Change of p16INK4a and PNCA Protein Expression in Myocardium after Injection of hIGF-1 Gene Modified Skeletal Myoblasts into Post-infarction Rats

Gao Yanzhang; LU Yongxin; MI Shaohua; Liu Xiaoming; SU Guanhua; Rong Shuling

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Change of p16INK4a and PNCA Protein Expression in Myocardium after Injection of hIGF-1 Gene Modified Skeletal Myoblasts into Post-infarction Rats

Author: GAO YANZHANG ¹ ; LU YONGXIN ; MI SHAOHUA ; LIU XIAOMING ; SU GUANHUA ; RONG SHULING
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1. The Institute of Cardiovascular Disease, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology,the Laboratory of Target Biology Therapy in Hubei Province, Wuhan 430022, China
Keywords: modified myoblasts; heart failure; insulin-like growth factor-1; p16INK4a; PCNA
From: Journal of Huazhong University of Science and Technology (Medical Sciences) 2008;28(4):396-400
CountryChina
Language:Chinese
Abstract: This study examined the change of p 16INK4a and PNCA protein expression in myocardium after injection of hIGF-1 gene modified skeletal myoblasts into post-infarction rats. HIGF-1 gene modified skeletal myoblasts (hIGF-1-myoblasts) were injected into hind limb muscles of 18post-infraction rats (experimental group). Primary-myoblasts were injected into 18 post-infraction rats (control group) and 12 non-infarction rats (sham group). Expression of p16INK4a and PCNA protein in myocardiums were separately detected immunocytochemically 1, 2 and 4 weeks after the inuection. The level of hIGF-1 and rIGF-1 protein in serum and myocardium were detected by enzyme-linked immunosorbent assay (ELISA). Compared with the sham group, the percentage of p16INK4a and PCNA positive cells reached a peak after 1 week in the control group and the experimental group (P＜0.01). Moreover, the percentage of p16INK4a-positive cells in the experimental group was lower than in control group whereas the percentage of PCNA-positive cells was lower in the control group than in the experimental group (P＜0.01). The percentage of p16INK4a-positive cells in the experimental group and the percentage of PCNA-positive cells in the control group were close to that in the sham group from the 2nd week (P＞0.05). ELISA analysis disclosed that the myocardium level of rIGF-1 protein increased gradually in the controls and especially in the experimental group (P＜0.01). The serum level of rIGF-1 decreased significantly in post-infraction rats, but these conditions were improved in the experimental group (P＜0.01). The hIGF-1 protein in serum and myocardium were detected from the 1st week to the 4th week in the experimental group. Statistical analysis revealed significant associations of myocardium level of hIGF-1 protein with expression of p16INK4a and PCNA protein (r=-0.323, P＜0.05; r=0.647, P＜0.01). It is concluded that genetically hIGF-1-myoblast provides a means for constant synthesis and release of hIGF-1. It could not only improve the expression of rIGF-1 and PCNA protein in myocardium, but also suppress the expression of p16INK4a protein for 30 days in post-infraction rats. Myoblasts-mediated IGF-1 gene therapy may provide a new alternative for the clinical treatment of heart failure.