Jonas P Becker scite author profile

Background: DAT regulates dopamine neurotransmission in the brain. Results: ␣-Synuclein influences DA efflux and membrane microdomain distribution of DAT. Conclusion: DAT activation recruits ␣-synuclein to the membrane, which in turn influences dopamine neurotransmission. Significance: Understanding the mechanisms associated with ␣-synuclein regulation of DAT may reveal disease-modifying targets for the treatment of pathologies associated with DA dysregulation.

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5‐azacytidine inhibits nonsense‐mediated decay in a MYC‐dependent fashion

Bhuvanagiri

Lewis

Putzker

et al. 2014

EMBO Mol Med

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Nonsense-mediated RNA decay (NMD) is an RNA-based quality control mechanism that eliminates transcripts bearing premature translation termination codons (PTC). Approximately, one-third of all inherited disorders and some forms of cancer are caused by nonsense or frame shift mutations that introduce PTCs, and NMD can modulate the clinical phenotype of these diseases. 5-azacytidine is an analogue of the naturally occurring pyrimidine nucleoside cytidine, which is approved for the treatment of myelodysplastic syndrome and myeloid leukemia. Here, we reveal that 5-azacytidine inhibits NMD in a dose-dependent fashion specifically upregulating the expression of both PTC-containing mutant and cellular NMD targets. Moreover, this activity of 5-azacytidine depends on the induction of MYC expression, thus providing a link between the effect of this drug and one of the key cellular pathways that are known to affect NMD activity. Furthermore, the effective concentration of 5-azacytidine in cells corresponds to drug levels used in patients, qualifying 5-azacytidine as a candidate drug that could potentially be repurposed for the treatment of Mendelian and acquired genetic diseases that are caused by PTC mutations.

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NMD inhibition by 5-azacytidine augments presentation of immunogenic frameshift-derived neoepitopes

et al. 2021

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Summary Frameshifted protein sequences elicit tumor-specific T cell-mediated immune responses in microsatellite-unstable (MSI) cancers if presented by HLA class I molecules. However, their expression and presentation are limited by nonsense-mediated RNA decay (NMD). We employed an unbiased immunopeptidomics workflow to analyze MSI HCT-116 cells and identified >10,000 HLA class I-presented peptides including five frameshift-derived InDel neoepitopes. Notably, pharmacological NMD inhibition with 5-azacytidine stabilizes frameshift-bearing transcripts and increases the HLA class I-mediated presentation of InDel neoepitopes. The frameshift mutation underlying one of the identified InDel neoepitopes is highly recurrent in MSI colorectal cancer cell lines and primary patient samples, and immunization with the corresponding neoepitope induces strong CD8 + T cell responses in an HLA-A∗02:01 transgenic mouse model. Our data show directly that pharmacological NMD inhibition augments HLA class I-mediated presentation of immunogenic frameshift-derived InDel neoepitopes thus highlighting the clinical potential of NMD inhibition in anti-cancer immunotherapy strategies.

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Jonas P Becker

Dopamine Transporter Activity Is Modulated by α-Synuclein

5‐azacytidine inhibits nonsense‐mediated decay in a MYC‐dependent fashion

NMD inhibition by 5-azacytidine augments presentation of immunogenic frameshift-derived neoepitopes

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