The growth and metabolic actions of growth hormone (GH) are believed to be mediated through the GH receptor (GHR) by JAK2 activation. The GHR exists as a constitutive homodimer, with signal transduction by ligand-induced realignment of receptor subunits. Based on the crystal structures, we identify a conformational change in the F'G' loop of the lower cytokine module, which results from binding of hGH but not G120R hGH antagonist. Mutations disabling this conformational change cause impairment of ERK but not JAK2 and STAT5 activation by the GHR in FDC-P1 cells. This results from the use of two associated tyrosine kinases by the GHR, with JAK2 activating STAT5, and Lyn activating ERK1/2. We provide evidence that Lyn signals through phospholipase C gamma, leading to activation of Ras. Accordingly, mice with mutations in the JAK2 association motif respond to GH with activation of hepatic Src and ERK1/2, but not JAK2/STAT5. We suggest that F'G' loop movement alters the signalling choice between JAK2 and a Src family kinase by regulating TMD realignment. Our findings could explain debilitated ERK but not STAT5 signalling in some GH-resistant dwarfs and suggest pathway-specific cytokine agonists.
Mice lacking expression of tyrosine hydroxylase (TH), the first and rate-limiting enzyme of the catecholamine biosynthetic pathway, in dopaminergic neuronal cell types were generated by a transgenic rescue approach to clarify the role of dopamine signaling during postnatal development. Introduction of the TH transgene directed by the dopamine beta-hydroxylase gene promoter into TH knockout mice restored noradrenaline and adrenaline synthesis, preventing perinatal lethality and cardiac dysfunction in the knockout mice. Lack of TH expression in the cells that normally express the dopaminergic phenotype resulted in a marked reduction of dopamine accumulation in the tissues, which led to multiple behavioral abnormalities at the juvenile stage. These abnormalities were characterized by a reduction in spontaneous locomotor activity, blockade of methamphetamine-induced hyperactivity, cataleptic behavior, and defects in active avoidance learning. In contrast, development of the pituitary gland as well as production and secretion of the pituitary peptide hormones dependent on hypothalamic dopaminergic control were normally maintained, despite defective dopamine synthesis. These results demonstrate that dopamine neurotransmission is essential for controlling spontaneous and voluntary movement and associative learning during postnatal development through the nigrostriatal and mesocorticolimbic pathways.
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