The isolation of an RNA aptamer targeting to p53 protein with single amino acid mutation

Liang, Changhong; Farooq, Robina; Shah, Abdullah; Awan, Hassaan Mehboob; Wu, Mingming; Liu, An; Wang, Jun; Zhu, Tao; Z, Luo; Ge, Shengfang

doi:10.1073/pnas.1502159112

Cited by 102 publications

(84 citation statements)

References 56 publications

(59 reference statements)

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“…When non-formulated aptamers are administered into the blood stream, even using stabilizing backbone modifications, small aptamers are subject to rapid excretion through renal filtration. To overcome renal filtration and extend circulation time, aptamers are generally formulated with a bulky moiety, such as high molecular mass PEG 69 , cholesterol 79, 80 , proteins 81, 82 , liposomes 83 , organic or inorganic nanomaterials 10, 84 , or are multimerized 85–87 to create a multivalent molecule above the cutoff threshold for the renal glomerulus (30–50 kDa). PEG is a well-studied, hydrophilic biomaterial which decreases aggregation and increases solubility of the conjugates.…”

Section: Challenges In the Development Of Aptamer-based Therapeuticsmentioning

confidence: 99%

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Aptamers as targeted therapeutics: current potential and challenges

Zhou

Rossi

2016

Nat Rev Drug Discov

1,459

1,316

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Nucleic acid aptamers, often termed “chemical antibodies”, are functionally comparable to traditional antibodies, but offer several advantages including their relatively small physical size, flexible structure, quick chemical production, versatile chemical modification, high stability, and lack of immunogenicity. In addition, many aptamers internalize upon binding to cellular receptors making them useful targeted delivery agents for siRNAs, microRNAs and conventional drugs. However,Ge several crucial factors, such as their inherent physicochemical characteristics and lack of safety data, have delayed the clinical translation of therapeutic aptamers. This review discusses these challenges, highlighting recent clinical developments and technological advances that have revived impetus for this promising class of therapeutics.

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Section: Challenges In the Development Of Aptamer-based Therapeuticsmentioning

confidence: 99%

“…This complexity confers comparable binding affinity and specificity, and even superior advantages over antibodies (Box 1, Table 1). Aptamers are capable of distinguishing between closely related molecules, such as conformational isomers 7 , targets containing different functional groups 8, 9 , or even an amino acid mutation 10 .…”

Section: Introductionmentioning

confidence: 99%

Aptamers as targeted therapeutics: current potential and challenges

Zhou

Rossi

2016

Nat Rev Drug Discov

1,459

1,316

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“…These biomarkers may be drug-specific targets that can directly affect the response of a patient’s disease tissue to a therapeutic regimen. Aptamers targeting point-mutated protein [4] and misfolded proteins [5] might be serve as a personalized treatment that affects therapeutic responses.…”

Section: Functionalized Aptamers For Precision Medicinementioning

confidence: 99%

Future strategies for the discovery of therapeutic aptamers

Yoon

Rossi

2017

Expert Opinion on Drug Discovery

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“…Although delivery of nucleic acids remains an obstacle, aptamers offer the ability to specifically target deleterious point mutations characteristic of tumors, such as the p53 mutation R175H. 131 Moreover, delivery of p53R175H aptamers via nanoparticles showed impressive efficacy in a mouse xenograft tumor model. Similarly to the potential for PRIMA-1 MET synergism with MDM2 inhibitors, aptamers could also be useful adjuvants to expand the effective tumor profile of MDM2 inhibitors.…”

Section: Expanding the Tumor Spectrum Of Mdm2 Inhibitorsmentioning

confidence: 99%

MDM2 oligomers: antagonizers of the guardian of the genome

Leslie

Zhang

2016

Oncogene

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Over two decades of MDM2 research has resulted in the accumulation of a wealth of knowledge of many aspects of MDM2 regulation and function, particularly with respect to its most prominent target, p53. For example, recent knock-in mouse studies have shown that MDM2 heterooligomer formation with its homolog, MDMX, is necessary and sufficient in utero to suppress p53 but is dispensable during adulthood. However, despite crucial advances such as these, several aspects regarding basic in vivo functions of MDM2 remain unknown. In one such example, although abundant evidence suggests that MDM2 forms homooligomers and heterooligomers with MDMX, the function and regulation of these homo- and heterooligomers in vivo remain incompletely understood. In this review, we discuss the current state of our knowledge of MDM2 oligomerization as well as current efforts to target the MDM2 oligomer as a broad therapeutic option for cancer treatment.

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The isolation of an RNA aptamer targeting to p53 protein with single amino acid mutation

Cited by 102 publications

References 56 publications

Aptamers as targeted therapeutics: current potential and challenges

Aptamers as targeted therapeutics: current potential and challenges

Future strategies for the discovery of therapeutic aptamers

MDM2 oligomers: antagonizers of the guardian of the genome

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