Lawrence S. Mathews scite author profile

Recombinant clones containing exon 3 of the insulin-like growth factor I (IGF-I) gene were isolated from a mouse genomic library. These sequences were used to generate an RNA probe, which was used in a solution hybridization assay to quantitate IGF-I mRNA in various murine tissues as a function of growth hormone status. The liver is the major site of IGF-I synthesis and the level of IGF-I mRNA is regulated about 10-fold by growth hormone in the growth hormonedeficient lit/lit mouse. Nuclear run-on assays were used to show that growth hormone regulation is manifested in part at the transcriptional level. Growth hormone also affects the size distribution of hepatic IGF-I mRNAs. Pancreas showed the highest non-hepatic expression, but every tissue analyzed contained some IGF-I mRNA. Expression was not growth hormone-dependent in most non-hepatic tissues.

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Identification of SH2-Bβ as a Substrate of the Tyrosine Kinase JAK2 Involved in Growth Hormone Signaling

Rui

Mathews

Hotta

et al. 1997

Molecular and Cellular Biology

162

201

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Growth Enhancement of Transgenic Mice Expressing Human Insulin-Like Growth Factor I*

Hammer²,

et al. 1988

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A line of transgenic mice carrying a chimeric gene composed of human insulin-like growth factor I (IGF-I) coding sequences fused to the mouse metallothionein I promoter was generated to study the effects of chronically elevated exposure to IGF-I. Mice in this line overexpress IGF-I in most tissues studied and have circulating IGF-I levels 1.5 times the normal value. This results in a growth response manifested by a 1.3-fold increase in weight as a result of selective organomegaly without an apparent increase in skeletal growth. In addition, expression of the endogenous GH and IGF-I genes is inhibited. These results are consistent with IGF-I playing an important role in the control of somatic growth.

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Histopathology Associated with Elevated Levels of Growth Hormone and Insulin-Like Growth Factor I in Transgenic Mice*

et al. 1989

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Serum levels of GH and insulin-like growth factor I (IGF-I) were genetically increased to investigate the physiological activities of these proteins. Lines of mice expressing chimeric genes composed of bovine GH, human GRF, or human IGF-I coding sequences fused to the mouse metallothionein I promoter were examined for consequences of chronic exposure to high levels of these peptides. Animals with elevated serum levels of GH (either bovine GH or mouse GH) have selective splanchnomegaly coupled with glomerular sclerosis and hepatocellularmegaly. Serum levels of insulin and cholesterol are increased. In contrast (with the exception of selective enlargement of organs), the chronic expression of IGF-I results in a different pattern of abnormalities. These findings suggest that the pathogenesis of GH-related disorders is not mediated solely by IGF-I.

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