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1.
Mol Cell Proteomics ; 21(12): 100441, 2022 12.
Artigo em Inglês | MEDLINE | ID: mdl-36379402

RESUMO

Hyperphosphorylation of the microtubule-associated protein Tau is a major hallmark of Alzheimer's disease and other tauopathies. Understanding the protein kinases that phosphorylate Tau is critical for the development of new drugs that target Tau phosphorylation. At present, the repertoire of the Tau kinases remains incomplete, and methods to uncover novel upstream protein kinases are still limited. Here, we apply our newly developed proteomic strategy, fluorescence complementation mass spectrometry, to identify novel kinase candidates of Tau. By constructing Tau- and kinase-fluorescent fragment library, we detected 59 Tau-associated kinases, including 23 known kinases of Tau and 36 novel candidate kinases. In the validation phase using in vitro phosphorylation, among 15 candidate kinases we attempted to purify and test, four candidate kinases, OXSR1 (oxidative-stress responsive gene 1), DAPK2 (death-associated protein kinase 2), CSK (C-terminal SRC kinase), and ZAP70 (zeta chain of T-cell receptor-associated protein kinase 70), displayed the ability to phosphorylate Tau in time-course experiments. Furthermore, coexpression of these four kinases along with Tau increased the phosphorylation of Tau in human neuroglioma H4 cells. We demonstrate that fluorescence complementation mass spectrometry is a powerful proteomic strategy to systematically identify potential kinases that can phosphorylate Tau in cells. Our discovery of new candidate kinases of Tau can present new opportunities for developing Alzheimer's disease therapeutic strategies.


Assuntos
Doença de Alzheimer , Humanos , Doença de Alzheimer/metabolismo , Proteômica , Proteínas tau/genética , Fosforilação , Espectrometria de Massas , Proteínas Quinases/metabolismo , Proteínas Serina-Treonina Quinases/metabolismo
2.
Angew Chem Int Ed Engl ; 59(6): 2235-2240, 2020 02 03.
Artigo em Inglês | MEDLINE | ID: mdl-31769915

RESUMO

Studying the dynamic interaction between host cells and pathogen is vital but remains technically challenging. We describe herein a time-resolved chemical proteomics strategy enabling host and pathogen temporal interaction profiling (HAPTIP) for tracking the entry of a pathogen into the host cell. A novel multifunctional chemical proteomics probe was introduced to label living bacteria followed by in vivo crosslinking of bacteria proteins to their interacting host-cell proteins at different time points initiated by UV for label-free quantitative proteomics analysis. We observed over 400 specific interacting proteins crosslinked with the probe during the formation of Salmonella-containing vacuole (SCV). This novel chemical proteomics approach provides a temporal interaction profile of host and pathogen in high throughput and would facilitate better understanding of the infection process at the molecular level.


Assuntos
Proteínas de Bactérias/química , Sondas Moleculares/química , Proteômica/métodos , Salmonella typhimurium/metabolismo , Proteínas de Bactérias/metabolismo , Antígeno CD11b/química , Antígeno CD11b/metabolismo , Interações Hospedeiro-Patógeno , Humanos , Lipopolissacarídeos/química , Lipopolissacarídeos/metabolismo , Macrófagos/imunologia , Macrófagos/metabolismo , Maleimidas/química , Análise de Componente Principal , Infecções por Salmonella/diagnóstico , Infecções por Salmonella/metabolismo , Infecções por Salmonella/microbiologia , Succinimidas/química , Fatores de Tempo , Raios Ultravioleta
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