Bioengineered fibrin-based niche to direct outgrowth of circulating progenitors into neuron-like cells for potential use in cellular therapy
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Date
2015-07
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Journal of Neural Engineering.
Abstract
Objective. Autologous cells are considered to be the best choice for use in transplantation
therapy. However, the challenges and risks associated with the harvest of transplantable
autologous cells limit their successful therapeutic application. The current study explores the
possibility of isolating neural progenitor cells from circulating multipotent adult progenitor cells
for potential use in cell-based and patient-specific therapy for neurological diseases. Approach.
To enable the selection of neural progenitor cells from human peripheral blood mononuclear
cells, and to support their lineage maintenance, the composition of a fibrin-based niche was
optimized. Morphological examination and specific marker analysis were carried out, employing
a qualitative/quantitative polymerase chain reaction followed by immunocytochemistry to: (i)
characterize neural progenitor cells in culture; (ii) monitor proliferation/survival; and (iii) track
their differentiation status. Main results. The presence of neural progenitors in circulation was
confirmed by the presence of nestin+ cells at the commencement of the culture. The isolation,
proliferation and differentiation of circulating neural progenitors to neuron-like cells were
directed by the engineered niche. Neural cell isolation to near homogeneity was confirmed by the
expression of β-III tubulin in ∼95% of cells, whereas microtubule associated protein-2
expression confirmed their ability to differentiate. The concentration of potassium chloride in the
niche was found to favour neuron-like cell lengthening, cell-cell contact, and expressions of
synaptophysin and tyrosine hydroxylase. Significance. The purpose of this research was to find
out if peripheral blood could serve as a potential source of neural progenitors for cell based
therapy. The study established that neural progenitors could be selectively isolated from
peripheral blood mononuclear cells using a biomimetic niche. The selected cells could multiply
and slowly differentiate into neuron-like cells. These neuron-like cells expressed functional
proteins—tyrosine hydroxylase and synaptophysin. Early progenitors that proliferate while
expressing β-III tubulin could be harvested from the culture, suggesting their potential use in cell
transplantation therapy.
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Keywords
biomimetic niche, peripheral blood mononuclear cells, hypothalamus extract, fibrin matrix, circulating neural progenitor cell, platelet growth factors
Citation
Tara S, Krishnan LK. Bioengineered fibrin-based niche to direct outgrowth of circulating progenitors into neuron-like cells for potential use in cellular therapy.. Journal of Neural Engineering. 2015;12(3).