Robin Xu scite author profile

Robin Xu

3Publications

72Citation Statements Received

314Citation Statements Given

How they've been cited

How they cite others

202

292

Affiliations

Freie Universität Berlin, Charité - Universitätsmedizin Berlin, Humboldt-Universität zu Berlin

Publications

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Molecular Mechanisms Underlying the Apoptotic Effect of KCNB1 K+ Channel Oxidation

Hernandez-Enriquez

Banas

et al. 2013

Journal of Biological Chemistry

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Background: Oxidation of KCNB1 channels leads to oligomerization and apoptosis. Results: KCNB1 oligomers aggregate in and disrupt glycolipid raft organization, promoting the activation of the Src/JNK pro-apoptotic pathway. Conclusion: KCNB1 aggregates initiate an apoptotic cascade mediated by c-Src/JNK kinases. Significance: Oxidized KCNB1 channels increase in aging mammalian brain. As such, this mechanism contributes to neuronal aging and neurodegeneration.

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Parallel sequencing of extrachromosomal circular DNAs and transcriptomes in single cancer cells

et al. 2023

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Extrachromosomal DNAs (ecDNAs) are common in cancer, but many questions about their origin, structural dynamics and impact on intratumor heterogeneity are still unresolved. Here we describe single-cell extrachromosomal circular DNA and transcriptome sequencing (scEC&T-seq), a method for parallel sequencing of circular DNAs and full-length mRNA from single cells. By applying scEC&T-seq to cancer cells, we describe intercellular differences in ecDNA content while investigating their structural heterogeneity and transcriptional impact. Oncogene-containing ecDNAs were clonally present in cancer cells and drove intercellular oncogene expression differences. In contrast, other small circular DNAs were exclusive to individual cells, indicating differences in their selection and propagation. Intercellular differences in ecDNA structure pointed to circular recombination as a mechanism of ecDNA evolution. These results demonstrate scEC&T-seq as an approach to systematically characterize both small and large circular DNA in cancer cells, which will facilitate the analysis of these DNA elements in cancer and beyond.

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Amplicon structure creates collateral therapeutic vulnerability in cancer

Bei

Brame

Kirchner

et al. 2022

Preprint

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Although DNA amplifications in cancers frequently harbor passenger genes alongside oncogenes, the functional consequence of such co-amplifications and their impact for therapy remains ill-defined. We discovered that passenger co-amplifications can create amplicon structure-specific collateral vulnerabilities. We present the DEAD-box helicase 1 (DDX1) gene as a bona fide passenger co-amplified with MYCN in cancers. Survival of cancer cells with DDX1 co-amplifications strongly depends on the mammalian target of rapamycin complex 1 (mTORC1). Mechanistically, aberrant DDX1 expression inhibits the tricarboxylic acid cycle through a previously unrecognized interaction with dihydrolipoamide S-succinyltransferase, a component of the alpha-ketoglutarate dehydrogenase complex. Cells expressing aberrant DDX1 levels compensate for the metabolic shift by enhancing mTORC1 activity. Consequently, pharmacological mTORC1 inhibition triggered cell death specifically in cells harboring the DDX1 co-amplification. This work highlights a significant contribution of passenger gene alterations to the therapeutic susceptibility of cancers.

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Robin Xu

Molecular Mechanisms Underlying the Apoptotic Effect of KCNB1 K+ Channel Oxidation

Parallel sequencing of extrachromosomal circular DNAs and transcriptomes in single cancer cells

Amplicon structure creates collateral therapeutic vulnerability in cancer

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