Project description:Bacterial extracellular polysaccharides (EPSs) play critical roles in virulence as well as representing valuable bioproducts. Many bacteria use a “Wzx-Wzy-dependent” mechanism to assemble EPSs, in a tightly controlled multi-protein process that couples glycan polymerisation at the inner membrane to translocation across the periplasm and outer membrane (OM). The tyrosine autokinase, Wzc, is required for both polymerization and translocation. The cryo-EM structure of dephosphorylated Wzc from E. coli reveals an octameric structure, where transmembrane helices create a large central cavity and connect the cytoplasmic tyrosine kinase domain to a periplasmic region containing helical bundles. Progressive autophosphorylation of Wzc’s tyrosine-rich C-terminus disassembles the octamer into a monomer and the cycling between these states in the cell drives function. The helical bundles are essential for function and their conformation responds to phosphorylation; most likely gating the OM translocase. We propose a molecular model for the regulation of EPS synthesis and transport by Wzc.

Project description:PTEN is a multifaceted tumor suppressor that is highly sensitive to alterations in expression or function. The PTEN C-tail domain, which is rich in phosphorylation sites, has been implicated in PTEN stability, localization, catalytic activity, and protein interactions, but its role in tumor suppression remains unknown. To address this, we utilized several mouse strains with nonlethal C-tail mutations. Analysis of mice containing nonphosphorylatable or phosphomimetic versions of S380, a C-tail residue hyperphosphorylated in human gastric cancers, reveals that PTEN stability and ability to inhibit PI3K-AKT depends on dynamic phosphorylation-dephosphorylation of this residue. While phosphomimetic S380 drives neoplastic growth in prostate by promoting nuclear accumulation of β-catenin, nonphosphorylatable S380 is not tumorigenic. These data suggest that C-tail hyper-phosphorylation creates oncogenic PTEN and is a potential target for anti-cancer therapy.

Project description:Here we describe a bead-based method capable of profiling tyrosine kinase phosphorylations in a multiplexed, high-throughput and low-cost manner. This approach allows for the discovery of tyrosine kinase-activating events, even when the DNA sequence is wild-type. In an effort to pilot the establishment of a tyrosine kinase activation catalog, we profiled tyrosine phosphorylation levels of 62 tyrosine kinases in 130 human cancer lines, and followed-up on the frequent SRC phosphorylation in glioblastoma. Keywords: quantitative measurements of tyrosine phosphorylation levels on tyrosine kinases Total protein lysates were collected from 130 cancer cell lines. Tyrosine phosphorylation levels on 62 tyrosine kinases were measured with the bead assay.

Project description:Human ALIX (Uniprot accession no. Q8WUM4) Bro1 and proline-rich domains were recombinantly expressed, purified, and phosphorylated in vitro by tyrosine kinase Src. Phosphorylation products were analyzed by mass spectrometry.

Project description:Epidermal growth factor receptor (EGFR) is an important receptor tyrosine kinase protein. Activated EGFR promotes downstream signal transductions through phosphorylation, and its phosphorylation has been implicated in pathologies including many types of cancers. Previously, our lab has developed the phosphorylation targeting chimera (PhosTAC) to achieve targeted dephosphorylation of proteins of interest. In this study, harnessing a tyrosine phosphatase (PTPN2) for the first time, we designed and synthesized a series of PhosTACs to dephosphorylate wild-type and mutant EGFR. We demonstrated efficient EGFR dephosphorylation with the treatment of PhosTACs. Phosphoproteomics was used to confirm PhosTAC induced dephosphorylation as well as its different inhibitory patterns from the warhead gefitinib. Consistent with EGFR dephosphorylation, EGFR PhosTACs induced apoptosis and inhibited cell proliferation. As RTKs are critical receptors for cellular signaling and targeted therapies, these tyrosine-phosphatase recruiting PhosTACs showcased their potential of modulating RTKs, expanding the scope of bifunctional molecules utility.

Project description:Here we describe a bead-based method capable of profiling tyrosine kinase phosphorylations in a multiplexed, high-throughput and low-cost manner. This approach allows for the discovery of tyrosine kinase-activating events, even when the DNA sequence is wild-type. In an effort to pilot the establishment of a tyrosine kinase activation catalog, we profiled tyrosine phosphorylation levels of 62 tyrosine kinases in 130 human cancer lines, and followed-up on the frequent SRC phosphorylation in glioblastoma. Keywords: quantitative measurements of tyrosine phosphorylation levels on tyrosine kinases

Project description:Kinase fusions are considered oncogenic drivers in numerous types of cancer. In lung adenocarcinoma 5-10% of patients harbor kinase fusions. The most frequently detected kinase fusion involves the Anaplastic Lymphoma Kinase (ALK) and Echinoderm Microtubule-associated protein-Like 4 (EML4). In addition, oncogenic kinase fusions involving the tyrosine kinases RET and ROS1 are found in smaller subsets of patients. In this study, we employed quantitative mass spectrometry-based phosphoproteomics to define the cellular tyrosine phosphorylation patterns induced by different oncogenic kinase fusions identified in patients with lung adenocarcinoma. We show that the cellular expression of the kinase fusions leads to widespread tyrosine phosphorylation. Direct comparison of different kinase fusions demonstrates that the kinase part and not the fusion partner primarily defines the phosphorylation pattern. The tyrosine phosphorylation patterns differed between ALK, ROS1 and RET fusions, suggesting that oncogenic signaling induced by these kinases involves the modulation of different cellular processes.

Project description:The type III receptor tyrosine kinase, FLT3 is frequently mutated in acute myeloid leukemia. Phosphorylation of FLT3 on tyrosine residues is a critical event for downstream signaling. Here we studied the role of Y842 residue of FLT3, which is located in the activation loop.

Project description:Using a microarray-based miRNA profiling, we found in a model of chronic myeloid leukemia (CML) that the activity of the oncoprotein BCR-ABL1 regulates the expression of miR-21, a "onco-microRNA" known to be overexpressed in numerous cancers. This relies on the phosphorylation status of STAT5, a transcription factor known to be activated by the kinase activity of BCR-ABL1. Mir-21 regulates the expression of PDCD4 (programmed cell death protein 4), a tumor suppressor identified here through a proteomics approach The microRNA repertoire of K562 cells having been either not treated (n=3) or treated (n=3) with the tyrosine kinase inhibitor Imatinib (1microM, 24h) was studied using Agilent microRNA V2 microarrays

Project description:Microorganisms produce exopolysaccharides