The A-kinase anchoring protein Yotiao binds and regulates adenylyl cyclase in brain

Piggott, Leslie A.; Bauman, Andrea L.; Scott, John D.; Dessauer, Carmen W.

doi:10.1073/pnas.0712100105

Cited by 97 publications

(135 citation statements)

References 34 publications

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“…AKAP5 is known to directly interact with AC5 and AC6 and scaffold them to AMPA receptors (39), and AKAP5-bound RII causes phosphorylation and inhibition of these enzymes (40). Furthermore, AKAP9/Yotiao directly inhibits AC2 and AC3 (41). Therefore, AKAP5 may bring AC into close proximity with GPR30 for the receptor complex to inhibit cAMP production.…”

Section: Discussionmentioning

confidence: 99%

G protein-coupled Receptor 30 (GPR30) Forms a Plasma Membrane Complex with Membrane-associated Guanylate Kinases (MAGUKs) and Protein Kinase A-anchoring Protein 5 (AKAP5) That Constitutively Inhibits cAMP Production

Broselid

Berg

Chavera

et al. 2014

Journal of Biological Chemistry

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Background: GPR30 plays important roles in cardiometabolic regulation and cancer. Results: GPR30 forms a complex with a MAGUK and AKAP5 that constitutively inhibits cAMP production independently of G i/o and retains receptors in the plasma membrane. Conclusion:The GPR30-MAGUK-AKAP5 complex mediates receptor signaling. Significance: These results present a new mechanism by which a receptor inhibits cAMP production.

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Section: Discussionmentioning

confidence: 99%

G protein-coupled Receptor 30 (GPR30) Forms a Plasma Membrane Complex with Membrane-associated Guanylate Kinases (MAGUKs) and Protein Kinase A-anchoring Protein 5 (AKAP5) That Constitutively Inhibits cAMP Production

Broselid

Berg

Chavera

et al. 2014

Journal of Biological Chemistry

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“…Such a proposal is quite speculative at present because it is not known whether such complexes exist or how these domains of cAMP are maintained. However, evidence is accumulating that ACs interact with a variety of proteins, such as A-kinase-anchoring proteins, protein phosphatase 2A and the actin cytoskeleton (Bauman et al, 2006;Crossthwaite et al, 2006;Head et al, 2006;Piggott et al, 2008). Additionally, the assembly of signalling complexes is often accompanied by their residence in lipid rafts (Pike, 2003).…”

Section: +mentioning

confidence: 99%

“…Experimental evidence is accumulating for the existence of cAMP microdomains in which cAMP targets are discretely and selectively regulated in a manner that bears little relation to changes in gross cellular levels of cAMP (Bacskai et al, 1993;Hempel et al, 1996;Nikolaev et al, 2006;Rich et al, 2001;Zaccolo and Pozzan, 2002). Recent studies suggest that adenylyl cyclases (ACs), the originators of cAMP, can actually orchestrate their own microenvironment by recruiting a variety of signalling and scaffolding molecules (Bauman et al, 2006;Chou et al, 2004;Crossthwaite et al, 2006;Dupre et al, 2007;Piggott et al, 2008). Thus, the nine differently regulated isoforms of AC (Sunahara and Taussig, 2002) can also contribute significantly to the diversity of cellular cAMP microdomains.…”

Section: Introductionmentioning

confidence: 99%

Distinct pools of cAMP centre on different isoforms of adenylyl cyclase in pituitary-derived GH3B6 cells

Wachten

Masada

Ayling

et al. 2010

Journal of Cell Science

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SummaryMicrodomains have been proposed to explain specificity in the myriad of possible cellular targets of cAMP. Local differences in cAMP levels can be generated by phosphodiesterases, which control the diffusion of cAMP. Here, we address the possibility that adenylyl cyclases, the source of cAMP, can be primary architects of such microdomains. Distinctly regulated adenylyl cyclases often contribute to total cAMP levels in endogenous cellular settings, making it virtually impossible to determine the contribution of a specific isoform. To investigate cAMP dynamics with high precision at the single-isoform level, we developed a targeted version of Epac2-camps, a cAMP sensor, in which the sensor was tagged to a catalytically inactive version of the Ca 2+ -stimulable adenylyl cyclase 8 (AC8). This sensor, and less stringently targeted versions of Epac2-camps, revealed opposite regulation of cAMP synthesis in response to Ca 2+ in GH 3 B 6 pituitary cells. Ca 2+ release triggered by thyrotropin-releasing hormone stimulated the minor endogenous AC8 species. cAMP levels were decreased by inhibition of AC5 and AC6, and simultaneous activation of phosphodiesterases, in different compartments of the same cell. These findings demonstrate the existence of distinct adenylyl-cyclase-centered cAMP microdomains in live cells and open the door to their molecular micro-dissection.

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“…One major AKAP family member, AKAP9, was first described as an N-methyl-D-aspartic acid (NMDA) receptor anchor in the brain (Lin et al 1998) and was further characterized in the brain and heart (Feliciello et al 1999;Kurokawa et al 2004;Ciampi et al 2005;Chen et al 2007;Piggott et al 2008;Chen and Kass 2011;Chopra and Knollmann 2011). Mutations in human AKAP9 have been implicated in breast cancer (Milne et al 2011), sporadic papillary thyroid carcinomas (Lee et al 2006), and long QT syndrome (Chen et al 2007).…”

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confidence: 99%

AKAP9 Is Essential for Spermatogenesis and Sertoli Cell Maturation in Mice

et al. 2013

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Mammalian male fertility relies on complex inter-and intracellular signaling during spermatogenesis. Here we describe three alleles of the widely expressed A-kinase anchoring protein 9 (Akap9) gene, all of which cause gametogenic failure and infertility in the absence of marked somatic phenotypes. Akap9 disruption does not affect spindle nucleation or progression of prophase I of meiosis but does inhibit maturation of Sertoli cells, which continue to express the immaturity markers anti-Mullerian hormone and thyroid hormone receptor alpha in adults and fail to express the maturation marker p27 Kip1 . Furthermore, gap and tight junctions essential for blood-testis barrier (BTB) organization are disrupted. Connexin43 (Cx43) and zona occludens-1 are improperly localized in Akap9 mutant testes, and Cx43 fails to compartmentalize germ cells near the BTB. These results identify and support a novel reproductive tissue-specific role for Akap9 in the coordinated regulation of Sertoli cells in the testis.

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The A-kinase anchoring protein Yotiao binds and regulates adenylyl cyclase in brain

Cited by 97 publications

References 34 publications

G protein-coupled Receptor 30 (GPR30) Forms a Plasma Membrane Complex with Membrane-associated Guanylate Kinases (MAGUKs) and Protein Kinase A-anchoring Protein 5 (AKAP5) That Constitutively Inhibits cAMP Production

G protein-coupled Receptor 30 (GPR30) Forms a Plasma Membrane Complex with Membrane-associated Guanylate Kinases (MAGUKs) and Protein Kinase A-anchoring Protein 5 (AKAP5) That Constitutively Inhibits cAMP Production

Distinct pools of cAMP centre on different isoforms of adenylyl cyclase in pituitary-derived GH3B6 cells

AKAP9 Is Essential for Spermatogenesis and Sertoli Cell Maturation in Mice

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