Protein Kinase A-Dependent and -Independent Signaling Pathways Contribute to Cyclic AMP-Stimulated Proliferation
The effects of cyclic AMP (cAMP) on cell proliferation are cell type specific. Although the growth-inhibitory effects of cAMP have been well studied, much less is known regarding how cAMP stimulates proliferation. We report that cAMP stimulates proliferation through both protein kinase A (PKA)-dependent and PKA-independent signaling pathways and that phosphatidylinositol 3-kinase (PI3K) is required for cAMP-stimulated mitogenesis. In cells where cAMP is a mitogen, cAMP-elevating agents stimulate membrane ruffling, Akt phosphorylation, and p70 ribosomal S6 protein kinase (p70s6k) activity. cAMP effects on ruffle formation and Akt were PKA independent but sensitive to wortmannin. In contrast, cAMP-stimulated p70s6k activity was repressed by PKA inhibitors but not by wortmannin or microinjection of the N-terminal SH2 domain of the p85 regulatory subunit of PI3K, indicating that p70s6k and Akt can be regulated independently. Microinjection of highly specific inhibitors of PI3K or Rac1, or treatment with the p70s6k inhibitor rapamycin, impaired cAMP-stimulated DNA synthesis, demonstrating that PKA-dependent and -independent pathways contribute to cAMP-mediated mitogenesis. Direct elevation of PI3K activity through microinjection of an antibody that stimulates PI3K activity or stable expression of membrane-localized p110 was sufficient to confer hormoneindependent DNA synthesis when accompanied by elevations in p70s6k activity. These findings indicate that multiple pathways contribute to cAMP-stimulated mitogenesis, only some of which are PKA dependent. Furthermore, they demonstrate that the ability of cAMP to stimulate both p70s6k-and PI3K-dependent pathways is an important facet of cAMP-regulated cell cycle progression.Cyclic AMP (cAMP) exerts differential effects on cell proliferation. In many cells, including CHO cells, aortic smooth muscle cells, and Rat-1 fibroblasts, cAMP inhibits the mitogenic response to growth factors (8). Growth-inhibitory effects of cAMP are mediated partly through activation of cAMPdependent protein kinase A (PKA), which interferes with Raf activation and signaling (23). Less is known regarding how cAMP stimulates growth, although accumulating evidence has dissociated the mitogenic effects of cAMP from effects on mitogen-activated protein kinase (MAPK) (37,42,76). In contrast, the effects of cAMP on p70s6k correlate with effects on proliferation, and inhibition of p70s6k activation abolishes cAMP-stimulated DNA synthesis (10). These results prompted us to examine the role of phosphatidylinositol 3-kinase (PI3K)-dependent signaling pathways in cAMP-stimulated proliferation.Multiple isoforms of PI3K that vary in lipid substrate specificity and subunit structure have been identified (reviewed in reference 71). Typically, mitogens that activate receptor tyrosine kinases stimulate PI3K␣/ whereas those that activate G-protein-coupled receptors stimulate PI3K␥, although exceptions have been noted (36,52,66,67). PI3K is required for the mitogenic activity of many growth factors, including platel...
Administration of endotoxin (LPS) in humans results in profound physiological responses, including activation of peripheral blood mononuclear cells and the release of inflammatory factors. The time course of the response of selected inflammatory proteins was examined in healthy subjects (n = 6) administered a single intravenous dose of the purified derivative of endotoxin (3.0 ng/kg). Microarray analysis demonstrated changes in the expression of a number of genes, which were confirmed in separate in vitro endotoxin stimulation experiments. Subsequent TaqMan analysis of genes of interest indicated time-dependent changes in the expression of many of these genes. This included pre-B cell enhancing factor, which was identified on microarray analysis as being markedly upregulated following endotoxin stimulation. Protein expression of the genes examined by TaqMan analysis was measured and demonstrated the appearance of tumor necrosis factor (TNF)-alpha and sTNF-R proteins in the plasma beginning within 1 h after dosing, followed by other cytokines/ inflammatory markers (e.g., IL-1ra, G-CSF, IL-6, IL-8, and IL-10) and suppressors of cytokine signaling (SOCS-1 and SOCS-3). In general, cytokine protein expression correlated well with gene expression; however, the temporal profile of expression of some genes did not correlate well with the protein data. For many of these proteins, the lack of correlation was attributable to alternate tissue sources, which were demonstrated on TaqMan analysis. Principal component analysis indicated that cytokines could be grouped according to their temporal pattern of response, with most transcript levels returning to baseline 24 h following endotoxin administration. The combination of cDNA microarray and TaqMan analysis to identify and quantify changes in gene expression, along with the analysis of protein expression, can be useful in investigating inflammatory and other diseases.
Differential Effects of Cyclic Adenosine 3',5'-Monophosphate on p70 Ribosomal S6 Kinase
cAMP exerts differential effects on mitogenic signaling pathways. In many cells, cAMP inhibits growth factor-stimulated MAPK activity and proliferation. In others, cAMP promotes growth. TSH stimulates proliferation through elevations in cAMP in thyroid follicular cells. This mitogenic pathway is dependent upon both protein kinase A and Ras, but not upon Raf-1, mitogen-activated protein kinase kinase, or mitogen-activated protein kinase. We report that TSH, acting through cAMP, activates pp70s6k and that this activity is required for TSH-stimulated DNA synthesis. A similar role for pp70s6k in cAMP-mediated mitogenesis was observed in secondary rat Schwann cells and in Swiss3T3 fibroblasts, two additional cell types that respond to cAMP with growth. In contrast, cAMP elevation did not activate pp70s6k in NIH3T3 or REF52 fibroblasts, cells in which cAMP fails to stimulate proliferation. Together, these results suggest that pp70s6k plays an important and general role in cAMP-mediated proliferation.
Hormones are specialized mitogens that stimulate proliferation in their di erentiated target cells. Thyrotropin (TSH), the physiologic regulator of thyroid cells, stimulates cAMP-mediated proliferation and thyroidspeci®c gene expression. The mitogenic e ects of TSH require Ras, therefore Ras activation should be compatible with the maintenance of thyroid di erentiation. However, expression of activated Ras extinguishes the di erentiated phenotype of thyroid cells. One explanation for this apparent paradox is the selective utilization of Ras e ector pathways. We tested the hypothesis that Ras signaling through PI3K mediates the mitogenic e ects of TSH in cells which retain their di erentiated character. Expression of a Ras e ector mutant (RasV12S35) that signals preferentially through Raf-1, although su cient to confer TSH-independent proliferation, abolished hormone-regulated expression of thyroglobulin and the sodium/iodide symporter. In contrast, expression of a Ras mutant (RasV12C40) that binds selectively to PI3K conferred TSH-independent proliferation without marked e ects on thyroid-speci®c gene expression. Unlike the inhibitory e ects of TSH on the proliferation of RasV12S35-expressing cells, TSH enhanced RasV12C40-stimulated proliferation by further increasing the activity of p70s6k, an important mediator of the mitogenic e ects of TSH and RasV12C40. These results demonstrate that channeling Ras-dependent signals to PI3K confers TSH with the ability to stimulate proliferation in di erentiated cells. Oncogene (2000) 19, 924 ± 932.
Differential Effects of Cyclic Adenosine 3′,5′-Monophosphate on p70 Ribosomal S6 Kinase1
cAMP exerts differential effects on mitogenic signaling pathways. In many cells, cAMP inhibits growth factor-stimulated MAPK activity and proliferation. In others, cAMP promotes growth. TSH stimulates proliferation through elevations in cAMP in thyroid follicular cells. This mitogenic pathway is dependent upon both protein kinase A and Ras, but not upon Raf-1, mitogen-activated protein kinase kinase, or mitogen-activated protein kinase. We report that TSH, acting through cAMP, activates pp70s6k and that this activity is required for TSH-stimulated DNA synthesis. A similar role for pp70s6k in cAMP-mediated mitogenesis was observed in secondary rat Schwann cells and in Swiss3T3 fibroblasts, two additional cell types that respond to cAMP with growth. In contrast, cAMP elevation did not activate pp70s6k in NIH3T3 or REF52 fibroblasts, cells in which cAMP fails to stimulate proliferation. Together, these results suggest that pp70s6k plays an important and general role in cAMP-mediated proliferation.
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