Expression of a mutated bovine growth hormone gene suppresses growth of transgenic mice.

Abstract: To determine the importance of the third a-helix in bovine growth hormone (bGH) relative to growthrelated biological activities, the following experimental approach was used: (i) mutagenesis ofhelix III of bGH to generate an idealized amphiphilic helix; (ii) in vitro expression analyses of the mutated bGH gene in cultured mouse L cells; (iii) mouse liver membrane binding studies ofwild-type and mutated bGH; and (iv) expression ofthe mutated gene in the transgenic mouse. An altered bGH gene (pBGHlOA6-M8) was ge… Show more

“…Data from in vitro GHR binding studies showed no significant difference between wild-type bGH and 3 D bGH in their GHR interactions, indicating that 3 D bGH had a binding affinity similar to wild-type GH. Surprisingly, however, when the gene encoding 3 D bGH analogue was expressed in transgenic mice, it resulted in growth retardation; the transgenic mice that expressed the mutated GH were significantly smaller compared with nontransgenic littermates (10). This result was contrary to the expectation that the 3 D bGH transgenic mice would be larger than normal.…”

“…(Reprinted, with permission, from (2).) activation of the receptor (10). Structural studies then demonstrated that dual binding sites on hGH to two GHRs are required for receptor dimerisation and activation, which results in growth-promoting activities (7,8).…”

“…A series of studies was thus undertaken to determine whether modification of these three residues in the GH molecule that generate a perfect amphipathic a-helix would alter the growth-related properties of bGH. A mutated bGH gene was engineered in which the codon for Glu-117 was replaced with Leu (E117L), Gly-119 was replaced with Arg (G119R), and Ala-122 was replaced with Asp (A122D) (3 D bGH) (10). The resulting molecule possessed a perfect amphipathic a-helix with all hydrophobic residues below and hydrophilic residues above the midline of the helix (Fig.…”

Discovery and mechanism of action of pegvisomant

“…Data from in vitro GHR binding studies showed no significant difference between wild-type bGH and 3 D bGH in their GHR interactions, indicating that 3 D bGH had a binding affinity similar to wild-type GH. Surprisingly, however, when the gene encoding 3 D bGH analogue was expressed in transgenic mice, it resulted in growth retardation; the transgenic mice that expressed the mutated GH were significantly smaller compared with nontransgenic littermates (10). This result was contrary to the expectation that the 3 D bGH transgenic mice would be larger than normal.…”

“…(Reprinted, with permission, from (2).) activation of the receptor (10). Structural studies then demonstrated that dual binding sites on hGH to two GHRs are required for receptor dimerisation and activation, which results in growth-promoting activities (7,8).…”

“…A series of studies was thus undertaken to determine whether modification of these three residues in the GH molecule that generate a perfect amphipathic a-helix would alter the growth-related properties of bGH. A mutated bGH gene was engineered in which the codon for Glu-117 was replaced with Leu (E117L), Gly-119 was replaced with Arg (G119R), and Ala-122 was replaced with Asp (A122D) (3 D bGH) (10). The resulting molecule possessed a perfect amphipathic a-helix with all hydrophobic residues below and hydrophilic residues above the midline of the helix (Fig.…”

Discovery and mechanism of action of pegvisomant

“…A series of highly specific antagonists of the GH action has recently been developed for the potential therapeutic use in various pathophysiological conditions, including diabetes. Initially it was shown that alteration of single amino acids in the third a-helix of bovine (b)GH (residues 109±126) results in a GH antagonist [68,69]. In vitro experiments showed that this new group of GH antagonists binds to the GH receptor with the same affinity as native GH but in vivo a phenotypic dwarf animal characterized by low circulating IGF-I concentrations and a proportional body composition develops when the GH antagonist is expressed in transgenic (TG) mice [68,69].…”

“…Initially it was shown that alteration of single amino acids in the third a-helix of bovine (b)GH (residues 109±126) results in a GH antagonist [68,69]. In vitro experiments showed that this new group of GH antagonists binds to the GH receptor with the same affinity as native GH but in vivo a phenotypic dwarf animal characterized by low circulating IGF-I concentrations and a proportional body composition develops when the GH antagonist is expressed in transgenic (TG) mice [68,69]. Studies in long-term diabetic GH antagonist TG mice, that express the GH antagonist (bGH-G119R or hGH-G120R), have shown that these animals are protected against development of diabetic renal changes [70,71].…”

Putative pathophysiological role of growth factors and cytokines in experimental diabetic kidney disease

Medical Management of Pituitary Adenomas