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A Uniform Extracellular Stimulus Triggers Distinct cAMP Signals in Different Compartments of a Simple Cell
cAMP, the classical second messenger, regulates many diverse cellular functions. The primary effector of cAMP signals, protein kinase A, differentially phosphorylates hundreds of cellular targets. Little is known, however, about the spatial and temporal nature of cAMP signals and their information c...
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| Published in: | Proceedings of the National Academy of Sciences - PNAS 2001-11, Vol.98 (23), p.13049-13054 |
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| cites | cdi_FETCH-LOGICAL-c489t-1978fa068eec11b39168a13600d2a109b9d7c6bef0a431d233b20cf2716334713 |
| container_end_page | 13054 |
| container_issue | 23 |
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| container_title | Proceedings of the National Academy of Sciences - PNAS |
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| creator | Rich, Thomas C. Fagan, Kent A. Tse, Tonia E. Schaack, Jerome Dermot M. F. Cooper Karpen, Jeffrey W. |
| description | cAMP, the classical second messenger, regulates many diverse cellular functions. The primary effector of cAMP signals, protein kinase A, differentially phosphorylates hundreds of cellular targets. Little is known, however, about the spatial and temporal nature of cAMP signals and their information content. Thus, it is largely unclear how cAMP, in response to different stimuli, orchestrates such a wide variety of cellular responses. Previously, we presented evidence that cAMP is produced in subcellular compartments near the plasma membrane, and that diffusion of cAMP from these compartments to the bulk cytosol is hindered. Here we report that a uniform extracellular stimulus initiates distinct cAMP signals within different cellular compartments. By using cyclic nucleotidegated ion channels engineered as cAMP biosensors, we found that prostaglandin E1stimulation of human embryonic kidney cells caused a transient increase in cAMP concentration near the membrane. Interestingly, in the same time frame, the total cellular cAMP rose to a steady level. The decline in cAMP levels near the membrane was prevented by pretreatment with phosphodiesterase inhibitors. These data demonstrate that spatially and temporally distinct cAMP signals can coexist within simple cells. |
| doi_str_mv | 10.1073/pnas.221381398 |
| format | article |
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By using cyclic nucleotidegated ion channels engineered as cAMP biosensors, we found that prostaglandin E1stimulation of human embryonic kidney cells caused a transient increase in cAMP concentration near the membrane. Interestingly, in the same time frame, the total cellular cAMP rose to a steady level. The decline in cAMP levels near the membrane was prevented by pretreatment with phosphodiesterase inhibitors. 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| ispartof | Proceedings of the National Academy of Sciences - PNAS, 2001-11, Vol.98 (23), p.13049-13054 |
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| subjects | 1-Methyl-3-isobutylxanthine - pharmacology Alprostadil - pharmacology Biological Sciences Calcium - metabolism Calibration Cell Compartmentation Cell Line Cell membranes Cells Cellular biology Cyclic AMP - metabolism Cytosol Enzymes Fluorescence Humans Ion Transport Kidney - cytology Kidney - drug effects Kidney - metabolism Kidney cells Neurons Neutrophils Patch-Clamp Techniques Physiological regulation Pipettes Prostaglandins Proteins Signal Transduction |
| title | A Uniform Extracellular Stimulus Triggers Distinct cAMP Signals in Different Compartments of a Simple Cell |
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