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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Expression of functional stimulatory guanine nucleotide binding protein in nonfunctioning thyroid adenomas is not correlated to adenylate cyclase activity and growth of these tumors.

In thyroid cells, the alpha-subunit of the stimulatory guanine nucleotide binding protein (Gs alpha) acts as signal transducer between the TSH receptor and the adenylate cyclase (AC), and it regulates both growth and function. In order to analyze Gs alpha expression by both Western blot analysis and in situ, we generated an antibody raised against a recombinant human Gs alpha protein. With this antibody, a strong cytoplasmic Gs alpha-immunostaining was detectable in cultured human thyroid cells and in TSH-stimulated rat thyroids, in contrast to normal human thyroids and to T4-treated rat thyroids, which showed only weak immunoreactivity. We obtained the following results by immunohistochemistry and Western blot analysis of 32 actively growing human thyroid adenomas: 1) strong Gs alpha expression in 11 adenomas, including 4 hyperfunctioning nodules, 1 of these with a point mutation in codon 201 of the Gs alpha gene; 2) no expression or only weak Gs alpha expression in 13 adenomas; and 3) a pattern of Gs alpha-positive and Gs alpha-negative cells in the remaining 8 adenomas. In addition, we analyzed ADP-ribosylation of Gs alpha and AC activity in 9 nonfunctioning adenomas and found a significant correlation between Gs alpha immunoreactivity and ADP-ribosylation and no correlation of both with basal and TSH-stimulated AC activity. In both types of adenomas, i.e. those with high as well as low Gs alpha, an indistinguishably high fraction of proliferating cells was detectable. We conclude that expression of functional Gs alpha protein in nonfunctioning thyroid adenomas is neither correlated to the basal or TSH-stimulated AC activity nor to the proliferation rate of these tumors.[1]

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