Research Papers:
Molecular mechanisms of cardioprotective effects mediated by transplanted cardiac ckit+ cells through the activation of an inflammatory hypoxia-dependent reparative response
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Abstract
Giovanni Puddighinu1, Domenico D’Amario2, Eleonora Foglio1, Melissa Manchi2, Andrea Siracusano2, Elena Pontemezzo1, Martina Cordella3, Francesco Facchiano3, Laura Pellegrini4, Antonella Mangoni5, Marco Tafani1, Filippo Crea2, Antonia Germani6, Matteo Antonio Russo7,8 and Federica Limana7,9
1Department of Experimental Medicine, Sapienza University of Rome, Rome, Italy
2Department of Cardiovascular Sciences, Catholic University of The Sacred Heart, Rome, Italy
3Department of Oncology and Molecular Medicine, Istituto Superiore di Sanità, Rome, Italy
4Department of Neurorehabilitation Sciences, Casa Cura Policlinico (CCP), Milan, Italy
5Department of Pathological Anatomy, Catholic University of The Sacred Heart, Rome, Italy
6Laboratory of Vascular Pathology, Istituto Dermopatico dell’Immacolata, IDI-IRCCS, Fondazione Luigi Maria Monti, Rome, Italy
7IRCCS San Raffaele Pisana, Rome, Italy
8MEBIC Consortium, San Raffaele Roma Open University, Rome, Italy
9San Raffaele Roma Open University, Rome, Italy
Correspondence to:
Federica Limana, email: [email protected], [email protected]
Keywords: ckit+ stem cells and hypoxia; inflammatory and reparative response; myocardial infarction; molecular rehabilitation; cardiac repair
Received: March 22, 2017 Accepted: November 12, 2017 Published: December 06, 2017
ABSTRACT
The regenerative effects of cardiac ckit+ stem cells (ckit+CSCs) in acute myocardial infarction (MI) have been studied extensively, but how these cells exert a protective effect on cardiomyocytes is not well known. Growing evidences suggest that in adult stem cells injury triggers inflammatory signaling pathways which control tissue repair and regeneration. Aim of the present study was to determine the mechanisms underlying the cardioprotective effects of ckit+CSCs following transplantation in a murine model of MI.
Following isolation and in vitro expansion, cardiac ckit+CSCs were subjected to normoxic and hypoxic conditions and assessed at different time points. These cells adapted to hypoxia as showed by the activation of HIF-1α and the expression of a number of genes, such as VEGF, GLUT1, EPO, HKII and, importantly, of alarmin receptors, such as RAGE, P2X7R, TLR2 and TLR4. Activation of these receptors determined an NFkB-dependent inflammatory and reparative gene response (IRR). Importantly, hypoxic ckit+CSCs increased the secretion of the survival growth factors IGF-1 and HGF. To verify whether activation of the IRR in a hypoxic microenvironment could exert a beneficial effect in vivo, autologous ckit+CSCs were transplanted into mouse heart following MI. Interestingly, transplantation of ckit+CSCs lowered apoptotic rates and induced autophagy in the peri-infarct area; further, it reduced hypertrophy and fibrosis and, most importantly, improved cardiac function.
ckit+CSCs are able to adapt to a hypoxic environment and activate an inflammatory and reparative response that could account, at least in part, for a protective effect on stressed cardiomyocytes following transplantation in the infarcted heart.
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