Impacts of Nutlin-3a and exercise on murine double minute 2–enriched glioma treatment

Chen, Yisheng; Fan, Zhongcheng; Luo, Zhiwen; Kang, Xueran; Wan, Renwen; Li, Fangqi; Lin, Weiwei; Han, Zhihua; Qi, Beijie; Lin, Jinrong; Sun, Yaying; Huang, Jiebin; Xu, Yuzhen; Chen, Shiyi

doi:10.4103/nrr.nrr-d-23-00875

Neural Regeneration Research

2024

DOI: 10.4103/nrr.nrr-d-23-00875

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Impacts of Nutlin-3a and exercise on murine double minute 2–enriched glioma treatment

Yisheng Chen,

Zhongcheng Fan,

Zhiwen Luo

et al.

Abstract: JOURNAL/nrgr/04.03/01300535-202504000-00029/figure1/v/2024-07-06T104127Z/r/image-tiff Recent research has demonstrated the impact of physical activity on the prognosis of glioma patients, with evidence suggesting exercise may reduce mortality risks and aid neural regeneration. The role of the small ubiquitin-like modifier (SUMO) protein, especially… Show more

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2024

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Cited by 2 publications

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Exploring susceptibility and therapeutic targets for kidney stones through proteome-wide Mendelian randomization

Jiang,

Su,

Liao

et al. 2024

Human Molecular Genetics

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Given the high recurrence rate of kidney stones, surgical lithotripsy and stone removal are not the ultimate treatments for kidney stones. There’s an urgent need to explore the genetic mechanisms behind the susceptibility to kidney stones and to identify potential targets for prevention, to reduce the renal damage caused by recurrent stone formation. In this study, we screened 4548 circulating proteins using proteome-wide Mendelian Randomization (MR) to find proteins with a causal relationship to kidney stone risk. Additionally, proteome-wide association study (PWAS) and colocalization analysis were used to validate and prioritize candidate proteins. Moreover, downstream analyses including single-cell analysis, enrichment analysis, protein–protein interaction (PPI), and druggability analysis were conducted on the proteins causally related to kidney stones, to further explore the genetic mechanisms of susceptibility and the potential of proteins as drug targets. Ultimately, 22 target proteins associated with the risk of kidney stones were identified. Six plasma proteins (COLGALT1, CLMP, LECT1, ITIH1, CDHR3, CPLX2) were negatively correlated with kidney stone risk, while the genetic overexpression of 16 target proteins (GJA1, STOM, IRF9, F9, TMPRSS11D, ADH1B, SPINK13, CRYBB2, TNS2, DOCK9, OXSM, MST1, IL2, LMAN2, ITIH3, KLRF1) increased the risk of kidney stones. Based on the PWAS and colocalization analysis results, the 22 target proteins were classified into 3 tiers: IL2, CPLX2, and LMAN2 as tier 1 proteins with the most compelling evidence, MST1, ITIH1, and ITIH3 as tier 2 proteins, and the rest as tier 3 proteins. Enrichment analysis and PPI showed that target proteins mainly affect the occurrence of kidney stones through leukocyte activation and cell junction assembly. Druggability analysis suggested that IL2, MST1, and ITIH1 have potential as drug targets, and potential drugs were evaluated through molecular docking. In summary, this study employed multiple analytical methods to screen plasma proteins related to susceptibility to kidney stones, providing new insights into the genetic mechanisms of kidney stones and potential targets for treatment and prevention.

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Exploring susceptibility and therapeutic targets for kidney stones through proteome-wide Mendelian randomization

Jiang,

Su,

Liao

et al. 2024

Human Molecular Genetics

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Paromomycin targets HDAC1-mediated SUMOylation and IGF1R translocation in glioblastoma

Min,

Guo,

Ning

2024

Front. Pharmacol.

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ObjectiveThis study investigates the effects of Paromomycin on SUMOylation-related pathways in glioblastoma (GBM), specifically targeting HDAC1 inhibition.MethodsUsing TCGA and GTEx datasets, we identified SUMOylation-related genes associated with GBM prognosis. Molecular docking analysis suggested Paromomycin as a potential HDAC1 inhibitor. In vitro assays on U-251MG GBM cells were performed to assess Paromomycin’s effects on cell viability, SUMOylation gene expression, and IGF1R translocation using CCK8 assays, qRT-PCR, and immunofluorescence.ResultsParomomycin treatment led to a dose-dependent reduction in GBM cell viability, colony formation, and migration. It modulated SUMO1 expression and decreased IGF1R nuclear translocation, an effect reversible by the HDAC1 inhibitor Trochostatin A (TSA), suggesting Paromomycin’s involvement in SUMO1-regulated pathways.ConclusionThis study highlights Paromomycin’s potential as a therapeutic agent for GBM by targeting HDAC1-mediated SUMOylation pathways and influencing IGF1R translocation, warranting further investigation for its clinical application.

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Impacts of Nutlin-3a and exercise on murine double minute 2–enriched glioma treatment

Cited by 2 publications

References 94 publications

Exploring susceptibility and therapeutic targets for kidney stones through proteome-wide Mendelian randomization

Exploring susceptibility and therapeutic targets for kidney stones through proteome-wide Mendelian randomization

Paromomycin targets HDAC1-mediated SUMOylation and IGF1R translocation in glioblastoma

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