Regulatory module involving FGF13, miR-504, and p53 regulates ribosomal biogenesis and supports cancer cell survival

Bublik, Debora Rosa; Bursać, Slađana; Sheffer, Michal; Oršolić, Ines; Shalit, Tali; Tarcic, Ohad; Kotler, Eran; Mouhadeb, Odelia; Hoffman, Yonit; Fuchs, Gilad; Levin, Yishai; Volarević, Siniša; Oren, Moshe

doi:10.1073/pnas.1614876114

Cited by 59 publications

(68 citation statements)

References 69 publications

(59 reference statements)

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“…Rather, their best characterized function is as modulators of voltage-gated Na + channels (Na V s) (9), and mutations that affect their Na V modulatory ability have been identified in cardiac arrhythmias and neurologic diseases such as Brugada syndrome, autosomal dominant cerebral ataxia, and epilepsy (10)(11)(12). Beyond regulation of Na V s, FGF13, encoded by Fgf13 on the X chromosome, can regulate other voltage-gated ion channels (13,14) and appears to affect a number of other cellular processes and contribute to physiology or disease states, including cancer (15), hypertrichosis (16), smooth and skeletal muscle cell development (17,18), microtubule stabilization in developing neurons (19), and protection from mechanical stress in cardiomyocytes by regulation of caveolae (20). These observations suggest that the full complement of FGF13 functions is not fully defined.…”

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confidence: 99%

Knockout of the X‐linkedFgf13in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity

et al. 2019

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Fibroblast growth factor (FGF)13, a nonsecreted, X‐linked, FGF homologous factor, is differentially expressed in adipocytes in response to diet, yet Fgf13′s role in metabolism has not been explored. Heterozygous Fgf13 knockouts fed normal chow and housed at 22°C showed hyperactivity accompanying reduced core temperature and obesity when housed at 30°C. Those heterozygous knockouts showed defects in thermogenesis even at 30°C and an inability to protect core temperature. Surprisingly, we detected trivial FGF13 in adipose of wild‐type mice fed normal chow and no obesity in adipose‐specific heterozygous knockouts housed at 30°C, and we detected an intact brown fat response through exogenous β3 agonist stimulation, suggesting a defect in sympathetic drive to brown adipose tissue. In contrast, hypothalamic‐specific ablation of Fgf13 recapitulated weight gain at 30°C. Norepinephrine turnover in brown fat was reduced at both housing temperatures. Thus, our data suggest that impaired CNS regulation of sympathetic activation of brown fat underlies obesity and thermogenesis in Fgf13 heterozygous knockouts fed normal chow.—Sinden, D. S., Holman, C. D., Bare, C. J., Sun, X., Gade, A. R., Cohen, D. E., Pitt, G. S. Knockout of the X‐linked Fgf13 in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity. FASEB J. 33, 11579–11594 (2019). http://www.fasebj.org

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Knockout of the X‐linkedFgf13in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity

et al. 2019

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“…This idea has great translational potential, as such factors can represent novel targets for therapeutic intervention. In PNAS, Bublik et al (1) propose that the fibroblast growth factor 13 (FGF13) protein exerts just such effects during tumorigenesis. Intriguingly, the authors show that these effects are under the transcriptional regulation of the tumor suppressor p53.…”

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confidence: 99%

“…In cells whose proliferation is driven by oncogenic activation, such as mutated Ras, there is an excessive level of protein synthesis that can result in intracellular stress, including increases in unfolded proteins. Bublik et al (1) suggest that the role of FGF13 is to dampen this, thereby allowing tumor cells to proliferate under such stress-inducing conditions. In such a scenario, it is the oncogene, such as Ras, that drives proliferation, whereas the enabler, FGF13, facilitates the survival of such cells.…”

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confidence: 99%

“…A number of studies have shown that disruption of the nucleolus or induction of ribosomal stress leads to an inhibition of Mdm2 activity toward p53, thereby activating p53-dependent cellular responses (16)(17)(18). Because FGF13 is shown by Bublik et al (1) to inhibit ribosomal RNA synthesis, it is intriguing to speculate that there may be an interplay with p53 involving a nucleolus-dependent mechanism. Actinomycin D has been thought to activate p53 because of its effects at also inhibiting ribosomal RNA synthesis (16,17).…”

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confidence: 99%

“…Much of the data generated by Bublik et al (1) has come from studies in cell culture. It remains to be seen how relevant these findings will be either in vivo or in human tumor samples.…”

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Tumor suppression by p53 involves inhibiting an enabler, FGF13

Manfredi¹

2017

Proc. Natl. Acad. Sci. U.S.A.

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FGF13 promotes metastasis of triple‐negative breast cancer

Johnstone

Pattison

Harrison

et al. 2020

Intl Journal of Cancer

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Triple-negative breast cancer (TNBC) represents 10-20% of all human ductal adenocarcinomas and has a poor prognosis relative to other subtypes, due to the high propensity to develop distant metastases. Hence, new molecular targets for therapeutic intervention are needed for TNBC. We recently conducted a rigorous phenotypic and genomic characterization of four isogenic populations of MDA-MB-231 human triple-negative breast cancer cells that possess a range of intrinsic spontaneous metastatic capacities in vivo, ranging from nonmetastatic (MDA-MB-231_ATCC) to highly metastatic to lung, liver, spleen and spine (MDA-MB-231_HM). Gene expression profiling of primary tumours by RNA-Seq identified the fibroblast growth factor homologous factor, FGF13, as highly upregulated in aggressively metastatic MDA-MB-231_HM tumours. Clinically, higher FGF13 mRNA expression was associated with significantly worse relapse free survival in both luminal A and basal-like human breast cancers but was not associated with other clinical variables and was not upregulated in primary tumours relative to normal mammary gland. Stable FGF13 depletion restricted in vitro colony forming ability in MDA-MB-231_HM TNBC cells but not in oestrogen receptor (ER)-positive MCF-7 or MDA-MB-361 cells. However, despite augmenting MDA-MB-231_HM cell migration and invasion in vitro, FGF13 suppression almost completely blocked the spontaneous metastasis of MDA-MB-231_HM orthotopic xenografts to both lung and liver while having negligible impact on primary tumour growth. Together, these data indicate that FGF13 may represent a therapeutic target for blocking metastatic outgrowth of certain TNBCs. Further evaluation of the roles of individual FGF13 protein isoforms in progression of the different subtypes of breast cancer is warranted. What's new?Triple-negative breast cancer (TNBC) has a high degree of molecular diversity, with multiple subtypes and varying metastatic behavior. To better understand TNBC heterogeneity, the authors of this study performed RNA expression analysis on four isogenic MDA-MB-231 human TNBC tumour models characterized by distinct metastatic capacities. The three metastatic variants upregulation of the fibroblast growth factor FGF13. Elevated FGF13 expression was associated with poor survival in patients with basal-like breast cancer. In mice, FGF13 knockdown in highly metastatic MDA-MB-231 cells reduced spontaneous metastasis to liver and lung without affecting primary xenograft growth, suggesting that FGF13 is a promising antimetastatic target. C.N.J., R.L.A., T.H.B. equally share the senior authorship Additional Supporting Information may be found in the online version of this article.

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Regulatory module involving FGF13, miR-504, and p53 regulates ribosomal biogenesis and supports cancer cell survival

Cited by 59 publications

References 69 publications

Knockout of the X‐linkedFgf13in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity

Knockout of the X‐linkedFgf13in the hypothalamic paraventricular nucleus impairs sympathetic output to brown fat and causes obesity

Tumor suppression by p53 involves inhibiting an enabler, FGF13

FGF13 promotes metastasis of triple‐negative breast cancer

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