Thermosensitive and Highly Flexible Hydrogels Capable of stimulating cardiac differentiation.pdf (2.55 MB)
Download file

Thermosensitive and Highly Flexible Hydrogels Capable of stimulating cardiac differentiation

Download (2.55 MB)
journal contribution
posted on 04.03.2019, 23:55 by Zhenqing Li, Jianjun GuanJianjun Guan
Cardiac stem cell therapy has been considered as a
promising strategy for heart tissue regeneration. Yet achieving cardiac
differentiation after stem cell transplantation remains challenging. This
compromises the efficacy of current stem cell therapy. Delivery of cells
using matrices that stimulate the cardiac differentiation may improve the
degree of cardiac differentiation in the heart tissue. In this report, we
investigated whether elastic modulus of highly flexible poly(N-isopropylamide)
(PNIPAAm)-based hydrogels can be modulated to stimulate the
encapsulated cardiosphere derived cells (CDCs) to differentiate into
cardiac lineage under static condition and dynamic stretching that mimics
the heart beating condition. We have developed hydrogels whose moduli
do not change under both dynamic stretching and static conditions for 14
days. The hydrogels had the same chemical structure but different elastic
moduli (11, 21, and 40 kPa). CDCs were encapsulated into these
hydrogels and cultured under either native heart-mimicking dynamic stretching environment (12% strain and 1 Hz frequency) or
static culture condition. CDCs were able to grow in all three hydrogels. The greatest growth was found in the hydrogel with
elastic modulus of 40 kPa. The dynamic stretching condition stimulated CDC growth. The CDCs demonstrated elastic modulusdependent
cardiac differentiation under both static and dynamic stretching conditions as evidenced by gene and protein
expressions of cardiac markers such as MYH6, CACNA1c, cTnI, and Connexin 43. The highest differentiation was found in the
40 kPa hydrogel. These results suggest that delivery of CDCs with the 40 kPa hydrogel may enhance cardiac differentiation in the
infarct hearts.


Grant ID