A phase II trial of AS1411 (a novel nucleolin-targeted DNA aptamer) in metastatic renal cell carcinoma

Rosenberg, Jonathan E.; Bambury, Richard; Allen, Eliezer M. Van; Drabkin, Harry A.; Lara, Primo N.; Harzstark, Andrea L.; Wagle, Nikhil; Figlin, Robert A.; Smith, Gregory; Garraway, Levi A.; Choueiri, Toni K.; Erlandsson, Fredrik; Laber, Damian A.

doi:10.1007/s10637-013-0045-6

Cited by 333 publications

(257 citation statements)

References 24 publications

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“…The c-MYC quadruplex was recently shown to be readily taken up by cells, where it destabilizes proteins that normally bind G4DNA in the cell (72). Indeed, the G4DNA oligonucleotide AS1411 has been developed as a possible treatment for cancer (67,73). G4 structures made up of DNA and In HeLa cells, 68% of the TIA1 foci co-localize with BG4 after 2 h of H 2 O 2 treatment, and 71% co-localize after 4 h of H 2 O 2 treatment.…”

Section: Discussionmentioning

confidence: 99%

Evidence That G-quadruplex DNA Accumulates in the Cytoplasm and Participates in Stress Granule Assembly in Response to Oxidative Stress

Byrd¹,

Zybailov

Maddukuri³

et al. 2016

Journal of Biological Chemistry

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Cells engage numerous signaling pathways in response to oxidative stress that together repair macromolecular damage or direct the cell toward apoptosis. As a result of DNA damage, mitochondrial DNA or nuclear DNA has been shown to enter the cytoplasm where it binds to "DNA sensors," which in turn initiate signaling cascades. Here we report data that support a novel signaling pathway in response to oxidative stress mediated by specific guanine-rich sequences that can fold into G-quadruplex DNA (G4DNA). In response to oxidative stress, we demonstrate that sequences capable of forming G4DNA appear at increasing levels in the cytoplasm and participate in assembly of stress granules. Identified proteins that bind to endogenous G4DNA in the cytoplasm are known to modulate mRNA translation and participate in stress granule formation. Consistent with these findings, stress granule formation is known to regulate mRNA translation during oxidative stress. We propose a signaling pathway whereby cells can rapidly respond to DNA damage caused by oxidative stress. Guanine-rich sequences that are excised from damaged genomic DNA are proposed to enter the cytoplasm where they can regulate translation through stress granule formation. This newly proposed role for G4DNA provides an additional molecular explanation for why such sequences are prevalent in the human genome.

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Section: Discussionmentioning

confidence: 99%

Evidence That G-quadruplex DNA Accumulates in the Cytoplasm and Participates in Stress Granule Assembly in Response to Oxidative Stress

Byrd¹,

Zybailov

Maddukuri³

et al. 2016

Journal of Biological Chemistry

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“…The widely demonstrated role of NCL in tumorigenesis suggests that inhibition of its oncogenic actions reduces tumor aggressiveness (9,13,19,24,32,34,47), and several studies have proposed NCL as an ideal target for antineoplastic therapies in different solid and hematological malignancies (9,19,25,34,37,38,41,42,48,49). Given the selective presence of NCL on cancer cells and cancer-associated endothelial cells, but not on normal cells, molecules targeting NCL might represent an effective approach for the selective delivery of drugs or toxins to tumors while minimizing side effects (25,41).…”

Section: Discussionmentioning

confidence: 99%

“…Several reports have shown that NCL inhibition by siRNAs or anti-NCL aptamers affects cell viability, proliferation, and migration (14,19,(37)(38)(39)(40)(41)(42)(43). To assess the effects of 4LB5 on cell viability and proliferation, we performed a dose-response (0.9-240 nM) experiment using the scFv on MDA-MB-231 triple-negative breast cancer (TNBC) cells at different time points (24,48, and 72 h).…”

Section: Significancementioning

confidence: 99%

Human anti-nucleolin recombinant immunoagent for cancer therapy

Palmieri

Richmond

Piovan

et al. 2015

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

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Nucleolin (NCL) is a nucleocytoplasmic protein involved in many biological processes, such as ribosomal assembly, rRNA processing, and mRNA stabilization. NCL also regulates the biogenesis of specific microRNAs (miRNAs) involved in tumor development and aggressiveness. Interestingly, NCL is expressed on the surface of actively proliferating cancer cells, but not on their normal counterparts. Therefore, NCL is an attractive target for antineoplastic treatments. Taking advantage of phage-display technology, we engineered a fully human single-chain fragment variable, named 4LB5. This immunoagent binds NCL on the cell surface, it is translocated into the cytoplasm of target cells, and it abrogates the biogenesis of NCLdependent miRNAs. Binding of 4LB5 to NCL on the cell surface of a variety of breast cancer and hepatocellular carcinoma cell lines, but not to normal-like MCF-10a breast cells, dramatically reduces cancer cell viability and proliferation. Finally, in orthotopic breast cancer mouse models, 4LB5 administration results in a significant reduction of the tumor volume without evident side effects. In summary, here we describe, to our knowledge, the first anti-NCL single-chain fragment variable displaying antineoplastic activity against established solid tumors, which could represent the prototype of novel immunebased NCL-targeting drugs with clinical potential as diagnostic and therapeutic tools in a wide variety of human cancers.is one of the most abundant nonribosomal proteins in the nucleolus (1), first identified in ribosomal RNA processing (2). Additional studies have demonstrated that NCL is a multifunctional nucleocytoplasmic protein, involved in ribosomal assembly, chromatin decondensation, transcription, nucleo-cytoplasmic import/export, and chromatin remodeling (3, 4). NCL is frequently up-regulated in cancer and in cancerassociated endothelial cells compared with normal tissues (5, 6), where it is also present on the cell surface (7,8). Altered NCL expression and localization results in oncogenic effects, such as stabilization of AKT, Bcl-2, Bcl-XL, and IL-2 mRNAs (9-11). Moreover, surface-NCL acts as a receptor for several oncogenic ligands (12-15) and viruses (16). Recently, we reported that NCL has a critical protumorigenic function regulating the biogenesis of selected microRNAs (miRNAs), a class of noncoding single-stranded RNAs 19-22 nt in length (17) that regulate gene expression at the posttranscriptional level by targeting mRNAs in a sequence-specific manner (18). In fact, NCL enhances the maturation of specific miRNAs (including miR-21, miR-221, and miR-222) causally involved in cancer pathogenesis and resistance to several antineoplastic treatments (19-23). Our findings demonstrated that NCL modulates the biogenesis of these miRNAs at the posttranscriptional level, enhancing their maturation from pri-to premiRNAs, identifying a novel NCL-dependent oncogenic mechanism (19).Because of its oncogenic role and specific expression on cancer cells surface, NCL represents an attractive target f...

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“…33 The two FGFR2 mutations seen in cases 17 and 18 are identical. This mutation (p. A259V) is a confirmed somatic mutation in metastatic renal cell carcinoma 34 with a SIFT score of 0.07 and we regard it as a plausible, activating driver mutation. Finally, the ERBB2 mutation in case 14 is a previously confirmed somatic oncogenic mutation (SIFT score of 0) in breast, ovarian, and bladder carcinoma.…”

Section: Mutations In Desmoplastic Melanomamentioning

confidence: 86%

Mutational dichotomy in desmoplastic malignant melanoma corroborated by multigene panel analysis

et al. 2015

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Desmoplastic malignant melanoma is a distinct melanoma entity histologically subtyped into mixed and pure forms due to significantly reduced lymph node metastases in the pure form. Recent reports investigating common actionable driver mutations have demonstrated a lack of BRAF, NRAS, and KIT mutation in pure desmoplastic melanoma. In search for alternative driver mutations next generation amplicon sequencing for hotspot mutations in 50 genes cardinal to tumorigenesis was performed and in addition the RET G691S polymorphism was investigated. Data from 21 desmoplastic melanomas (12 pure and 9 mixed) were retrieved. Pure desmoplastic melanomas were either devoid of mutations (50%) or displayed mutations in tumor suppressor genes (TP53, CDKN2A, and SMAD4) singularly or in combination with the exception of a PIK3CA double-mutation lacking established biological relevance. Mixed desmoplastic melanomas on the contrary were frequently mutated (89%), and 67% exhibited activating mutations similar to common-type cutaneous malignant melanomas (BRAF, NRAS, FGFR2, and ERBB2). Separate analysis of morphologically heterogeneous tumor areas in four mixed desmoplastic malignant melanomas displayed no difference in mutation status and RET G691 status. GNAQ and GNA11, two oncogenes in BRAF and NRAS wild-type uveal melanomas, were not mutated in our cohort. The RET G691S polymorphism was found in 25% of pure and 38% of mixed desmoplastic melanomas. Apart from RET G691S our findings demonstrate absence of activating driver mutations in pure desmoplastic melanoma beyond previously investigated oncogenes (BRAF, NRAS, and KIT). The findings underline the therapeutic dichotomy of mixed versus pure desmoplastic melanoma with regard to activating mutations primarily of the mitogen-activated protein kinase pathway.

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A phase II trial of AS1411 (a novel nucleolin-targeted DNA aptamer) in metastatic renal cell carcinoma

Cited by 333 publications

References 24 publications

Evidence That G-quadruplex DNA Accumulates in the Cytoplasm and Participates in Stress Granule Assembly in Response to Oxidative Stress

Evidence That G-quadruplex DNA Accumulates in the Cytoplasm and Participates in Stress Granule Assembly in Response to Oxidative Stress

Human anti-nucleolin recombinant immunoagent for cancer therapy

Mutational dichotomy in desmoplastic malignant melanoma corroborated by multigene panel analysis

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