S6K1 Regulates GSK3 under Conditions of mTOR-Dependent Feedback Inhibition of Akt

Zhang, Hui H.; Lipovsky, Alex; Dibble, Christian C.; Şahin, Mustafa; Manning, Brendan D.

doi:10.1016/j.molcel.2006.09.019

Cited by 264 publications

(264 citation statements)

References 55 publications

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“…N, nucleus; C, cytoplasm; aNu, active nucleolus; cNu, cytoplasmic nucleolus; NM, nuclear membrane (also see Supplementary Figure S1) (e) Requirement of cisplatin, lithium chloride, and NEAA þ Vitamin deprivation to increase the number of blebbishields but to reduce necrosis Ser-9 in TSC-2 null cells without Akt activation. 15 Interestingly, p70S6K activation correlated with increased GSK-3b Ser-9 phosphorylation (Figure 1b).…”

Section: Resultsmentioning

confidence: 86%

Blebbishields, the emergency program for cancer stem cells: sphere formation and tumorigenesis after apoptosis

et al. 2012

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Caspases mediate apoptosis and have also been implicated in stem-cell biology. How caspases are linked to stem-cell biology is not known. Here, we show that the apoptotic blebs of cancer cells fuse together to form novel structures called 'blebbishields'. Blebbishields form spheres by fusion. Both blebbishield formation and sphere formation involve active caspases and N-linked glycosylation. Sphere formation is enhanced by acidic pH and is counteracted by inhibitors of proton pump, caspases, and cholesterol. The blebbishields from VEGFR2 High cells are capable of enhanced sphere formation. Blebbishields express transiently downregulated stem-cell markers and the sphere-forming blebbishield-derived cells are tumorigenic. Our study demonstrates that the cancer stem cells can survive after apoptosis by blebbishield formation and subsequent sphere formation.

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Section: Resultsmentioning

confidence: 86%

Blebbishields, the emergency program for cancer stem cells: sphere formation and tumorigenesis after apoptosis

et al. 2012

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“…Finally, as a fourth possibility, we hypothesized that rapamycin resistance in Th2.R cells might be associated with inhibition of GSK3␤), which induces T cell apoptosis or cell cycle arrest (46). Of note, it has recently been shown that the mTOR and GSK3␤ pathways are interrelated (47). We found that the inactive, phosphorylated form of GSK3␤ was overexpressed in Th2.R cells relative to control Th2 cells (six of six cases).…”

Section: Th2 Cell Rapamycin Resistance: Evaluation Of Potential Mechamentioning

confidence: 78%

Ex Vivo Rapamycin Generates Apoptosis-Resistant Donor Th2 Cells That Persist In Vivo and Prevent Hemopoietic Stem Cell Graft Rejection

Mariotti

Foley

Jung

et al. 2008

The Journal of Immunology

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Because ex vivo rapamycin generates murine Th2 cells that prevent Graft-versus-host disease more potently than control Th2 cells, we hypothesized that rapamycin would generate Th2/Tc2 cells (Th2/Tc2.R cells) that abrogate fully MHC-disparate hemopoietic stem cell rejection more effectively than control Th2/Tc2 cells. In a B6-into-BALB/c graft rejection model, donor Th2/Tc2.R cells were indeed enriched in their capacity to prevent rejection; importantly, highly purified CD4+ Th2.R cells were also highly efficacious for preventing rejection. Rapamycin-generated Th2/Tc2 cells were less likely to die after adoptive transfer, accumulated in vivo at advanced proliferative cycles, and were present in 10-fold higher numbers than control Th2/Tc2 cells. Th2.R cells had a multifaceted, apoptosis-resistant phenotype, including: 1) reduced apoptosis after staurosporine addition, serum starvation, or CD3/CD28 costimulation; 2) reduced activation of caspases 3 and 9; and 3) increased anti-apoptotic Bcl-xL expression and reduced proapoptotic Bim and Bid expression. Using host-versus-graft reactivity as an immune correlate of graft rejection, we found that the in vivo efficacy of Th2/Tc2.R cells 1) did not require Th2/Tc2.R cell expression of IL-4, IL-10, perforin, or Fas ligand; 2) could not be reversed by IL-2, IL-7, or IL-15 posttransplant therapy; and 3) was intact after therapy with Th2.R cells relatively devoid of Foxp3 expression. We conclude that ex vivo rapamycin generates Th2 cells that are resistant to apoptosis, persist in vivo, and effectively prevent rejection by a mechanism that may be distinct from previously described graft-facilitating T cells.

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“…This was accompanied by transient activation of GSK-3b through dephosphorylation of Serine-9. Although, GSK-3b activity returned to normal in the presence of continued Akt inactivation involving other kinases such as S6K1 [29]. Thus, GSK-3b appears to be an arbiter of cell fate towards proliferation, arrest or apoptosis.…”

Section: Discussionmentioning

confidence: 94%

GSK‐3β‐dependent destabilization of cyclin D1 mediates replicational stress‐induced arrest of cell cycle

2008

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Chemotherapeutic agents are well known to induce growth arrest of cancerous cells by inducing DNA damage/replicational stress and engaging cellular apoptotic machinery. Our studies on hydroxyurea (HU) recognized cyclin D1 destabilization as the initiator of growth arrest at G 1 /S-phase independent of other cell cycle regulators. Cyclin D1 degradation was associated with its phosphorylation at Thr286 by glycogen synthase kinase-3b and inactivation of Akt kinase. Overexpression of the cyclin D1 T286A mutant, or constitutively active Akt, conferred stability to cyclin D1 and helped bypass cell cycle arrest. Thus, growth arrest by HU seems to involve destabilization of cyclin D1 in addition to its well-established role as ribonucleotide reductase inhibitor.

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S6K1 Regulates GSK3 under Conditions of mTOR-Dependent Feedback Inhibition of Akt

Cited by 264 publications

References 55 publications

Blebbishields, the emergency program for cancer stem cells: sphere formation and tumorigenesis after apoptosis

Blebbishields, the emergency program for cancer stem cells: sphere formation and tumorigenesis after apoptosis

Ex Vivo Rapamycin Generates Apoptosis-Resistant Donor Th2 Cells That Persist In Vivo and Prevent Hemopoietic Stem Cell Graft Rejection

GSK‐3β‐dependent destabilization of cyclin D1 mediates replicational stress‐induced arrest of cell cycle

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