Nucleic Acid Aptamers Against Proteases

Dupont, Daniel M.; Andersen, Lone B.; Bøtkjær, Kenneth A.; Andreasen, Peter A.

doi:10.2174/092986711797189556

Cited by 26 publications

(31 citation statements)

References 114 publications

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“…Figure 2B shows progress curves in response to four concentrations of trypsin To reduce the progress curves for hydrolysis of Sub(A647) peptide substrates and displacement of cHD1(Cy3) aptamer complements to single numerical parameters, and to help account for apparent offsets between samples, the progress curve data in Figure 2 were fit to mathematical functions (see Experimental Section, eqns. [8][9][10][11]. The Sub(A647) data was reduced to an average hydrolysis constant, k (min -1 ), and the displacement of cHD1(Cy3) was reduced to a relative change in the number of cHD1(Cy3) per QD, Δ (unitless).…”

Section: Resultsmentioning

confidence: 99%

“…This format took advantage of both the physical and optical properties of QDs, and is adaptable to other protease targets for which both peptide substrates and binding aptamers are known. 10 This general design for a multifunctional cFRET probe is anticipated to be a valuable tool for real-time measurements of protease activity and regulation. It provides more information than aptamer or peptide probes alone, while also obviating any need for two separate probes.…”

Section: Discussionmentioning

confidence: 99%

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Quantum Dot-Based Concentric FRET Configuration for the Parallel Detection of Protease Activity and Concentration

Petryayeva

Algar

2014

Anal. Chem.

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Protease expression, activity, and inhibition play crucial roles in a multitude of biological processes; however, these three aspects of their function are difficult for any one bioanalytical probe to measure. To help address this challenge, we report a multifunctional concentric Förster resonance energy transfer (FRET) configuration that combines two modes of biorecognition using aptamers and peptide substrates coassembled to a central semiconductor quantum dot (QD). The aptamer is sensitive to the concentration of protease and the peptide is sensitive to its hydrolytic activity. The role of the QD is to serve as a nanoscale scaffold and initial donor for energy transfer with both Cyanine 3 (Cy3) and Alexa Fluor 647 (A647) fluorescent dyes associated with the aptamer and peptide, respectively. Using thrombin as a model protease, we show that a ratiometric analysis of the emission from the QD, Cy3, and A647 permits discrimination between thrombin and thrombin-like activity, and distinguishes between active, reversibly inhibited, and irreversibly inhibited thrombin. Reliable quantitative results were obtained from a kinetic analysis of the changes in FRET. This concentric FRET format, which capitalizes on both the physical and optical properties of QDs, should be adaptable to other protease targets for which both peptide substrates and binding aptamers are known. It is thus expected to become valuable a tool for the real-time analysis of protease activity and regulation.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Quantum Dot-Based Concentric FRET Configuration for the Parallel Detection of Protease Activity and Concentration

Petryayeva

Algar

2014

Anal. Chem.

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“…Aptamers targeting functional exosites of proteases have previously been described (reviewed in [25]). Thus, aptamers inhibiting the binding of co-factors tissue factor and FVa to coagulation factors FVIIa and FXa, respectively, were shown to interfere with coagulation [47, 48].…”

Section: Discussionmentioning

confidence: 99%

“…They can be modified chemically to obtain desired blood clearance and biodistribution patterns. One aptamer against vascular endothelial growth factor (VEGF) has been approved by FDA for treatment of age-related macular degeneration and several others are in clinical trials primarily for use as anticoagulants [25–27]. …”

Section: Introductionmentioning

confidence: 99%

Targeting Tumor Cell Invasion and Dissemination In Vivo by an Aptamer That Inhibits Urokinase-type Plasminogen Activator through a Novel Multifunctional Mechanism

Bøtkjær

Deryugina

Dupont

et al. 2012

Molecular Cancer Research

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Data accumulated over the latest two decades have established that the serine protease urokinase-type plasminogen activator (uPA) is a potential therapeutic target in cancer. When designing inhibitors of the proteolytic activity of serine proteases, obtaining sufficient specificity is problematic since the topology of the proteases’ active sites are highly similar. In an effort to generate highly specific uPA inhibitors with new inhibitory modalities, we isolated uPA-binding RNA aptamers by screening a library of 35 nucleotides long 2′-fluoro-pyrimidine RNA molecules using as bait a version of human pro-uPA lacking the epidermal growth factor-like and kringle domains. One pro-uPA binding aptamer sequence, referred to as upanap-126, proved to be highly specific for human uPA. Upanap-126 delayed the proteolytic conversion of human pro-uPA to active uPA, but did not inhibit plasminogen activation catalysed by two-chain uPA. The aptamer also inhibited the binding of pro-uPA to uPAR and the binding of vitronectin to the preformed pro-uPA/uPAR complexes both in cell-free systems and on cell surfaces. Furthermore, upanap-126 inhibited human tumour cell invasion in vitro, in the Matrigel assay, and in vivo, in the chick embryo assay of cell escape from microtumours. Finally, upanap-126 significantly reduced the levels of tumour cell intravasation and dissemination in the chick embryo model of spontaneous metastasis. Together, our findings demonstrate that utilisation of upanap-126 represents a novel multi-functional mechanistic modality for inhibition of uPA-dependent processes involved in tumour cell spread.

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“…В силу этого эффективность связывания с относительно планарными, по сравнению с активными центрами, структурами у аптамеров суще-ственно выше. Это наблюдение подтверждается факта-ми селекции высокоаффинных аптамеров к ряду про-теаз системы свертывания крови [60], в первую очередь к тромбину [61]. Ряд аптамеров к протеазам этой системы обладает высокой аффинностью и селективностью к ми-шеням и находится на различных стадиях клинических испытаний [62].…”

Section: аптамеры как ингибиторы ферментативной активностиunclassified

Development of Specific Therapy to Category A ToxicInfections

et al. 2015

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Development of Specific Therapy to Category A ToxicInfectionsCategory A select agents continue to be major threat to human population both as naturally occurring diseases and as potential weapon of bioterrorists. Anthrax ВведениеНаибольшую опасность при бактериальной токси-коинфекции представляет собой токсин -комплекс белков, высвобождаемый бактерией для борьбы с за-щитными системами организма-хозяина [1,2]. Способ, при помощи которого происходит подавление защит-ных систем организма, не всегда очевиден, а механизм интоксикации изучен во многих случаях не полностью. Известно, что бактерии-возбудители токсикоинфекций, лишенные токсинов, в большинстве случаев авирулентны и не представляют существенной опасности или вызы-вают незначительную патологию, легко поддающуюся лечению [3,4], поэтому токсины таких микроорганизмов закономерно рассматривают как принципиальные факто-ры их вирулентности.Среди достаточно большого числа бактерий, проду-цирующих токсины, наибольшую опасность для жизни в результате интоксикации представляют возбудители ботулизма [5] и сибирской язвы [6]: высокая удельная токсичность продуцируемых токсинов обусловливает вы-сокую смертность в условиях интенсивной терапии и узкое «окно возможностей», при упущении которого вероятность летального исхода многократно возрастает [7,8]. В силу этого неспецифическая симптоматическая терапия указанных заболеваний может иметь ограничен-ный успех, а в случае массовой интоксикации смертность может многократно возрасти ввиду отсутствия доста-точного числа мест для проведения мероприятий реани-мации и интенсивной терапии [9]. В отличие от других упомянутых токсикоинфекций эффективные средства специфической терапии сибирской язвы и ботулизма до сих пор не созданы, а имеющаяся сибиреязвенная вакцина не удовлетворяет современным параметрам бе-зопасности применения и не может быть рекомендована для широкого использования. Между тем современная международная обстановка, глобализация экономики, логистики и миграционных потоков, а также растущая угроза биотерроризма диктуют необходимость создания эффективных мер защиты населения от этих патогенов.Достаточно давно стало очевидным, что наилучшим решением для предотвращения смертности и инвалид-ности у пациентов с указанными выше инфекциями является специфическая антитоксинная терапия и/или

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Nucleic Acid Aptamers Against Proteases

Cited by 26 publications

References 114 publications

Quantum Dot-Based Concentric FRET Configuration for the Parallel Detection of Protease Activity and Concentration

Quantum Dot-Based Concentric FRET Configuration for the Parallel Detection of Protease Activity and Concentration

Targeting Tumor Cell Invasion and Dissemination In Vivo by an Aptamer That Inhibits Urokinase-type Plasminogen Activator through a Novel Multifunctional Mechanism

Development of Specific Therapy to Category A ToxicInfections

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