Qingkai Yang scite author profile

Mutations in leucine-rich repeat kinase 2 (LRRK2) are strongly associated with late-onset autosomal dominant Parkinson’s disease. We employed a novel, parallel, compound-centric approach to identify a potent and selective LRRK2 inhibitor LRRK2-IN-1, and demonstrated that inhibition of LRRK2 induces dephosphorylation of Ser910/Ser935 and accumulation of LRRK2 within aggregate structures. LRRK2-IN-1 will serve as a versatile tool to pharmacologically interrogate LRRK2 biology and study its role in Parkinson’s disease.

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In Situ Kinase Profiling Reveals Functionally Relevant Properties of Native Kinases

Patricelli¹,

Nomanbhoy²,

Wu³

et al. 2011

Chemistry & Biology

302

377

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Summary Protein kinases are intensely studied mediators of cellular signaling, yet important questions remain regarding their regulation and in vivo properties. Here we use a probe-based chemoprotemics platform to profile several well studied kinase inhibitors against more than 200 kinases in native cell proteomes and reveal new biological targets for some of these inhibitors. Several striking differences were identified between native and recombinant kinase inhibitory profiles, in particular, for the Raf kinases. The native kinase binding profiles presented here closely mirror the cellular activity of these inhibitors, even when the inhibition profiles differ dramatically from recombinant assay results. Additionally, Raf activation events could be detected upon live cell treatment with inhibitors. These studies highlight the complexities of protein kinase behavior in the cellular context and demonstrate that profiling with only recombinant/purified enzymes can be misleading.

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Stress-induced epinephrine enhances lactate dehydrogenase A and promotes breast cancer stem-like cells

Cui¹,

Luo²,

Tian³

et al. 2019

166

146

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Chronic stress triggers activation of the sympathetic nervous system and drives malignancy. Using an immunodeficient murine system, we showed that chronic stress–induced epinephrine promoted breast cancer stem-like properties via lactate dehydrogenase A–dependent (LDHA-dependent) metabolic rewiring. Chronic stress–induced epinephrine activated LDHA to generate lactate, and the adjusted pH directed USP28-mediated deubiquitination and stabilization of MYC. The SLUG promoter was then activated by MYC, which promoted development of breast cancer stem-like traits. Using a drug screen that targeted LDHA, we found that a chronic stress–induced cancer stem-like phenotype could be reversed by vitamin C. These findings demonstrated the critical importance of psychological factors in promoting stem-like properties in breast cancer cells. Thus, the LDHA-lowering agent vitamin C can be a potential approach for combating stress-associated breast cancer.

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CDC25B Mediates Rapamycin-Induced Oncogenic Responses in Cancer Cells

Chen

Yang²,

Lu³

et al. 2009

110

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Because the mammalian target of rapamycin (mTOR) pathway is commonly deregulated in human cancer, mTOR inhibitors, rapamycin and its derivatives, are being actively tested in cancer clinical trials. Clinical updates indicate that the anticancer effect of these drugs is limited, perhaps due to rapamycin-dependent induction of oncogenic cascades by an as yet unclear mechanism. As such, we investigated rapamycin-dependent phosphoproteomics and discovered that 250 phosphosites in 161 cellular proteins were sensitive to rapamycin. Among these, rapamycin regulated four kinases and four phosphatases. A siRNA-dependent screen of these proteins showed that AKT induction by rapamycin was attenuated by depleting cellular CDC25B phosphatase. Rapamycin induces the phosphorylation of CDC25B at Serine375, and mutating this site to Alanine substantially reduced CDC25B phosphatase activity. Additionally, expression of CDC25B (S375A) inhibited the AKT activation by rapamycin, indicating that phosphorylation of CDC25B is critical for CDC25B activity and its ability to transduce rapamycininduced oncogenic AKT activity. Importantly, we also found that CDC25B depletion in various cancer cell lines enhanced the anticancer effect of rapamycin. Together, using rapamycin phosphoproteomics, we not only advance the global mechanistic understanding of the action of rapamycin but also show that CDC25B may serve as a drug target for improving mTORtargeted cancer therapies.

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High-Throughput Kinase Profiling: A More Efficient Approach toward the Discovery of New Kinase Inhibitors

Miduturu

Deng

Kwiatkowski

et al. 2011

Chemistry & Biology

108

101

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SUMMARY Selective protein kinase inhibitors have only been developed against a small number of kinase targets. Here we demonstrate that “high-throughput kinase profiling” is an efficient method for the discovery of lead compounds for established as well as unexplored kinase targets. We screened a library of 118 compounds constituting two distinct scaffolds (furan-thiazolidinediones and pyrimido-diazepines) against a panel of 353 kinases. A distinct kinase selectivity profile was observed for each scaffold. Selective inhibitors were identified with submicromolar cellular activity against PIM1, ERK5, ACK1, MPS1/PLK1–3 and Aurora A,B kinases. In addition, we identified potent inhibitors for so far unexplored kinases such as DRAK1, HIPK2 and DCAMKL1 that await further evaluation. This inhibitor-centric approach permits comprehensive assessment of a scaffold of interest and represents an efficient and general strategy for identifying new selective kinase inhibitors.

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Qingkai Yang

Characterization of a selective inhibitor of the Parkinson's disease kinase LRRK2

In Situ Kinase Profiling Reveals Functionally Relevant Properties of Native Kinases

Stress-induced epinephrine enhances lactate dehydrogenase A and promotes breast cancer stem-like cells

CDC25B Mediates Rapamycin-Induced Oncogenic Responses in Cancer Cells

High-Throughput Kinase Profiling: A More Efficient Approach toward the Discovery of New Kinase Inhibitors

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