Literature DB >> 27033464

AntihypoxamiR functionalized gramicidin lipid nanoparticles rescue against ischemic memory improving cutaneous wound healing.

Subhadip Ghatak1, Jilong Li2, Yuk C Chan1, Surya C Gnyawali1, Erin Steen1, Bryant C Yung2, Savita Khanna1, Sashwati Roy1, Robert J Lee2, Chandan K Sen3.   

Abstract

Peripheral vasculopathies cause severe wound hypoxia inducing the hypoxamiR miR-210. High level of miR-210, persisting in wound-edge tissue as ischemic memory, suppresses oxidative metabolism and inhibits cell proliferation necessary for healing. In wound-edge tissue of chronic wound patients, elevated miR-210 was tightly associated with inhibition of epidermal cell proliferation as evident by lowered Ki67 immunoreactivity. To inhibit miR-210 in murine ischemic wound-edge tissue, we report the formulation of antihypoxamiR functionalized gramicidin lipid nanoparticles (AFGLN). A single intradermal delivery of AFGLN encapsulating LNA-conjugated anti-hypoximiR-210 (AFGLNmiR-210) lowered miR-210 level in the ischemic wound-edge tissue. In repTOP™mitoIRE mice, AFGLNmiR-210 rescued keratinocyte proliferation as visualized by in vivo imaging system (IVIS). 31P NMR studies showed elevated ATP content at the ischemic wound-edge tissue following AFGLNmiR-210 treatment indicating recovering bioenergetics necessary for healing. Consistently, AFGLNmiR-210 improved ischemic wound closure. The nanoparticle based approach reported herein is effective for miR-directed wound therapeutics warranting further translational development.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Ischemic wounds; Keratinocytes proliferation; Lipid nanoparticles; Tissue oxygenation; miR-210

Mesh:

Substances:

Year:  2016        PMID: 27033464      PMCID: PMC5092000          DOI: 10.1016/j.nano.2016.03.004

Source DB:  PubMed          Journal:  Nanomedicine        ISSN: 1549-9634            Impact factor:   5.307


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