. (2000). Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts1. The Journal of Immunology.


Chicago/Turabian   Click to copy
Yashiro‐Ohtani, Y., Xuyu Zhou, K. Toyo-oka, X. Tai, C. Park, T. Hamaoka, R. Abe, K. Miyake, and H. Fujiwara. “Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts1.” The Journal of Immunology (2000).


MLA   Click to copy
Yashiro‐Ohtani, Y., et al. “Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts1.” The Journal of Immunology, 2000.


BibTeX   Click to copy

@article{y2000a,
  title = {Non-CD28 Costimulatory Molecules Present in T Cell Rafts Induce T Cell Costimulation by Enhancing the Association of TCR with Rafts1},
  year = {2000},
  journal = {The Journal of Immunology},
  author = {Yashiro‐Ohtani, Y. and Zhou, Xuyu and Toyo-oka, K. and Tai, X. and Park, C. and Hamaoka, T. and Abe, R. and Miyake, K. and Fujiwara, H.}
}

Abstract

While CD28 functions as the major T cell costimulatory receptor, a number of other T cell molecules have also been described to induce T cell costimulation. Here, we investigated the mechanisms by which costimulatory molecules other than CD28 contribute to T cell activation. Non-CD28 costimulatory molecules such as CD5, CD9, CD2, and CD44 were present in the detergent-insoluble glycolipid-enriched (DIG) fraction/raft of the T cell surface, which is rich in TCR signaling molecules and generates a TCR signal upon recruitment of the TCR complex. Compared with CD3 ligation, coligation of CD3 and CD5 as an example of DIG-resident costimulatory molecules led to an enhanced association of CD3 and DIG. Such a DIG redistribution markedly up-regulated TCR signaling as observed by ZAP-70/LAT activation and Ca2+ influx. Disruption of DIG structure using an agent capable of altering cholesterol organization potently diminished Ca2+ mobilization induced by the coligation of CD3 and CD5. This was associated with the inhibition of the redistribution of DIG although the association of CD3 and CD5 was not affected. Thus, the DIG-resident costimulatory molecules exert their costimulatory effects by contributing to an enhanced association of TCR/CD3 and DIG.