The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles

BACKGROUND: Paracrine factors secreted by adipose-derived stem cells can be captured, fractionated, and concentrated to produce therapeutic factor concentrate (TFC). The present study examined whether TFC effects could be enhanced by combining TFC with a biological matrix to provide sustained releas...

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Autores principales: Procházka, Václav, Jurčíková, Jana, Vítková, Kateřina, Pavliska, Lubomír, Porubová, Ludmila, Lassák, Ondrej, Buszman, Piotr, Fernandez, Carlos A., Jalůvka, František, Špačková, Iveta, Lochman, Ivo, Procházka, Martin, Janíková, Mária, Tauber, Zdeněk, Franková, Jana, Lachnit, Martin, Hiles, Michael C., Johnstone, Brian H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: International Scientific Literature, Inc. 2018
Materias:
Animal Study
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5795917/
https://www.ncbi.nlm.nih.gov/pubmed/29371587
http://dx.doi.org/10.12659/MSM.905442
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author Procházka, Václav
Jurčíková, Jana
Vítková, Kateřina
Pavliska, Lubomír
Porubová, Ludmila
Lassák, Ondrej
Buszman, Piotr
Fernandez, Carlos A.
Jalůvka, František
Špačková, Iveta
Lochman, Ivo
Procházka, Martin
Janíková, Mária
Tauber, Zdeněk
Franková, Jana
Lachnit, Martin
Hiles, Michael C.
Johnstone, Brian H.
author_facet Procházka, Václav
Jurčíková, Jana
Vítková, Kateřina
Pavliska, Lubomír
Porubová, Ludmila
Lassák, Ondrej
Buszman, Piotr
Fernandez, Carlos A.
Jalůvka, František
Špačková, Iveta
Lochman, Ivo
Procházka, Martin
Janíková, Mária
Tauber, Zdeněk
Franková, Jana
Lachnit, Martin
Hiles, Michael C.
Johnstone, Brian H.
author_sort Procházka, Václav
collection PubMed
description BACKGROUND: Paracrine factors secreted by adipose-derived stem cells can be captured, fractionated, and concentrated to produce therapeutic factor concentrate (TFC). The present study examined whether TFC effects could be enhanced by combining TFC with a biological matrix to provide sustained release of factors in the target region. MATERIAL/METHODS: Unilateral hind limb ischemia was induced in rabbits. Ischemic limbs were injected with either placebo control, TFC, micronized small intestinal submucosa tissue (SIS), or TFC absorbed to SIS. Blood flow in both limbs was assessed with laser Doppler perfusion imaging. Tissues harvested at Day 48 were assessed immunohistochemically for vessel density; in situ hybridization and quantitative real-time PCR were employed to determine miR-126 expression. RESULTS: LDP ratios were significantly elevated, compared to placebo control, on day 28 in all treatment groups (p=0.0816, p=0.0543, p=0.0639, for groups 2–4, respectively) and on day 36 in the TFC group (p=0.0866). This effect correlated with capillary density in the SIS and TFC+SIS groups (p=0.0093 and p=0.0054, respectively, compared to placebo). A correlation was observed between miR-126 levels and LDP levels at 48 days in SIS and TFC+SIS groups. CONCLUSIONS: A single bolus administration of TFC and SIS had early, transient effects on reperfusion and promotion of ischemia repair. The effects were not additive. We also discovered that TFC modulated miR-126 levels that were expressed in cell types other than endothelial cells. These data suggested that TFC, alone or in combination with SIS, may be a potent therapy for patients with CLI that are at risk of amputation.
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spelling pubmed-57959172018-02-07 The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles Procházka, Václav Jurčíková, Jana Vítková, Kateřina Pavliska, Lubomír Porubová, Ludmila Lassák, Ondrej Buszman, Piotr Fernandez, Carlos A. Jalůvka, František Špačková, Iveta Lochman, Ivo Procházka, Martin Janíková, Mária Tauber, Zdeněk Franková, Jana Lachnit, Martin Hiles, Michael C. Johnstone, Brian H. Med Sci Monit Animal Study BACKGROUND: Paracrine factors secreted by adipose-derived stem cells can be captured, fractionated, and concentrated to produce therapeutic factor concentrate (TFC). The present study examined whether TFC effects could be enhanced by combining TFC with a biological matrix to provide sustained release of factors in the target region. MATERIAL/METHODS: Unilateral hind limb ischemia was induced in rabbits. Ischemic limbs were injected with either placebo control, TFC, micronized small intestinal submucosa tissue (SIS), or TFC absorbed to SIS. Blood flow in both limbs was assessed with laser Doppler perfusion imaging. Tissues harvested at Day 48 were assessed immunohistochemically for vessel density; in situ hybridization and quantitative real-time PCR were employed to determine miR-126 expression. RESULTS: LDP ratios were significantly elevated, compared to placebo control, on day 28 in all treatment groups (p=0.0816, p=0.0543, p=0.0639, for groups 2–4, respectively) and on day 36 in the TFC group (p=0.0866). This effect correlated with capillary density in the SIS and TFC+SIS groups (p=0.0093 and p=0.0054, respectively, compared to placebo). A correlation was observed between miR-126 levels and LDP levels at 48 days in SIS and TFC+SIS groups. CONCLUSIONS: A single bolus administration of TFC and SIS had early, transient effects on reperfusion and promotion of ischemia repair. The effects were not additive. We also discovered that TFC modulated miR-126 levels that were expressed in cell types other than endothelial cells. These data suggested that TFC, alone or in combination with SIS, may be a potent therapy for patients with CLI that are at risk of amputation. International Scientific Literature, Inc. 2018-01-26 /pmc/articles/PMC5795917/ /pubmed/29371587 http://dx.doi.org/10.12659/MSM.905442 Text en © Med Sci Monit, 2018 This work is licensed under Creative Common Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0 (https://creativecommons.org/licenses/by-nc-nd/4.0/) )
spellingShingle Animal Study
Procházka, Václav
Jurčíková, Jana
Vítková, Kateřina
Pavliska, Lubomír
Porubová, Ludmila
Lassák, Ondrej
Buszman, Piotr
Fernandez, Carlos A.
Jalůvka, František
Špačková, Iveta
Lochman, Ivo
Procházka, Martin
Janíková, Mária
Tauber, Zdeněk
Franková, Jana
Lachnit, Martin
Hiles, Michael C.
Johnstone, Brian H.
The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title_full The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title_fullStr The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title_full_unstemmed The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title_short The Role of miR-126 in Critical Limb Ischemia Treatment Using Adipose-Derived Stem Cell Therapeutic Factor Concentrate and Extracellular Matrix Microparticles
title_sort role of mir-126 in critical limb ischemia treatment using adipose-derived stem cell therapeutic factor concentrate and extracellular matrix microparticles
topic Animal Study
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5795917/
https://www.ncbi.nlm.nih.gov/pubmed/29371587
http://dx.doi.org/10.12659/MSM.905442
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