J. S. Brugge scite author profile

J. S. Brugge

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Protein tyrosine kinases Syk and ZAP-70 display distinct requirements for Src family kinases in immune response receptor signal transduction.

Zoller

MacNeil²,

Brugge³

1997

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Engagement of immunoreceptors in hemopoietic cells leads to activation of Src family tyrosine kinases as well as Syk or ZAP-70. Current models propose that Src family kinases are critical in immune response signal transduction through their role in phosphorylation of tyrosine residues within immunoreceptor tyrosine activation motifs (ITAMs; which recruit the SH2 domains of Syk or ZAP-70) and by direct phosphorylation of Syk and ZAP-70. Several lines of evidence suggest that Syk may not show the same dependence on activation by Src family kinases as ZAP-70. In this report, we used COS cells transiently transfected with components of the Fc epsilon RI complex (Lyn, Syk, and a chimeric CD8 receptor containing the cytoplasmic domain of the gamma subunit of Fc epsilon RI (CD8-gamma)) to examine the regulation of Syk activity. Syk was activated and phosphorylated in COS cells cotransfected with Lyn; however, in cells expressing CD8-gamma, activation of Syk and phosphorylation of CD8-gamma did not require coexpression of Lyn. Additional experiments indicate that gamma phosphorylation is dependent on Syk kinase activity and is independent of endogenous COS cell kinases. In parallel experiments, ZAP-70 was not activated by cotransfection with CD8-gamma, nor was CD8-gamma phosphorylated when coexpressed with ZAP-70 alone. Taken together, these studies indicate that Syk can be distinguished from ZAP-70 in its ability to be activated by coexpression with an ITAM-containing receptor without coexpression of a Src family kinase, and that Syk is capable of phosphorylating ITAM tyrosines under certain experimental conditions.

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Uncovering a Tumor Suppressor for Triple-Negative Breast Cancers

Albeck¹,

Brugge²

2011

Cell

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In our discussion of the role of tyrosine kinase networks in the above Preview, we inadvertently omitted an important contribution by Roger Daly and colleagues (Hochgrä fe et al., 2010). In this report, the authors demonstrate that there is an enrichment of tyrosine phosphorylation of Src family and receptor tyrosine kinases in triple-negative breast cancer cell lines and show that inhibition of multiple tyrosine kinases is an effective strategy against these cancers. These findings presage and complement the finding by Westbrook and colleagues that PTPN12 loss in triple-negative breast cancers results in activation of tyrosine kinase networks (Sun et al., 2011). We regret any misunderstanding caused by this omission.

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J. S. Brugge

Protein tyrosine kinases Syk and ZAP-70 display distinct requirements for Src family kinases in immune response receptor signal transduction.

Uncovering a Tumor Suppressor for Triple-Negative Breast Cancers

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