TY - JOUR
T1 - Studies involving the GH-IGF axis
T2 - Lessons from IGF-I and IGF-I receptor gene targeting mouse models
AU - Yakar, S.
AU - Pennisi, P.
AU - Kim, C. H.
AU - Zhao, H.
AU - Toyoshima, Y.
AU - Gavrilova, O.
AU - LeRoith, D.
PY - 2005
Y1 - 2005
N2 - The IGFs are ubiquitous and have pleoitropic effects. They are critical for normal growth and development, and for normal functioning of adult tissues. A liver-specific gene-deletion knock-out of the IGF-I gene resulted in a mouse model with reduced circulating IGF-I levels, that led to insulin resistance due to the secondary elevation of circulating GH levels. The reduction in circulating IGF-I levels was also associated with a reduction in cancer growth and metastases in three cancer models, one for colon cancer and two for breast cancer. A second mouse model, using the transgenic approach, inhibited the IGF-I and insulin receptor function in skeletal muscle, and resulted in severe insulin resistance in muscle followed by insulin resistance in fat and liver and, eventually, β-cell dysfunction and development of Type 2 diabetes. This progression from insulin resistance to Type 2 diabetes was most likely due to lipotoxicity with elevated serum and tissue triglyceride levels. Evidence supporting the hypothesis came from the use of fibrates and leptin injections, each of which enhanced fatty acid (FA) oxidation in liver and muscle and was associated with a reversal of the insulin resistance and diabetes.
AB - The IGFs are ubiquitous and have pleoitropic effects. They are critical for normal growth and development, and for normal functioning of adult tissues. A liver-specific gene-deletion knock-out of the IGF-I gene resulted in a mouse model with reduced circulating IGF-I levels, that led to insulin resistance due to the secondary elevation of circulating GH levels. The reduction in circulating IGF-I levels was also associated with a reduction in cancer growth and metastases in three cancer models, one for colon cancer and two for breast cancer. A second mouse model, using the transgenic approach, inhibited the IGF-I and insulin receptor function in skeletal muscle, and resulted in severe insulin resistance in muscle followed by insulin resistance in fat and liver and, eventually, β-cell dysfunction and development of Type 2 diabetes. This progression from insulin resistance to Type 2 diabetes was most likely due to lipotoxicity with elevated serum and tissue triglyceride levels. Evidence supporting the hypothesis came from the use of fibrates and leptin injections, each of which enhanced fatty acid (FA) oxidation in liver and muscle and was associated with a reversal of the insulin resistance and diabetes.
KW - Gene-deletion mice models
KW - IGF-I
KW - IGF-I receptor
KW - Transgenic mice
UR - http://www.scopus.com/inward/record.url?scp=27744438744&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=27744438744&partnerID=8YFLogxK
M3 - Article
C2 - 16114270
AN - SCOPUS:27744438744
SN - 0391-4097
VL - 28
SP - 19
EP - 22
JO - Journal of Endocrinological Investigation
JF - Journal of Endocrinological Investigation
IS - 5 SUPPL
ER -