F.Donelson Smith, John D Scott  Current Biology 

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Signaling Complexes: Junctions on the Intracellular Information Super Highway  F.Donelson Smith, John D Scott  Current Biology  Volume 12, Issue 1, Pages R32-R40 (January 2002) DOI: 10.1016/S0960-9822(01)00646-7

Fig. 1 Pheromone Activation of Yeast MAP Kinases. This process involves multiple stages. (1) Binding to cell surface GPCRs results in translocation of the Ste5 kinase scaffold from the nucleus to the plasma membrane. (2) The proximal kinase in the Ste5 kinase scaffold, Ste11, is activated upon recruitment of Gβγ subunits and another protein kinase called Ste20. (3) Signals relayed through the Ste5 kinase scaffold to the terminal enzyme Fus3 lead to the phosphorylation of various downstream substrates. (4) One example is the phosphorylation of scaffolds containing Kss3 to attenuate other MAP kinase cascades that regulate filamentous growth. (5) Phosphorylation of another substrate, Far1, may also contribute to the inhibition of filamentous growth. The name of each component kinase and scaffolding protein is shown. Current Biology 2002 12, R32-R40DOI: (10.1016/S0960-9822(01)00646-7)

Fig. 2 MAP Kinase Pathways in Yeast. Distinct MAP kinase pathways in yeast have different protein scaffolds. This allows use of the same component in multiple pathways. (A) The pheromone response pathway is composed of the MKKK Ste11, the MKK Ste7 and the MAP kinase Fus3. These enzymes form a signaling complex with the scaffold protein Ste5 at its core. (B) Pbs2 organizes the hyperosmotic stress response pathway through its association with Ste11 and Hog1. The scaffolding proteins, Ste5 and Pbs2, and the component kinases are shown. Current Biology 2002 12, R32-R40DOI: (10.1016/S0960-9822(01)00646-7)

Fig. 3 AKAP Signaling Complexes. A recently appreciated role for AKAPs is the simultaneous targeting of signal transduction and signal termination enzymes. (A) In neurons, Yotiao maintains a signaling complex of active phosphatase PP-1 and PKA that is physically linked to a substrate for both enzymes, the NR1 subunit of the NMDA receptor ion channel. (B) In cardiac myocytes, hyper-trophic stimuli induce expression of the muscle selective anchoring protein mAKAP. This leads to the assembly of a signaling complex including PKA, the phosphodiesterase PDE4D3 and the phosphatase PP-2A that is targeted to a substrate, the ryanodine receptor ion channel. Current Biology 2002 12, R32-R40DOI: (10.1016/S0960-9822(01)00646-7)

Fig. 4 β-Arrestins Function as Mammalian MAP Kinase Scaffolds. Accumulating evidence suggests that a secondary function of β-arrestins may be to facilitate the assembly of MAP kinase scaffolds in response to G-protein coupled receptor-signaling events. (A) Upon acti-vation of the β2 adrenergic receptor, β-arrestin 1 and 2 act as scaffolds for the component kinases of the ERK1/2 MAP kinase cascade. (B) β-arrestin 2 consti-tutively binds a JNK kinase module consisting of ASK1, MKK7 and JNK3 that is responsive to AT1A angiotensin recep-tors. The receptor–kinase scaffold is inter-nalized on clathrin coated vesicles along with active JNK3. The component kinases are shown. Current Biology 2002 12, R32-R40DOI: (10.1016/S0960-9822(01)00646-7)

Fig. 5 AKAP Mediated Regulation of β2-AR Signaling. Two AKAPs nucleate signaling complexes that are assembled on β2-ARs. (A) Agonist independent association of the AKAP79 signaling complex through interactions with sites within the third intracellular loop and carboxy-terminal tail of the β2-AR. Phosphorylation of the third cyto-plasmic loop of the β2-AR (3a) results in activation of the ERK1/2 kinase via a Gαi coupled mechanism [58]. Anchored PKA also phosphorylates GRK2 kinase resulting in increased association of GRK2 with the plasma membrane and enhanced receptor phosphorylation to stimulate β2-AR desen-sitization. (B) Receptor occupancy recruits the AKAP250/gravin–PKA complex through interactions with the carboxy-terminal tail of the β2-AR. Current Biology 2002 12, R32-R40DOI: (10.1016/S0960-9822(01)00646-7)