sg:pub.10.1038/cddis.2014.12 - Springer Nature SciGraph

Article Info

DATE

2014-02

AUTHORS

C Bearzi, C Gargioli, D Baci, O Fortunato, K Shapira-Schweitzer, O Kossover, M V G Latronico, D Seliktar, G Condorelli, R Rizzi

ABSTRACT

Cell-based regenerative therapies are significantly improved by engineering allografts to express factors that increase vascularization and engraftment, such as placental growth factor (PlGF) and matrix metalloproteinase 9 (MMP9). Moreover, the seeding of therapeutic cells onto a suitable scaffold is of utmost importance for tissue regeneration. On these premises, we sought to assess the reparative potential of induced pluripotent stem (iPS) cells bioengineered to secrete PlGF or MMP9 and delivered to infarcted myocardium upon a poly(ethylene glycol)-fibrinogen scaffold. When assessing optimal stiffness of the PEG-fibrinogen (PF) scaffold, we found that the appearance of contracting cells after cardiogenic induction was accelerated on the support designed with an intermediate stiffness. Revascularization and hemodynamic parameters of infarcted mouse heart were significantly improved by injection into the infarct of this optimized PF scaffold seeded with both MiPS (iPS cells engineered to secrete MMP9) and PiPS (iPS cells engineered to secrete PlGF) cells as compared with nonengineered cells or PF alone. Importantly, allograft-derived cells and host myocardium were functionally integrated. Therefore, survival and integration of allografts in the ischemic heart can be significantly improved with the use of therapeutic cells bioengineered to secrete MMP9 and PlGF and encapsulated within an injectable PF hydrogel having an optimized stiffness. More... »

PAGES

e1053

References to SciGraph publications

2012-10. Induced pluripotent stem cells for cardiac repair in CELLULAR AND MOLECULAR LIFE SCIENCES

2012. The discovery of placenta growth factor and its biological activity in EXPERIMENTAL & MOLECULAR MEDICINE

2012-07. Post-natal cardiomyocytes can generate iPS cells with an enhanced capacity toward cardiomyogenic re-differentation in CELL DEATH & DIFFERENTIATION

2011-05. Heart regeneration in NATURE

2012-12. Injectable polyethylene glycol-fibrinogen hydrogel adjuvant improves survival and differentiation of transplanted mesoangioblasts in acute and chronic skeletal-muscle degeneration in SKELETAL MUSCLE

2008-09. PlGF–MMP-9–expressing cells restore microcirculation and efficacy of cell therapy in aged dystrophic muscle in NATURE MEDICINE

2010-01. Synthetic Materials in the Study of Cell Response to Substrate Rigidity in ANNALS OF BIOMEDICAL ENGINEERING

Journal

TITLE

Cell Death & Disease

ISSUE

VOLUME

Subjects

FOR: Biomedical Engineering

FOR: Engineering

MESH: Animals

MESH: Cell Survival

MESH: Cells, Cultured

MESH: Disease Models, Animal

MESH: Female

MESH: Fibrinogen

MESH: Genetic Engineering

MESH: Hemodynamics

MESH: Human Umbilical Vein Endothelial Cells

MESH: Humans

MESH: Induced Pluripotent Stem Cells

MESH: Male

MESH: Matrix Metalloproteinase 9

MESH: Mice

MESH: Mice, Inbred Nod

MESH: Mice, Scid

MESH: Myocardial Contraction

MESH: Myocardial Infarction

MESH: Myocardium

MESH: Myocytes, Cardiac

MESH: Neovascularization, Physiologic

MESH: Placenta Growth Factor

MESH: Polyethylene Glycols

MESH: Pregnancy Proteins

MESH: Recovery Of Function

MESH: Regeneration

MESH: Time Factors

MESH: Tissue Engineering

MESH: Tissue Scaffolds

MESH: Transduction, Genetic

MESH: Transfection

Author Affiliations

Technion – Israel Institute of Technology

Humanitas Research Hospital

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/cddis.2014.12

DOI

http://dx.doi.org/10.1038/cddis.2014.12

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1036360042

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/24525729

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