Karen Zoller scite author profile

pp72syk is essential for development and function of several hematopoietic cells, and it becomes activated through tandem SH2 interaction with ITAM motifs in immune response receptors. Since Syk is also activated through integrins, which do not contain ITAMs, a CHO cell model system was used to study Syk activation by the platelet integrin, alpha IIb beta 3. As in platelets, Syk underwent tyrosine phosphorylation and activation during CHO cell adhesion to alpha IIb beta 3 ligands, including fibrinogen. This involved Syk autophosphorylation and the tyrosine kinase activity of Src, and it exhibited two novel features. Firstly, unlike alpha IIb beta 3-mediated activation of pp125FAK, Syk activation could be triggered by the binding of soluble fibrinogen and abolished by truncation of the alpha IIb or beta 3 cytoplasmic tail, and it was resistant to inhibition by cytochalasin D. Secondly, it did not require phosphorylated ITAMs since it was unaffected by disruption of an ITAM-interaction motif in the SH2(C) domain of Syk or by simultaneous overexpression of the tandem SH2 domains. These studies demonstrate that Syk is a proximal component in alpha IIb beta 3 signaling and is regulated as a consequence of intimate functional relationships with the alpha IIb beta 3 cytoplasmic tails and with Src or a closely related kinase. Furthermore, there are fundamental differences in the activation of Syk by alpha IIb beta 3 and immune response receptors, suggesting a unique role for integrins in Syk function.

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Delivery of a stringent dimerizer-regulated gene expression system in a single retroviral vector

Pollock¹,

Issner²,

Zoller³

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

111

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Small molecule-regulated transcription has broad utility and would benefit from an easily delivered self-contained regulatory cassette capable of robust, tightly controlled target gene expression. We describe the delivery of a modified dimerizer-regulated gene expression system to cells on a single retrovirus. A transcription factor cassette responsive to the natural product dimerizer rapamycin was optimized for retroviral delivery by fusing a highly potent chimeric activation domain to the rapamycin-binding domain of FKBP-rapamycin-associated protein (FRAP). This improvement led to an increase in both the potency and maximal levels of gene expression induced by rapamycin, or nonimmunosuppressive rapamycin analogs. The modified transcription factor cassette was incorporated along with a target gene into a single rapamycinresponsive retrovirus. Cell pools stably transduced with the single virus system displayed negligible basal expression and gave induction ratios of at least three orders of magnitude in the presence of rapamycin or a nonimmunosuppressive rapamycin analog. Levels of induced gene expression were comparable to those obtained with the constitutive retroviral long terminal repeat and the single virus system performed well in four different mammalian cell lines. Regulation with the dimerizer-responsive retrovirus was tight enough to allow the generation of cell lines displaying inducible expression of the highly toxic diphtheria toxin A chain gene. The ability to deliver the tightly inducible rapamycin system in a single retrovirus should facilitate its use in the study of gene function in a broad range of cell types.S ystems for regulating gene expression by means of cellpermeant inducing agents have many applications in the study of gene function. The ability to vary expression levels of a gene product at will and to monitor effects on cells or whole animals can give powerful insights into its biological role. Regulation also facilitates the study of genes encoding products whose constitutive expression would be detrimental or lethal to cells. Finally, systems for the small molecule control of gene expression are applicable to gene therapies that require intermittent therapeutic protein delivery or delivery at levels that fall within a narrow therapeutic window.Several methods for the small molecule control of gene expression have been described including those induced by tetracycline, antiprogestins, and ecdysone (1). We have described a transcriptional switch based on rapamycin, a small molecule natural product that mediates the formation of heterodimers between the immunophilin FK506-binding protein (FKBP) and the lipid kinase homolog FRAP (2-5). By fusing FKBP domains to a DNA-binding domain called ZFHD1 and the rapamycin-binding domain of FRAP to a transcriptional activation domain from the p65 subunit of human NF-B, reconstitution of a functional transcription factor and expression of a target gene can be made dependent on the presence of rapamycin (4). This system has been shown to regulate t...

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JAK2, complemented by a second signal from c-kit or flt-3, triggers extensive self-renewal of primary multipotential hemopoietic cells

Zhao

Zoller

Masuko

et al. 2002

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De®ning signals that can support the self-renewal of multipotential hemopoietic progenitor cells (MHPCs) is pertinent to understanding leukemogenesis and may be relevant to developing stem cell-based therapies.Here we de®ne a set of signals, JAK2 plus either c-kit or¯t-3, which together can support extensive MHPC self-renewal. Phenotypically and functionally distinct populations of MHPCs were obtained, depending on which receptor tyrosine kinase, c-kit or¯t-3, was activated. Self-renewal was abrogated in the absence of STAT5a/b, and in the presence of inhibitors targeting either the mitogen-activated protein kinase or phosphatidylinositol 3¢ kinase pathways. These ®nd-ings suggest that a simple two-component signal can drive MHPC self-renewal.

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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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Team-Management

Zoller¹,

Nussbaumer²

2019

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Karen Zoller

Regulation of the pp72syk protein tyrosine kinase by platelet integrin alpha IIbbeta 3

Delivery of a stringent dimerizer-regulated gene expression system in a single retroviral vector

JAK2, complemented by a second signal from c-kit or flt-3, triggers extensive self-renewal of primary multipotential hemopoietic cells

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

Team-Management

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