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A Long-Acting, Mono-PEGylated Human Growth Hormone Analog Is a Potent Stimulator of Weight Gain and Bone Growth in Hypophysectomized Rats

Bolder BioTechnology, Inc. (G.N.C., M.S.R., D.J.S., S.J.C., D.H.H.), Boulder, Colorado 80301; and BolderPATH, Inc. (E.A.C.), University of Colorado, Boulder, Colorado 80309

Address all correspondence and requests for reprints to: Dr. George Cox, Bolder BioTechnology, Inc., 2945 Wilderness Place, Boulder, Colorado 80301. E-mail: jcox{at}bolderbio.com.

Recombinant human GH is used to treat GH deficiency in children and adults and wasting in AIDS patients. GH has a circulating half-life of only a few hours in humans and must be administered to patients by daily injection for maximum effectiveness. Previous studies showed that longer-acting forms of GH could be created by modification of GH with multiple 5-kDa amine-reactive polyethylene glycols (PEGs). Eight of nine lysine residues and the N-terminal amino acid were modified to varying extents by amine PEGylation of GH. The amine-PEGylated GH product comprised a complex mixture of multiple PEGylated species that differed from one another in mass, in vitro bioactivity, and in vivo potency. In vitro bioactivity of GH was reduced 100- to 1000-fold by extensive amine PEGylation of the protein. Here we describe a homogeneously modified, mono-PEGylated GH protein that possesses near complete in vitro bioactivity, a long half-life, and increased potency in vivo. The mono-PEGylated GH was created by substituting cysteine for threonine-3 (T3C) of GH, followed by modification of the added cysteine residue with a single 20-kDa cysteine-reactive PEG. The PEG-T3C protein has an approximate 8-fold longer half-life than GH after sc administration to rats. Every other day or every third day administration of PEG-T3C stimulates increases in body weight and tibial epiphysis growth comparable with that produced by daily administration of GH in hypophysectomized rats. Long-acting, mono-PEGylated GH analogs such as PEG-T3C are promising candidates for future testing in humans.