Author
Listed:
- Kevin T. Urak
(University of Iowa
University of Iowa)
- Giselle N. Blanco
(University of Iowa)
- Shambhavi Shubham
(University of Iowa)
- Li-Hsien Lin
(University of Iowa)
- Justin P. Dassie
(University of Iowa)
- William H. Thiel
(University of Iowa
University of Iowa)
- Yani Chen
(University of Iowa)
- Vijay Kumar Sonkar
(University of Iowa)
- Beilei Lei
(Duke University)
- Shubha Murthy
(University of Iowa)
- Wade R. Gutierrez
(University of Iowa)
- Mary E. Wilson
(University of Iowa
University of Iowa
University of Iowa)
- Jonathan A. Stiber
(Duke University)
- Julia Klesney-Tait
(University of Iowa)
- Sanjana Dayal
(University of Iowa)
- Francis J. Miller
(Duke University
Duke University
Veterans Administration Medical Center)
- Paloma H. Giangrande
(University of Iowa
University of Iowa
University of Iowa
University of Iowa)
Abstract
The development of multiple organ dysfunction syndrome (MODS) following infection or tissue injury is associated with increased patient morbidity and mortality. Extensive cellular injury results in the release of nuclear proteins, of which histones are the most abundant, into the circulation. Circulating histones are implicated as essential mediators of MODS. Available anti-histone therapies have failed in clinical trials due to off-target effects such as bleeding and toxicity. Here, we describe a therapeutic strategy for MODS based on the neutralization of histones by chemically stabilized nucleic acid bio-drugs (aptamers). Systematic evolution of ligands by exponential enrichment technology identified aptamers that selectively bind those histones responsible for MODS and do not bind to serum proteins. We demonstrate the efficacy of histone-specific aptamers in human cells and in a murine model of MODS. These aptamers could have a significant therapeutic benefit in the treatment of multiple diverse clinical conditions associated with MODS.
Suggested Citation
Kevin T. Urak & Giselle N. Blanco & Shambhavi Shubham & Li-Hsien Lin & Justin P. Dassie & William H. Thiel & Yani Chen & Vijay Kumar Sonkar & Beilei Lei & Shubha Murthy & Wade R. Gutierrez & Mary E. W, 2019.
"RNA inhibitors of nuclear proteins responsible for multiple organ dysfunction syndrome,"
Nature Communications, Nature, vol. 10(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-018-08030-y
DOI: 10.1038/s41467-018-08030-y
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