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Akt Signaling Pathway

Click on one of the cellular processes below to highlight the molecules involved and how they are regulated by Akt signaling.

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Stimulation

RTK

Ras

Adaptor

p110

p85

p110

p85

PI 3-Kinase

PI 3-K

PIP₂

PIP₃

PDK-1

mTORC2

Akt

PTEN

PIP₂

PIP₃

TSC2

TSC1

Rheb

mTORC1

p70 S6
Kinase

Beclin 1

PIK3R4

hVps34

ULK
Complex

4EBP1

PDCD4

eIF4B

eIF4E

eIF4G

eIF4A

p27/Kip1

MDM2

p53

GSK-3

Myc

E2F

p21/CIP1

CDKs

Proteasome

FoxO

p21/CIP1

BIM

Pro-Caspase-3

Bcl-xL

Bad

Autophagy

Translation
Initiation

Cell Cycle
Progression

Apoptosis

Survival

p53

Overview of the Akt Signaling Pathway

PI 3-Kinase can be activated by numerous stimuli, including mitogen-stimulated receptor tyrosine kinases (RTKs). The PI 3-Kinase p85 regulatory subunit interacts with RTKs either directly via its Src-homology 2 (SH2) domains or indirectly via an adaptor protein, such as GAB. Activated PI 3-Kinase then phosphorylates phosphatidylinositol (4,5)-bisphosphate (PIP₂), resulting in the formation of phosphatidylinositol (3,4,5)-trisphosphate (PIP₃) at the plasma membrane. PIP₃ recruits Akt and PDK1 to the plasma membrane where PDK1 activates Akt via phosphorylation at Thr308. Akt activation is opposed by the phosphatase PTEN, which dephosphorylates PIP₃ to PIP₂ and prevents Akt and PDK1 recruitment to the plasma membrane. Additionally, Akt is phosphorylated at Ser473 by mammalian Target of Rapamycin complex 2 (mTORC2) for maximal activation. Activated Akt subsequently impacts many cellular processes, including autophagy, protein synthesis, cell cycle progression, and cellular survival. It suppresses autophagy both directly, via phosphorylation of Beclin 1, and indirectly via the activation of mTORC1. Akt inhibits TSC2 via phosphorylation at Ser939/981, which allows Rheb to activate mTORC1. mTORC1 then negatively regulates ULK1 via phosphorylation, resulting in autophagy inhibition. Activation of mTORC1 downstream of Akt also increases protein synthesis. mTORC1 promotes translation initiation both by activation of p70 S6 Kinase and by inhibition of the translational suppressor 4EBP1. Akt promotes cell cycle progression through the regulation of transcription factors and cell cycle regulators. The p53 and FoxO transcription factors are negatively regulated via Akt-activated MDM2 (Ser186) and direct phosphorylation by Akt, respectively. Furthermore, Akt indirectly activates Myc and E2F transcription factors by relieving their inhibition by GSK-3 and p21/CIP1, respectively. The negative cell cycle regulators p21/CIP1 and p27/Kip1 are inhibited by Akt at the level of transcription (FoxO inhibition) and subcellular localization (cytoplasmic retention by direct phosphorylation). Finally, activated Akt promotes cellular survival via inhibition of the pro-apoptotic proteins BIM and Bad and the cytoplasmic retention of p21/CIP1. BIM and Bad inhibit Bcl-xL, a pro-survival protein that blocks Cytochrome c release and subsequent apoptosis. Akt directly inhibits Bad via phosphorylation (Ser136) and indirectly inhibits BIM via downregulation of FoxO-dependent BIM transcription. Cytoplasmic p21/CIP1 inhibits apoptosis via binding Pro-Caspase-3 and preventing its cleavage to active Caspase-3.

To learn more, please visit our Akt Pathway Research Area.

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