Impaired IGF-I signalling of hypertrophic hearts in the developmental phase of hypertension in genetically hypertensive rats

Insulin‐like growth factor‐I (IGF‐I) signalling is reported to contribute to the modulation of blood pressure and set survival and hypertrophic responses in cardiac tissue. However, whether IGF‐I signalling normally acts in cardiac tissues of hypertensive rats is unknown. In this study, using sponta...

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Published in:Cell biochemistry and function 2005-09, Vol.23 (5), p.325-331
Main Authors: Kuo, Wei-Wen, Chu, Chia-Yih, Wu, Chieh-Hsi, Lin, James A., Liu, Jer-Yuh, Hsieh, Yi-Hsien, Ueng, Kwo-Chang, Lee, Shin-Da, Hsieh, Dennis Jine-Yuan, Hsu, His-Hsien, Chen, Li-Mien, Huang, Chih-Yang
Format: Article
Language:English
Subjects:
Aging
Animals
cardiac hypertrophy
Cardiomegaly - pathology
Cardiomegaly - physiopathology
Cytochromes c - metabolism
Disease Models, Animal
Gene Expression Regulation, Developmental
Heart Ventricles - metabolism
hypertension
Hypertension - genetics
Hypertension - physiopathology
Insulin-Like Growth Factor I - deficiency
Insulin-Like Growth Factor I - genetics
Insulin-Like Growth Factor I - metabolism
insulin-like growth factor-1 signalling pathway
Myocardium - metabolism
Myocardium - pathology
Rats
Rats, Inbred SHR
Rats, Inbred WKY
RNA, Messenger - genetics
RNA, Messenger - metabolism
SHR and SPSHR
Signal Transduction
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Summary:Insulin‐like growth factor‐I (IGF‐I) signalling is reported to contribute to the modulation of blood pressure and set survival and hypertrophic responses in cardiac tissue. However, whether IGF‐I signalling normally acts in cardiac tissues of hypertensive rats is unknown. In this study, using spontaneously hypertensive rats (SHR) and stroke‐prone spontaneously hypertensive rats (SPSHR), both with early blood pressure increases, and Wistar–Kyoto (WKY) rats as controls, we measured the hypertrophic and IGF‐I signalling activity changes in rat hearts at 4, 6 and 12 weeks of age. Both SHR and SPSHR were found to have significantly increased blood pressures and ratios of heart‐ and left ventricle‐ to body weight at 12 weeks of age. However, IGF‐IR and its downstream signalling, including the protein levels of PI3K and phosphorylated Akt, known to maintain physiological cardiac hypertrophy and cardiomyocyte survival, were downregulated. The results of dot blotting showed that cardiac mRNA levels of IGF‐I in hypertensive rats were higher than those in controls starting from the age of 4 weeks. This difference suggests the increased ligand IGF‐I mRNA levels may be a compensatory response caused by the impaired IGF‐I signalling. Moreover, enhanced cardiac cytosolic cytochrome‐c, a mitochondria‐dependent apoptotic pathway component, tended to occur in both hypertensive rats, although it did not reach a significant level. These findings indicate that impaired IGF‐IR signalling occurs at early stages, and it may contribute, at least partially, to the development of hypertension and pathological cardiac hypertrophy and to cardiomyocyte apoptosis at later stages in SHR and SPSHR. Copyright © 2005 John Wiley & Sons, Ltd.
ISSN:0263-6484
1099-0844
DOI:10.1002/cbf.1244