NIH 3T3 mouse fibroblasts form nonmetastasizing fibrosarcomas upon transformation by the Ha-ras oncogene isolated from the EJ human bladder carcinoma cell line and subcutaneous inoculation into immunocompetent NFS/NCr mice.
DNA sequence analysis of the activated oncogene from the T24 human bladder carcinoma line and two alleles of its normal cellular progenitor (c-Ha-ras-1) indicates that the genes encompass at least four exons, and that only a single point mutation residing within the first exon distinguishes the coding region of both alleles of the normal gene from their activated counterpart.
The aim of this paper was to report the most pivotal trials that evaluated different families of targeted therapy in the treatment of BC, according to their biomarkers (FGFR3, EGFR, HER2, VEGF and PI3K/AKT/mTOR).
PATIENT SUMMARY: We propose that APOBEC-mediated mutagenesis can generate clinically relevant driver mutations even within suboptimal motifs, such as in the case of FGFR3S249C, one of the most common mutations in bladder cancer.
Recent precision medicine has shown that mutations in BC are frequently observed in FGFR3, RAS and PIK3CA genes, all of which correlate with RAS signaling networks.
Silencing or inhibition of mutant FGFR3 in bladder cancer cell lines is associated with decreased malignant potential, confirming its important driver role in UC.
Here we show that HDAC6 loss or inhibition reduces FGFR3 accumulation in cells made tumorigenic by ectopic expression of a mutant activated version of FGFR3 together with the MYC oncoprotein and in a bladder cancer cell line whose tumorigenicity is dependent on expression of a translocated version of FGFR3.
We discovered a positive feedback loop, in which the activation of p38 and AKT downstream from the altered FGFR3 upregulates <i>MYC</i> mRNA levels and stabilizes MYC protein, respectively, leading to the accumulation of MYC, which directly upregulates <i>FGFR3</i> expression by binding to active enhancers upstream from <i>FGFR3</i> Disruption of this FGFR3/MYC loop in bladder cancer cell lines by treatment with FGFR3, p38, AKT, or BET bromodomain inhibitors (JQ1) preventing <i>MYC</i> transcription decreased cell viability <i>in vitro</i> and tumor growth <i>in vivo</i> A relevance of this loop to human bladder tumors was supported by the positive correlation between <i>FGFR3</i> and <i>MYC</i> levels in tumors bearing <i>FGFR3</i> mutations, and the decrease in FGFR3 and MYC levels following anti-FGFR treatment in a PDX model bearing an <i>FGFR3</i> mutation.
Further investigation showed that FGFR3 knockdown resulted in downregulation of DAPK1 in bladder cancer cell line, suggesting that FGFR3 may be an upstream factor of DAPK1.
The present study examined the utility of fibroblast growth factor receptor 3 (<i>FGFR3</i>) mutation status and gene expression as a prognostic marker in primary pT1 bladder cancer (BC).
The GSE41035 dataset downloaded from Gene Expression Omnibus was used to identify the differentially expressed genes (DEGs) between bladder cancer cell line RT112 with or without depletion of FGFR3, and gene ontology enrichment analysis was performed.