Literature DB >> 21460230

Separation of fast from slow anabolism by site-specific PEGylation of insulin-like growth factor I (IGF-I).

Friedrich Metzger1, Waseem Sajid, Stefanie Saenger, Christian Staudenmaier, Chris van der Poel, Bettina Sobottka, Angelika Schuler, Mandy Sawitzky, Raphael Poirier, Dietrich Tuerck, Eginhard Schick, Andreas Schaubmar, Friederike Hesse, Kurt Amrein, Hansruedi Loetscher, Gordon S Lynch, Andreas Hoeflich, Pierre De Meyts, Hans-Joachim Schoenfeld.   

Abstract

Insulin-like growth factor I (IGF-I) has important anabolic and homeostatic functions in tissues like skeletal muscle, and a decline in circulating levels is linked with catabolic conditions. Whereas IGF-I therapies for musculoskeletal disorders have been postulated, dosing issues and disruptions of the homeostasis have so far precluded clinical application. We have developed a novel IGF-I variant by site-specific addition of polyethylene glycol (PEG) to lysine 68 (PEG-IGF-I). In vitro, this modification decreased the affinity for the IGF-I and insulin receptors, presumably through decreased association rates, and slowed down the association to IGF-I-binding proteins, selectively limiting fast but maintaining sustained anabolic activity. Desirable in vivo effects of PEG-IGF-I included increased half-life and recruitment of IGF-binding proteins, thereby reducing risk of hypoglycemia. PEG-IGF-I was equipotent to IGF-I in ameliorating contraction-induced muscle injury in vivo without affecting muscle metabolism as IGF-I did. The data provide an important step in understanding the differences of IGF-I and insulin receptor contribution to the in vivo activity of IGF-I. In addition, PEG-IGF-I presents an innovative concept for IGF-I therapy in diseases with indicated muscle dysfunction.

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Year:  2011        PMID: 21460230      PMCID: PMC3103329          DOI: 10.1074/jbc.M110.172189

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  48 in total

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8.  Assessment of systemic administration of PEGylated IGF-1 in a mouse model of traumatic brain injury.

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