摘要
Of the eleven families of cyclic nucleotide phosphodiesterases(PDEs) present in the human body,PDE4s represent the most widely expressed family of PDEs. A large body of work has been published on the expression and function of these PDEs,which preferentially hydrolyze cAMP in all cells studied,including neurons and supporting cells of the CNS. Four distinct genes termed PDE4 A,PDE4B,PDE4C and PDE4D encode PDE4 proteins. However,the number of PDE4s identified in different tissues and cells is estimated to be more than 30. Differences in regulation and localization explain this extreme heterogeneity. PDE4 hydrolytic activity is regulated by phosphorylation,and protein kinase A(PKA) was the first kinase identified. This PKA-dependent regulation establishes a feedback loop where cAMP regulates its own degradation to control the intensity and localization of the hormone and neurotransmitter signal. In addition,numerous additional kinases phosphorylate PDE4s to modulate the PKA-dependent activation and fine tune cAMP levels by growth factors and other extracellular cues. Thus,PDE4 can be considered a coincidence detector that integrates multiple signaling pathways. Finally,different PDE4s are involved in numerous macromolecular complexes targeting the cAMP hydrolytic activity to different subcellular domains. Thus,PDE4s function in different subcellular compartments,and inhibition of different isoforms affects cAMP levels in different subdomains with consequently different functions. The dyad space and the control of excitation/contraction will be used as examples of these localized regulations.
Of the eleven families of cyclic nucleotide phosphodiesterases(PDEs) present in the human body,PDE4s represent the most widely expressed family of PDEs. A large body of work has been published on the expression and function of these PDEs,which preferentially hydrolyze cAMP in all cells studied,including neurons and supporting cells of the CNS. Four distinct genes termed PDE4 A,PDE4B,PDE4C and PDE4D encode PDE4 proteins. However,the number of PDE4s identified in different tissues and cells is estimated to be more than 30. Differences in regulation and localization explain this extreme heterogeneity. PDE4 hydrolytic activity is regulated by phosphorylation,and protein kinase A(PKA) was the first kinase identified. This PKA-dependent regulation establishes a feedback loop where cAMP regulates its own degradation to control the intensity and localization of the hormone and neurotransmitter signal. In addition,numerous additional kinases phosphorylate PDE4s to modulate the PKA-dependent activation and fine tune cAMP levels by growth factors and other extracellular cues. Thus,PDE4 can be considered a coincidence detector that integrates multiple signaling pathways. Finally,different PDE4s are involved in numerous macromolecular complexes targeting the cAMP hydrolytic activity to different subcellular domains. Thus,PDE4s function in different subcellular compartments,and inhibition of different isoforms affects cAMP levels in different subdomains with consequently different functions. The dyad space and the control of excitation/contraction will be used as examples of these localized regulations.
出处
《中国药理学与毒理学杂志》
CAS
CSCD
北大核心
2017年第5期446-447,共2页
Chinese Journal of Pharmacology and Toxicology
