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PKC?II acts downstream of chemoattractant receptors and mTORC2 to regulate cAMP production and myosin II activity in neutrophils.


ABSTRACT: Chemotaxis is a process by which cells polarize and move up a chemical gradient through the spatiotemporal regulation of actin assembly and actomyosin contractility, which ultimately control front protrusions and back retractions. We previously demonstrated that in neutrophils, mammalian target of rapamycin complex 2 (mTORC2) is required for chemoattractant-mediated activation of adenylyl cyclase 9 (AC9), which converts ATP into cAMP and regulates back contraction through MyoII phosphorylation. Here we study the mechanism by which mTORC2 regulates neutrophil chemotaxis and AC9 activity. We show that inhibition of protein kinase C?II (PKC?II) by CPG53353 or short hairpin RNA knockdown severely inhibits chemoattractant-induced cAMP synthesis and chemotaxis in neutrophils. Remarkably, PKC?II-inhibited cells exhibit specific and severe tail retraction defects. In response to chemoattractant stimulation, phosphorylated PKC?II, but not PKC?, is transiently translocated to the plasma membrane, where it phosphorylates and activates AC9. mTORC2-mediated PKC?II phosphorylation on its turn motif, but not its hydrophobic motif, is required for membrane translocation of PKC?II. Inhibition of mTORC2 activity by Rictor knockdown not only dramatically decreases PKC?II activity, but it also strongly inhibits membrane translocation of PKC?II. Together our findings show that PKC?II is specifically required for mTORC2-dependent AC9 activation and back retraction during neutrophil chemotaxis.

SUBMITTER: Liu L 

PROVIDER: S-EPMC4004594 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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PKCβII acts downstream of chemoattractant receptors and mTORC2 to regulate cAMP production and myosin II activity in neutrophils.

Liu Lunhua L   Gritz Derek D   Parent Carole A CA  

Molecular biology of the cell 20140305 9


Chemotaxis is a process by which cells polarize and move up a chemical gradient through the spatiotemporal regulation of actin assembly and actomyosin contractility, which ultimately control front protrusions and back retractions. We previously demonstrated that in neutrophils, mammalian target of rapamycin complex 2 (mTORC2) is required for chemoattractant-mediated activation of adenylyl cyclase 9 (AC9), which converts ATP into cAMP and regulates back contraction through MyoII phosphorylation.  ...[more]

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