A first-in-class fully modified version of miR-34a with outstanding stability, activity, and anti-tumor efficacy

Ahmed M. Abdelaal; Ikjot S. Sohal; Shreyas Iyer; Kasireddy Sudarshan; Harish Kothandaraman; Nadia A. Lanman; Philip S. Low; Andrea L. Kasinski

doi:10.1038/s41388-023-02801-8

A first-in-class fully modified version of miR-34a with outstanding stability, activity, and anti-tumor efficacy

Ahmed M. Abdelaal, Ikjot S. Sohal, Shreyas Iyer, Kasireddy Sudarshan, Harish Kothandaraman, Nadia A. Lanman, Philip S. Low, Andrea L. Kasinski

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Altered by defects in p53, epigenetic silencing, and genomic loss, the microRNA miR-34a represents one of the most clinically relevant tumor-suppressive microRNAs. Without question, a striking number of patients with cancer would benefit from miR-34a replacement, if poor miR-34a stability, non-specific delivery, and delivery-associated toxicity could be overcome. Here, we highlight a fully modified version of miR-34a (FM-miR-34a) that overcomes these hurdles when conjugated to a synthetically simplistic ligand. FM-miR-34a is orders of magnitude more stable than a partially modified version, without compromising its activity, leading to stronger repression of a greater number of miR-34a targets. FM-miR-34a potently inhibited proliferation and invasion, and induced sustained downregulation of endogenous target genes for >120 h following in vivo delivery. In vivo targeting was achieved through conjugating FM-miR-34a to folate (FM-FolamiR-34a), which inhibited tumor growth leading to complete cures in some mice. These results have the ability to revitalize miR-34a as an anti-cancer agent, providing a strong rationale for clinical testing.

Original language	English (US)
Pages (from-to)	2985-2999
Number of pages	15
Journal	Oncogene
Volume	42
Issue number	40
DOIs	https://doi.org/10.1038/s41388-023-02801-8
State	Published - Sep 29 2023

Keywords

Humans
Animals
Mice
MicroRNAs/genetics
Neoplasms/genetics
Cell Line, Tumor
Gene Expression Regulation, Neoplastic
Cell Proliferation/genetics

ASJC Scopus subject areas

Genetics
Molecular Biology
Cancer Research

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10.1038/s41388-023-02801-8

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title = "A first-in-class fully modified version of miR-34a with outstanding stability, activity, and anti-tumor efficacy",

abstract = "Altered by defects in p53, epigenetic silencing, and genomic loss, the microRNA miR-34a represents one of the most clinically relevant tumor-suppressive microRNAs. Without question, a striking number of patients with cancer would benefit from miR-34a replacement, if poor miR-34a stability, non-specific delivery, and delivery-associated toxicity could be overcome. Here, we highlight a fully modified version of miR-34a (FM-miR-34a) that overcomes these hurdles when conjugated to a synthetically simplistic ligand. FM-miR-34a is orders of magnitude more stable than a partially modified version, without compromising its activity, leading to stronger repression of a greater number of miR-34a targets. FM-miR-34a potently inhibited proliferation and invasion, and induced sustained downregulation of endogenous target genes for >120 h following in vivo delivery. In vivo targeting was achieved through conjugating FM-miR-34a to folate (FM-FolamiR-34a), which inhibited tumor growth leading to complete cures in some mice. These results have the ability to revitalize miR-34a as an anti-cancer agent, providing a strong rationale for clinical testing.",

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AU - Abdelaal, Ahmed M.

AU - Sohal, Ikjot S.

AU - Iyer, Shreyas

AU - Sudarshan, Kasireddy

AU - Kothandaraman, Harish

AU - Lanman, Nadia A.

AU - Low, Philip S.

AU - Kasinski, Andrea L.

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AB - Altered by defects in p53, epigenetic silencing, and genomic loss, the microRNA miR-34a represents one of the most clinically relevant tumor-suppressive microRNAs. Without question, a striking number of patients with cancer would benefit from miR-34a replacement, if poor miR-34a stability, non-specific delivery, and delivery-associated toxicity could be overcome. Here, we highlight a fully modified version of miR-34a (FM-miR-34a) that overcomes these hurdles when conjugated to a synthetically simplistic ligand. FM-miR-34a is orders of magnitude more stable than a partially modified version, without compromising its activity, leading to stronger repression of a greater number of miR-34a targets. FM-miR-34a potently inhibited proliferation and invasion, and induced sustained downregulation of endogenous target genes for >120 h following in vivo delivery. In vivo targeting was achieved through conjugating FM-miR-34a to folate (FM-FolamiR-34a), which inhibited tumor growth leading to complete cures in some mice. These results have the ability to revitalize miR-34a as an anti-cancer agent, providing a strong rationale for clinical testing.

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KW - Neoplasms/genetics

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A first-in-class fully modified version of miR-34a with outstanding stability, activity, and anti-tumor efficacy

Abstract

Keywords

ASJC Scopus subject areas

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