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Reductions in serum IGF‐1 during aging impair health span
Authors:Garry A Williams  Laura Klein  Luis Cardoso  Ronald W. Matheny Jr  Gene B. Hubbard  Yuji Ikeno  Roger P. Farrar  Mitchell B Schaffler  Shoshana Yakar
Affiliation:1. David B. Kriser Dental Center, Department of Basic Science and Craniofacial Biology, New York University College of Dentistry, , New York, NY, 10010 USA;2. Department of Pediatrics, Albert Einstein College of Medicine, , Bronx, New York, 10461 USA;3. Department of Biomedical Engineering, The City College of New York, , New York, NY, 10031 USA;4. Department of Biochemistry, University of Texas Health Science Center, , San Antonio, TX, 782297 USA;5. Sam and Ann Barshop Institute for Longevity and Aging Studies, University of Texas Health Science Center, , San Antonio, TX, 78229 USA;6. Department of Pathology, University of Texas Health Science Center, , San Antonio, TX, 78229 USA;7. Department of Kinesiology and Health Education, University of Texas at Austin, , Austin, TX, 78712 USA
Abstract:In lower or simple species, such as worms and flies, disruption of the insulin‐like growth factor (IGF)‐1 and the insulin signaling pathways has been shown to increase lifespan. In rodents, however, growth hormone (GH) regulates IGF‐1 levels in serum and tissues and can modulate lifespan via/or independent of IGF‐1. Rodent models, where the GH/IGF‐1 axis was ablated congenitally, show increased lifespan. However, in contrast to rodents where serum IGF‐1 levels are high throughout life, in humans, serum IGF‐1 peaks during puberty and declines thereafter during aging. Thus, animal models with congenital disruption of the GH/IGF‐1 axis are unable to clearly distinguish between developmental and age‐related effects of GH/IGF‐1 on health. To overcome this caveat, we developed an inducible liver IGF‐1‐deficient (iLID) mouse that allows temporal control of serum IGF‐1. Deletion of liver Igf1 gene at one year of age reduced serum IGF‐1 by 70% and dramatically impaired health span of the iLID mice. Reductions in serum IGF‐1 were coupled with increased GH levels and increased basal STAT5B phosphorylation in livers of iLID mice. These changes were associated with increased liver weight, increased liver inflammation, increased oxidative stress in liver and muscle, and increased incidence of hepatic tumors. Lastly, despite elevations in serum GH, low levels of serum IGF‐1 from 1 year of age compromised skeletal integrity and accelerated bone loss. We conclude that an intact GH/IGF‐1 axis is essential to maintain health span and that elevated GH, even late in life, associates with increased pathology.
Keywords:aging  bone  growth hormone     IGF     insulin‐sensitivity     LID     lifespan  liver  tumor
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