TY - JOUR
T1 - Enhancing repair of the mammalian heart
AU - Santini, Maria Paola
AU - Tsao, Lana
AU - Monassier, Laurent
AU - Theodoropoulos, Catherine
AU - Carter, Janice
AU - Lara-Pezzi, Enrique
AU - Slonimsky, Esfir
AU - Salimova, Ekaterina
AU - Delafontaine, Patrice
AU - Song, Yao Hua
AU - Bergmann, Martin
AU - Freund, Christian
AU - Suzuki, Ken
AU - Rosenthal, Nadia
PY - 2007/6
Y1 - 2007/6
N2 - The injured mammalian heart is particularly susceptible to tissue deterioration, scarring, and loss of contractile function in response to trauma or sustained disease. We tested the ability of a locally acting insulin-like growth factor-1 isoform (mIGF-1) to recover heart functionality, expressing the transgene in the mouse myocardium to exclude endocrine effects on other tissues. supplemental mIGF-1 expression did not perturb normal cardiac growth and physiology. Restoration of cardiac function in post-infarct mIGF-1 transgenic mice was facilitated by modulation of the inflammatory response and increased antiapoptotic signaling. mIGF-1 ventricular tissue exhibited increased proliferative activity several weeks after injury. The canonical signaling pathway involving Akt, mTOR, and p70S6 kinase was not induced in mIGF-1 hearts, which instead activated alternate PDK1 and SGK1 signaling intermediates. The robust response achieved with the mIGF-1 isoform provides a mechanistic basis for clinically feasible therapeutic strategies for improving the outcome of heart disease.
AB - The injured mammalian heart is particularly susceptible to tissue deterioration, scarring, and loss of contractile function in response to trauma or sustained disease. We tested the ability of a locally acting insulin-like growth factor-1 isoform (mIGF-1) to recover heart functionality, expressing the transgene in the mouse myocardium to exclude endocrine effects on other tissues. supplemental mIGF-1 expression did not perturb normal cardiac growth and physiology. Restoration of cardiac function in post-infarct mIGF-1 transgenic mice was facilitated by modulation of the inflammatory response and increased antiapoptotic signaling. mIGF-1 ventricular tissue exhibited increased proliferative activity several weeks after injury. The canonical signaling pathway involving Akt, mTOR, and p70S6 kinase was not induced in mIGF-1 hearts, which instead activated alternate PDK1 and SGK1 signaling intermediates. The robust response achieved with the mIGF-1 isoform provides a mechanistic basis for clinically feasible therapeutic strategies for improving the outcome of heart disease.
KW - Cardiac muscle
KW - Insulin-like growth factor-1
KW - Regeneration
KW - Wound healing
UR - http://www.scopus.com/inward/record.url?scp=34250803819&partnerID=8YFLogxK
U2 - 10.1161/CIRCRESAHA.107.148791
DO - 10.1161/CIRCRESAHA.107.148791
M3 - Article
C2 - 17525368
AN - SCOPUS:34250803819
SN - 0009-7330
VL - 100
SP - 1732
EP - 1740
JO - Circulation Research
JF - Circulation Research
IS - 12
ER -