Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity

Paola Amero; Ganesh L.R. Lokesh; Rajan Ramesh Chaudhari; Roberto Cardenas-Zuniga; Thomas Schubert; Yasmin M. Attia; Efigenia Montalvo-Gonzalez; Abdelrahman M. Elsayed; Cristina Ivan; Zhihui Wang; Vittorio Cristini; Vittorio De Franciscis; Shuxing Zhang; David E. Volk; Rahul Mitra; Cristian Rodriguez-Aguayo; Anil K. Sood; Gabriel Lopez-Berestein

doi:10.1021/jacs.9b10460

Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity

Paola Amero, Ganesh L.R. Lokesh, Rajan Ramesh Chaudhari, Roberto Cardenas-Zuniga, Thomas Schubert, Yasmin M. Attia, Efigenia Montalvo-Gonzalez, Abdelrahman M. Elsayed, Cristina Ivan, Zhihui Wang, Vittorio Cristini, Vittorio De Franciscis, Shuxing Zhang, David E. Volk, Rahul Mitra, Cristian Rodriguez-Aguayo, Anil K. Sood, Gabriel Lopez-Berestein

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Abstract

Aptamers, synthetic single-strand oligonucleotides that are similar in function to antibodies, are promising as therapeutics because of their minimal side effects. However, the stability and bioavailability of the aptamers pose a challenge. We developed aptamers converted from RNA aptamer to modified DNA aptamers that target phospho-AXL with improved stability and bioavailability. On the basis of the comparative analysis of a library of 17 converted modified DNA aptamers, we selected aptamer candidates, GLB-G25 and GLB-A04, that exhibited the highest bioavailability, stability, and robust antitumor effect in in vitro experiments. Backbone modifications such as thiophosphate or dithiophosphate and a covalent modification of the 5′-end of the aptamer with polyethylene glycol optimized the pharmacokinetic properties, improved the stability of the aptamers in vivo by reducing nuclease hydrolysis and renal clearance, and achieved high and sustained inhibition of AXL at a very low dose. Treatment with these modified aptamers in ovarian cancer orthotopic mouse models significantly reduced tumor growth and the number of metastases. This effective silencing of the phospho-AXL target thus demonstrated that aptamer specificity and bioavailability can be improved by the chemical modification of existing aptamers for phospho-AXL. These results lay the foundation for the translation of these aptamer candidates and companion biomarkers to the clinic.

Original language	English (US)
Pages (from-to)	7655-7670
Number of pages	16
Journal	Journal of the American Chemical Society
Volume	143
Issue number	20
DOIs	https://doi.org/10.1021/jacs.9b10460
State	Published - May 26 2021

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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Amero, P., Lokesh, G. L. R., Chaudhari, R. R., Cardenas-Zuniga, R., Schubert, T., Attia, Y. M., Montalvo-Gonzalez, E., Elsayed, A. M., Ivan, C., Wang, Z., Cristini, V., Franciscis, V. D., Zhang, S., Volk, D. E., Mitra, R., Rodriguez-Aguayo, C., Sood, A. K., & Lopez-Berestein, G. (2021). Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity. Journal of the American Chemical Society, 143(20), 7655-7670. https://doi.org/10.1021/jacs.9b10460

Amero, P, Lokesh, GLR, Chaudhari, RR, Cardenas-Zuniga, R, Schubert, T, Attia, YM, Montalvo-Gonzalez, E, Elsayed, AM, Ivan, C, Wang, Z, Cristini, V, Franciscis, VD, Zhang, S, Volk, DE, Mitra, R, Rodriguez-Aguayo, C , Sood, AK & Lopez-Berestein, G 2021, 'Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity', Journal of the American Chemical Society, vol. 143, no. 20, pp. 7655-7670. https://doi.org/10.1021/jacs.9b10460

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title = "Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity",

abstract = "Aptamers, synthetic single-strand oligonucleotides that are similar in function to antibodies, are promising as therapeutics because of their minimal side effects. However, the stability and bioavailability of the aptamers pose a challenge. We developed aptamers converted from RNA aptamer to modified DNA aptamers that target phospho-AXL with improved stability and bioavailability. On the basis of the comparative analysis of a library of 17 converted modified DNA aptamers, we selected aptamer candidates, GLB-G25 and GLB-A04, that exhibited the highest bioavailability, stability, and robust antitumor effect in in vitro experiments. Backbone modifications such as thiophosphate or dithiophosphate and a covalent modification of the 5′-end of the aptamer with polyethylene glycol optimized the pharmacokinetic properties, improved the stability of the aptamers in vivo by reducing nuclease hydrolysis and renal clearance, and achieved high and sustained inhibition of AXL at a very low dose. Treatment with these modified aptamers in ovarian cancer orthotopic mouse models significantly reduced tumor growth and the number of metastases. This effective silencing of the phospho-AXL target thus demonstrated that aptamer specificity and bioavailability can be improved by the chemical modification of existing aptamers for phospho-AXL. These results lay the foundation for the translation of these aptamer candidates and companion biomarkers to the clinic.",

author = "Paola Amero and Lokesh, {Ganesh L.R.} and Chaudhari, {Rajan Ramesh} and Roberto Cardenas-Zuniga and Thomas Schubert and Attia, {Yasmin M.} and Efigenia Montalvo-Gonzalez and Elsayed, {Abdelrahman M.} and Cristina Ivan and Zhihui Wang and Vittorio Cristini and Franciscis, {Vittorio De} and Shuxing Zhang and Volk, {David E.} and Rahul Mitra and Cristian Rodriguez-Aguayo and Sood, {Anil K.} and Gabriel Lopez-Berestein",

note = "Funding Information: We thank Erica Goodoff, Department of Scientific Publications, for critical reading of the manuscript. This work was supported in part by grants from National Institutes of Health/National Cancer Institute (5U01CA213759-02, P30CA016672), the American Cancer Society, National Science Foundation (CHE-1411859), and endowment grant from the John P. Gaines Foundation, the Brain SPORE Career Enhancement Program and NCI grant P50CA127001, as well as by the NIH through the Ovarian SPORE Career Enhancement Program and NCI grant P50CA217685 to Drs. Paola Amero and Cristian Rodriguez-Aguayo Publisher Copyright: {\textcopyright} ",

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T1 - Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity

AU - Amero, Paola

AU - Lokesh, Ganesh L.R.

AU - Chaudhari, Rajan Ramesh

AU - Cardenas-Zuniga, Roberto

AU - Schubert, Thomas

AU - Attia, Yasmin M.

AU - Montalvo-Gonzalez, Efigenia

AU - Elsayed, Abdelrahman M.

AU - Ivan, Cristina

AU - Wang, Zhihui

AU - Cristini, Vittorio

AU - Franciscis, Vittorio De

AU - Zhang, Shuxing

AU - Volk, David E.

AU - Mitra, Rahul

AU - Rodriguez-Aguayo, Cristian

AU - Sood, Anil K.

AU - Lopez-Berestein, Gabriel

N1 - Funding Information: We thank Erica Goodoff, Department of Scientific Publications, for critical reading of the manuscript. This work was supported in part by grants from National Institutes of Health/National Cancer Institute (5U01CA213759-02, P30CA016672), the American Cancer Society, National Science Foundation (CHE-1411859), and endowment grant from the John P. Gaines Foundation, the Brain SPORE Career Enhancement Program and NCI grant P50CA127001, as well as by the NIH through the Ovarian SPORE Career Enhancement Program and NCI grant P50CA217685 to Drs. Paola Amero and Cristian Rodriguez-Aguayo Publisher Copyright: ©

PY - 2021/5/26

Y1 - 2021/5/26

N2 - Aptamers, synthetic single-strand oligonucleotides that are similar in function to antibodies, are promising as therapeutics because of their minimal side effects. However, the stability and bioavailability of the aptamers pose a challenge. We developed aptamers converted from RNA aptamer to modified DNA aptamers that target phospho-AXL with improved stability and bioavailability. On the basis of the comparative analysis of a library of 17 converted modified DNA aptamers, we selected aptamer candidates, GLB-G25 and GLB-A04, that exhibited the highest bioavailability, stability, and robust antitumor effect in in vitro experiments. Backbone modifications such as thiophosphate or dithiophosphate and a covalent modification of the 5′-end of the aptamer with polyethylene glycol optimized the pharmacokinetic properties, improved the stability of the aptamers in vivo by reducing nuclease hydrolysis and renal clearance, and achieved high and sustained inhibition of AXL at a very low dose. Treatment with these modified aptamers in ovarian cancer orthotopic mouse models significantly reduced tumor growth and the number of metastases. This effective silencing of the phospho-AXL target thus demonstrated that aptamer specificity and bioavailability can be improved by the chemical modification of existing aptamers for phospho-AXL. These results lay the foundation for the translation of these aptamer candidates and companion biomarkers to the clinic.

AB - Aptamers, synthetic single-strand oligonucleotides that are similar in function to antibodies, are promising as therapeutics because of their minimal side effects. However, the stability and bioavailability of the aptamers pose a challenge. We developed aptamers converted from RNA aptamer to modified DNA aptamers that target phospho-AXL with improved stability and bioavailability. On the basis of the comparative analysis of a library of 17 converted modified DNA aptamers, we selected aptamer candidates, GLB-G25 and GLB-A04, that exhibited the highest bioavailability, stability, and robust antitumor effect in in vitro experiments. Backbone modifications such as thiophosphate or dithiophosphate and a covalent modification of the 5′-end of the aptamer with polyethylene glycol optimized the pharmacokinetic properties, improved the stability of the aptamers in vivo by reducing nuclease hydrolysis and renal clearance, and achieved high and sustained inhibition of AXL at a very low dose. Treatment with these modified aptamers in ovarian cancer orthotopic mouse models significantly reduced tumor growth and the number of metastases. This effective silencing of the phospho-AXL target thus demonstrated that aptamer specificity and bioavailability can be improved by the chemical modification of existing aptamers for phospho-AXL. These results lay the foundation for the translation of these aptamer candidates and companion biomarkers to the clinic.

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Conversion of RNA Aptamer into Modified DNA Aptamers Provides for Prolonged Stability and Enhanced Antitumor Activity

Abstract

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