AI Article Synopsis
- The differentiation of neuroendocrine cells into a neuronal-like state is influenced by G protein-coupled receptor activation, which boosts cAMP levels, as well as by growth factors acting on receptor tyrosine kinases like nerve growth factor (NGF).
- cAMP-induced differentiation involves two distinct functions: neurite extension mediated by the cyclic AMP sensor/Rapgef2 and ERK activation, and growth arrest mediated by Epac2 and p38, both occurring independently of NGF signaling pathways.
- Additionally, both cAMP and NGF provide protective effects against cell death due to serum withdrawal, utilizing separate signaling mechanisms—PKA-dependent for cAMP and PKA-independent for NGF.
Article Abstract
Dividing neuroendocrine cells differentiate into a neuronal-like phenotype in response to ligands activating G protein-coupled receptors, leading to the elevation of the second messenger cAMP. Growth factors that act at receptor tyrosine kinases, such as nerve growth factor, also cause differentiation. We report here that two aspects of cAMP-induced differentiation, neurite extension and growth arrest, are dissociable at the level of the sensors conveying the cAMP signal in PC12 and NS-1 cells. Following cAMP elevation, neuritogenic cyclic AMP sensor/Rapgef2 is activated for signaling to ERK to mediate neuritogenesis, whereas Epac2 is activated for signaling to the MAP kinase p38 to mediate growth arrest. Neither action of cAMP requires transactivation of TrkA, the receptor for NGF. In fact, the differentiating effects of NGF do not require activation of any of the cAMP sensors protein kinase A, Epac, or neuritogenic cyclic AMP sensor/Rapgef2 but, rather, depend on ERK and p38 activation via completely independent signaling pathways. Hence, cAMP- and NGF-dependent signaling for differentiation are also completely insulated from each other. Cyclic AMP and NGF also protect NS-1 cells from serum withdrawal-induced cell death, again by two wholly separate signaling mechanisms, PKA-dependent for cAMP and PKA-independent for NGF.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3974983 | PMC |
| http://dx.doi.org/10.1074/jbc.M113.529321 | DOI Listing |
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