Targeting RNA Polymerase I with an Oral Small Molecule CX-5461 Inhibits Ribosomal RNA Synthesis and Solid Tumor Growth

Drygin, Denis; Lin, Amy; Bliesath, Josh; Ho, Caroline B.; O’Brien, Sean; Proffitt, Chris; Omori, Mayuko; Haddach, Mustapha; Schwaebe, Michael K.; Siddiqui‐Jain, Adam; Streiner, Nicole; Quin, Jaclyn; Sanij, Elaine; Bywater, Megan J.; Hannan, Ross D.; Ryckman, David M.; Anderes, Kenna; Rice, William G.

doi:10.1158/0008-5472.can-10-1728

Cited by 529 publications

(597 citation statements)

References 38 publications

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“…30 Incubation of organoids with 1 μM CX-5461 resulted in a rapid reduction in rRNA precursors levels ( Figure 6a). After 1 day of treatment, buds size appeared reduced compared with vehicle-treated control organoids (Figure 6b), and after 2 days most treated organoids started to degenerate (not shown).…”

Section: Resultsmentioning

confidence: 98%

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

et al. 2015

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International audienceRibosome biogenesis is an essential cellular process. Its impairment is associated with developmental defects and increased risk of cancer. The in vivo cellular responses to defective ribosome biogenesis and the underlying molecular mechanisms are still incompletely understood. In particular, the consequences of impaired ribosome biogenesis within the intestinal epithelium in mammals have not been investigated so far. Here we adopted a genetic approach to investigate the role of Notchless (NLE), an essential actor of ribosome biogenesis, in the adult mouse intestinal lineage. Nle deficiency led to defects in the synthesis of large ribosomal subunit in crypts cells and resulted in the rapid elimination of intestinal stem cells and progenitors through distinct types of cellular responses, including apoptosis, cell cycle arrest and biased differentiation toward the goblet cell lineage. Similar observations were made using the rRNA transcription inhibitor CX-5461 on intestinal organoids culture. Importantly, we found that p53 activation was responsible for most of the cellular responses observed, including differentiation toward the goblet cell lineage. Moreover, we identify the goblet cell-specific marker Muc2 as a direct transcriptional target of p53. Nle-deficient ISCs and progenitors disappearance persisted in the absence of p53, underlying the existence of p53-independent cellular responses following defective ribosome biogenesis. Our data indicate that NLE is a crucial factor for intestinal homeostasis and provide new insights into how perturbations of ribosome biogenesis impact on cell fate decisions within the intestinal epithelium

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Section: Resultsmentioning

confidence: 98%

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

et al. 2015

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“…15 To expand our options of route of administration, we assessed the antitumor activity of 7c, administered ip, in a murine MV 4;11 xenograft model. Once daily, ip administration of 7c resulted in a dose-dependent inhibition of tumor growth (Figure 2).…”

Section: Acs Medicinal Chemistry Lettersmentioning

confidence: 99%

“…For this purpose, we developed and deployed a cell-based qRT-PCR assay that measures the differential effects of new chemical entity (NCE) on Pol I-and Pol II-driven transcription, as previously described. 15 The in vitro antiproliferative activity of analogues was evaluated using colorectal adenocarcinoma HCT-116 cells and then expanded to additional cell lines. To rapidly screen compounds for oral absorption, a cassette format 16,17 was used to dose ICR mice at 25 mg/kg for each compound, and blood was collected at 0.25, 0.5, 1, 2, 4, 6, and 8 h. These efforts led to the rapid discovery of 2-(4-methyl- [1,4]diazepan-1-yl)-5-oxo-5H-7-thia-1,11b-diaza-benzo[c]-fluorene-6-carboxylic acid (5-methyl-pyrazin-2-ylmethyl)-amide (CX-5461, 7c), a highly potent, selective, and specific inhibitor of rRNA synthesis that suppresses Pol I transcription at the initiation stage and exhibits antiproliferative activity in vitro and antitumor activity in xenograft models.…”

mentioning

confidence: 99%

Discovery of CX-5461, the First Direct and Selective Inhibitor of RNA Polymerase I, for Cancer Therapeutics

Haddach¹,

Schwaebe²,

Michaux³

et al. 2012

ACS Med. Chem. Lett.

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Accelerated proliferation of solid tumor and hematologic cancer cells is linked to accelerated transcription of rDNA by the RNA polymerase I (Pol I) enzyme to produce elevated levels of rRNA (rRNA). Indeed, upregulation of Pol I, frequently caused by mutational alterations among tumor suppressors and oncogenes, is required for maintenance of the cancer phenotype and forms the basis for seeking selective inhibitors of Pol I as anticancer therapeutics. 2-(4-Methyl-[1,4]diazepan-1-yl)-5-oxo-5H-7-thia-1,11b-diaza-benzo[c]fluorene-6-carboxylic acid (5-methyl-pyrazin-2-ylmethyl)-amide (CX-5461, 7c) has been identified as the first potent, selective, and orally bioavailable inhibitor of RNA Pol I transcription with in vivo activity in tumor growth efficacy models. The preclinical data support the development of CX-5461 as an anticancer drug with potential for activity in several types of cancer.

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“…Recent study showed that the RNA Pol I inhibitor CX5461 is an efficient inducer of senescence. 16 Knockdown of NML also reduced the efficiency of CX5461-induced senescence based on the SA-b-gal marker staining ( Fig. 1E) and colony formation assay (data not shown).…”

Section: Depletion Of Nml Reduces the Efficiency Of Senescence Responsementioning

confidence: 83%

“…Recently the RNA Pol Ispecific inhibitor CX5461 has shown promise as an anti-tumor agent in animal models, in part by activating p53 through the nucleolar stress signaling mechanism that inhibits MDM2 function. 16,17 Nearly 50% of rDNA repeats are present as heterochromatin in growing cells, which is important for maintaining genetic stability. 18 The NoRC (nucleolar remodeling complex) is important for switching rDNA between silent and active state.…”

Section: Introductionmentioning

confidence: 99%

Nucleolar repression facilitates initiation and maintenance of senescence

Yang

Song

Soliman³

et al. 2015

Cell Cycle

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Tumor cells with defective apoptosis pathways often respond to chemotherapy by entering irreversible cell cycle arrest with features of senescence. However, rare cells can bypass entry to senescence, or re-enter cell cycle from a senescent state. Deficiency in senescence induction and maintenance may contribute to treatment resistance and early relapse after therapy. Senescence involves epigenetic silencing of cell cycle genes and reduced rRNA transcription. We found that senescence-inducing treatments such as DNA damage and RNA polymerase I inhibition stimulate the binding between the nucleolar protein NML (nucleomethylin) and SirT1. The NML complex promotes rDNA heterochromatin formation and represses rRNA transcription. Depletion of NML reduced the levels of H3K9Me3 and H3K27Me3 heterochromatin markers on rDNA and E2F1 target promoters in senescent cells, increased rRNA transcription, and increased the frequency of cell cycle re-entry. Depletion of the nucleolar transcription repressor factor TIP5 also promoted escape from senescence. Furthermore, tumor tissue staining showed that breast tumors without detectable nucleolar NML expression had poor survival. The results suggest that efficient regulation of nucleolar rDNA transcription facilitates the maintenance of irreversible cell cycle arrest in senescent cells. Deficiency in nucleolar transcription repression may accelerate tumor relapse after chemotherapy.

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Targeting RNA Polymerase I with an Oral Small Molecule CX-5461 Inhibits Ribosomal RNA Synthesis and Solid Tumor Growth

Cited by 529 publications

References 38 publications

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

Discovery of CX-5461, the First Direct and Selective Inhibitor of RNA Polymerase I, for Cancer Therapeutics

Nucleolar repression facilitates initiation and maintenance of senescence

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