Phosphorylation and Regulation of Akt/PKB by the Rictor-mTOR Complex

Sarbassov, Dos D.; Guertin, David A.; Ali, Siraj M.; Sabatini, David M.

doi:10.1126/science.1106148

Cited by 5,703 publications

(5,318 citation statements)

References 28 publications

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“…Mammalian target of rapamycin (mTOR) phosphorylates AKT on S473, and was present at comparable levels in platelets from normal and affected horses at these time points. This also was observed for rictor, a component of mTOR complex 2 (mTORC2) which provides substrate specificity for AKT 14. Protein kinase Cα (PKCα), which is phosphorylated by mTORC2 at serine 657,15, 16 was present and phosphorylated identically in resting platelets from all horses and throughout the time course after activation with α‐thrombin (Fig 4B).…”

Section: Resultssupporting

confidence: 56%

“…Normal levels of the mTORC2 components rictor and mTOR, as well as normal phosphorylation of the mTORC2 target serine 657 of PKCα after activation, provide evidence that this complex functions normally in AET platelets 15, 16. Although recent studies have shown that pharmacological inhibition of mTORC2 does not inhibit aggregation of washed platelets, the role of this complex in fibrinogen binding and α‐granule secretion remains undefined 14, 24. Glycogen synthase kinase (GSK‐3β) phosphorylation also occurs normally after the pharmacological inhibition of mTORC2.…”

Section: Discussionmentioning

confidence: 99%

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Association of Factor V Secretion with Protein Kinase B Signaling in Platelets from Horses with Atypical Equine Thrombasthenia

Norris

Pombo

Shirley³

et al. 2015

Veterinary Internal Medicne

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BackgroundTwo congenital bleeding diatheses have been identified in Thoroughbred horses: Glanzmann thrombasthenia (GT) and a second, novel diathesis associated with abnormal platelet function in response to collagen and thrombin stimulation.Hypothesis/ObjectivesPlatelet dysfunction in horses with this second thrombasthenia results from a secretory defect.AnimalsTwo affected and 6 clinically normal horses.MethodsEx vivo study. Washed platelets were examined for (1) expression of the αIIb‐β3 integrin; (2) fibrinogen binding capacity in response to ADP and thrombin; (3) secretion of dense and α‐granules; (4) activation of the mammalian target of rapamycin (mTOR)‐protein kinase B (AKT) signaling pathway; and (5) cellular distribution of phosphatidylinositol‐4‐phosphate‐3‐kinase, class 2B (PIK3C2B) and SH2 containing inositol‐5′‐phosphatase 1 (SHIP1).ResultsPlatelets from affected horses expressed normal amounts of αIIb‐β3 integrin and bound fibrinogen normally in response to ADP, but bound 80% less fibrinogen in response to thrombin. α‐granules only released 50% as much Factor V as control platelets, but dense granules released their contents normally. Protein kinase B (AKT) phosphorylation was reduced after thrombin activation, but mTOR Complex 2 (mTORC2) and phosphoinositide‐dependent kinase 1 (PDK1) signaling were normal. SH2‐containing inositol‐5'‐phosphatase 1 (SHIP1) did not localize to the cytoskeleton of affected platelets and was decreased overall consistent with reduced AKT phosphorylation.Conclusions and clinical significanceDefects in fibrinogen binding, granule secretion, and signal transduction are unique to this thrombasthenia, which we designate as atypical equine thrombasthenia.

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Section: Resultssupporting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

Association of Factor V Secretion with Protein Kinase B Signaling in Platelets from Horses with Atypical Equine Thrombasthenia

Norris

Pombo

Shirley³

et al. 2015

Veterinary Internal Medicne

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“…Ovaries ( n = 3 for each genotype) were collected from 3‐ and 6‐month‐old Clpp +/+ and Clpp −/− mice and western analysis was performed to assess the expression of p‐S6 and p‐AKT473 proteins, as downstream mediators of mTORC1 and mTORC2 activation (Sarbassov, Guertin, Ali & Sabatini, 2005). There was no significant difference in p‐S6 or p‐AKT473 expression at 3 months between Clpp −/− and Clpp +/+ mice ovaries (Figure 6a–b), while both p‐S6 (1 ± 0.30 vs. 3.29 ± 0.56, p < 0.01) and p‐AKT473 (1 ± 0.40 vs. 2.452 ± 0.57 p < 0.05) protein expressions were significantly increased in Clpp −/− mice ovaries at 6 months (Figure 6c–d).…”

Section: Resultsmentioning

confidence: 99%

Mitochondrial unfolded protein response gene Clpp is required to maintain ovarian follicular reserve during aging, for oocyte competence, and development of pre‐implantation embryos

et al. 2018

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SummaryCaseinolytic peptidase P mediates degradation of unfolded mitochondrial proteins and activates mitochondrial unfolded protein response (mtUPR) to maintain protein homeostasis. Clpp −/− female mice generate a lower number of mature oocytes and two‐cell embryos, and no blastocysts. Clpp −/− oocytes have smaller mitochondria, with lower aspect ratio (length/width), and decreased expression of genes that promote fusion. A 4‐fold increase in atretic follicles at 3 months, and reduced number of primordial follicles at 6–12 months are observed in Clpp −/− ovaries. This is associated with upregulation of p‐S6, p‐S6K, p‐4EBP1 and p‐AKT473, p‐mTOR2481 consistent with mTORC1 and mTORC2 activation, respectively, and Clpp −/− oocyte competence is partially rescued by mTOR inhibitor rapamycin. Our findings demonstrate that CLPP is required for oocyte and embryo development and oocyte mitochondrial function and dynamics. Absence of CLPP results in mTOR pathway activation, and accelerated depletion of ovarian follicular reserve.

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“…Both inhibitors blocked the phosphorylation of YAP in B cells infected with Salmonella WT (Figure 1(c,d). To strengthen the role of Akt in YAP phosphorylation during Salmonella infection of B cells, we generated a conditional knockout mouse for the Rictor gene, which is part of the mTORC2 complex responsible for phosphorylating Akt at serine 473 [38]. (Figure S3).…”

Section: Resultsmentioning

confidence: 99%

SopB activates the Akt-YAP pathway to promote Salmonella survival within B cells

et al. 2018

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B cells are a target of Salmonella infection, allowing bacteria survival without inducing pyroptosis. This event is due to downregulation of Nlrc4 expression and lack of inflammasome complex activation, which impairs the secretion of IL-1β. YAP phosphorylation is required for downregulation of Nlrc4 in B cells during Salmonella infection; however, the microorganism’s mechanisms underlying the inhibition of the NLRC4 inflammasome in B cells are not fully understood. Our findings demonstrate that the Salmonella effector SopB triggers a signaling cascade involving PI3K, PDK1 and mTORC2 that activates Akt with consequent phosphorylation of YAP. When we deleted sopB in Salmonella, infected B cells that lack Rictor, or inhibited the signaling cascade using a pharmacological approach, we were able to restore the function of the NLRC4 inflammasome in B cells and the ability to control the infection. Furthermore, B cells from infected mice exhibited activation of Akt and YAP phosphorylation, suggesting that Salmonella also triggers this pathway in vivo. In summary, our data demonstrate that the Salmonella effector inositide phosphate phosphatase SopB triggers the PI3K-Akt-YAP pathway to inhibit the NLRC4 inflammasome in B cells. This study provides further evidence that Salmonella triggers cellular mechanisms in B lymphocytes to manipulate the host environment by turning it into a survival niche to establish a successful infection.

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Phosphorylation and Regulation of Akt/PKB by the Rictor-mTOR Complex

Cited by 5,703 publications

References 28 publications

Association of Factor V Secretion with Protein Kinase B Signaling in Platelets from Horses with Atypical Equine Thrombasthenia

Association of Factor V Secretion with Protein Kinase B Signaling in Platelets from Horses with Atypical Equine Thrombasthenia

Mitochondrial unfolded protein response gene Clpp is required to maintain ovarian follicular reserve during aging, for oocyte competence, and development of pre‐implantation embryos

SopB activates the Akt-YAP pathway to promote Salmonella survival within B cells

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