Kyle J Kellett scite author profile

Kyle J Kellett

3Publications

29Citation Statements Received

50Citation Statements Given

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University of Vermont

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Dynamic multi-site phosphorylation by Fyn and Abl drives the interaction between CRKL and the novel scaffolding receptors DCBLD1 and DCBLD2

Schmoker

Weinert

Kellett

et al. 2017

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Discoidin, CUB, and LCCL Domain-containing (DCBLD) 2 is a neuropilin-like transmembrane scaffolding receptor with known and anticipated roles in vascular remodeling and neuronal positioning. DCBLD2 is also upregulated in several cancers and can drive glioblastomas downstream of activated Epidermal Growth Factor Receptor. While a few studies have shown either a positive or negative role for DCBLD2 in regulating growth factor receptor signaling, little is known about the conserved signaling features of DCBLD family members that drive their molecular activities. We previously identified DCBLD2 tyrosine phosphorylation sites in intracellular YxxP motifs that are required for the phosphorylation-dependent binding of the signaling adaptors CRK and CRKL (CT10 regulator of kinase and CRK-Like). These intracellular YxxP motifs are highly conserved across vertebrates and between DCBLD family members. Here, we demonstrate that, as for DCBLD2, DCBLD1 YxxP motifs are required for CRKL-SH2 binding. We report Src family kinases (SFKs) and Abl differentially promote the interaction between the CRKL-SH2 domain and DCBLD1 and DCBLD2, and while SFKs and Abl each promotes DCBLD1 and DCBLD2 binding to the CRKL-SH2 domain, the effect of Abl is more pronounced for DCBLD1. Using high performance liquid chromatography coupled with tandem mass spectrometry, we quantified phosphorylation at several YxxP sites in DCBLD1 and DCBLD2, mapping site-specific preferences for SFKs and Abl. Together these data provide a platform to decipher the signaling mechanisms by which these novel receptors drive their biological activities.

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A Mobile App for the Precise Measurement of Healthcare Provider Activity Times to Support Time-Driven Activity Based Costing Studies

et al. 2022

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Dynamic Multi‐Site Phosphorylation by Fyn and Abl Drives the Interaction Between CRKL and the Novel Scaffolding Receptors DCBLD1 and DCBLD2

et al. 2018

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Discoidin, CUB, and LCCL domain containing 1 (DCBLD1) and DCBLD2 compose a family of orphan transmembrane scaffolding receptors that possess similar domain structure to that of neuropilins, critical co‐receptors for neuronal guidance cues. While DCBLD1 remains largely uncharacterized in the literature, DCBLD2 has both known and anticipated roles in vascular remodeling and neuronal positioning. Further, DCBLD2 is up‐regulated in several cancers and is required for hyperactive epidermal growth factor receptor (EGFR)‐driven tumorigenesis. While a few studies have demonstrated both positive and negative regulatory roles of DCBLD2 in growth factor receptor signaling, the conserved features of DCBLD family members that drive their molecular activities remain undefined. Previously, we identified DCBLD2 as a Src family kinase substrate that, when phosphorylated on tyrosines in intracellular YXXP motifs, would bind the Src homology 2 (SH2) domain of the signaling adaptor CRKL (CT10 regulator of kinase‐like). These intracellular YXXP motifs are highly conserved, both across vertebrates and between DCBLD family members. Similarly, we demonstrate here that DCBLD1 YXXP motifs are also required to interact with the CRKL–SH2 domain, distinguishing this motif as a conserved signaling feature of DCBLD family proteins. We show that Src family kinases (SFKs) and Abl differentially mediate the CRKL/DCBLD interaction. Although SFKs and Abl each are able to induce both DCBLD family members to bind the CRKL–SH2 domain, the effect of Abl is stronger for DCBLD1. Using LC‐MS/MS, we quantified relative changes in phosphorylation at several YXXP sites in DCBLD1 and DCBLD2 using both stable isotope labeled standards and a label free method, allowing us to map site‐specific preferences for SFKs and Abl. In addition to these published findings, we have characterized phosphorylation of additional tyrosine residues and have identified proteins differentially induced to bind DCBLD family members from a variety of cell types. We propose two mechanisms for DCBLD signaling, namely, a co‐receptor mechanism in tandem with growth factor receptors and a ligand‐induced clustering mechanism. Together, these findings provide a platform to elucidate the mechanisms the drive the biological activities of these unexplored receptors.Support or Funding InformationU.S. National Science Foundation IOS grants [1021795 and 1656510]; Vermont Genetics Network through U.S. National Institutes of Health Grant [8P20GM103449] from the INBRE program of the NIGMS; U.S. National Institutes of Health Grant [5P20RR016435] from the COBRE program of the NIGMS; University of Vermont College of Arts and Sciences Small Grant Research Award; University of Vermont College of Arts and Sciences Undergraduate APLE research AwardThis abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

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Kyle J Kellett

Dynamic multi-site phosphorylation by Fyn and Abl drives the interaction between CRKL and the novel scaffolding receptors DCBLD1 and DCBLD2

A Mobile App for the Precise Measurement of Healthcare Provider Activity Times to Support Time-Driven Activity Based Costing Studies

Dynamic Multi‐Site Phosphorylation by Fyn and Abl Drives the Interaction Between CRKL and the Novel Scaffolding Receptors DCBLD1 and DCBLD2

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