Katy L. Everett scite author profile

Single nucleotide polymorphisms (SNPs) within the ADCY5 gene, encoding adenylate cyclase 5, are associated with elevated fasting glucose and increased type 2 diabetes (T2D) risk. Despite this, the mechanisms underlying the effects of these polymorphic variants at the level of pancreatic β-cells remain unclear. Here, we show firstly that ADCY5 mRNA expression in islets is lowered by the possession of risk alleles at rs11708067. Next, we demonstrate that ADCY5 is indispensable for coupling glucose, but not GLP-1, to insulin secretion in human islets. Assessed by in situ imaging of recombinant probes, ADCY5 silencing impaired glucose-induced cAMP increases and blocked glucose metabolism toward ATP at concentrations of the sugar >8 mmol/L. However, calcium transient generation and functional connectivity between individual human β-cells were sharply inhibited at all glucose concentrations tested, implying additional, metabolism-independent roles for ADCY5. In contrast, calcium rises were unaffected in ADCY5-depleted islets exposed to GLP-1. Alterations in β-cell ADCY5 expression and impaired glucose signaling thus provide a likely route through which ADCY5 gene polymorphisms influence fasting glucose levels and T2D risk, while exerting more minor effects on incretin action.

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Direct Binding Between Orai1 and AC8 Mediates Dynamic Interplay Between Ca ²⁺ and cAMP Signaling

Willoughby

et al. 2012

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AKAP79/150 Interacts with AC8 and Regulates Ca2+-dependent cAMP Synthesis in Pancreatic and Neuronal Systems

Willoughby

Masada

Wachten

et al. 2010

Journal of Biological Chemistry

103

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Protein kinase A anchoring proteins (AKAPs) provide the backbone for targeted multimolecular signaling complexes that serve to localize the activities of cAMP. Evidence is accumulating of direct associations between AKAPs and specific adenylyl cyclase (AC) isoforms to facilitate the actions of protein kinase A on cAMP production. It happens that some of the AC isoforms (AC1 and AC5/6) that bind specific AKAPs are regulated by submicromolar shifts in intracellular Ca2+. However, whether AKAPs play a role in the control of AC activity by Ca2+ is unknown. Using a combination of co-immunoprecipitation and high resolution live cell imaging techniques, we reveal an association of the Ca2+-stimulable AC8 with AKAP79/150 that limits the sensitivity of AC8 to intracellular Ca2+ events. This functional interaction between AKAP79/150 and AC8 was observed in HEK293 cells overexpressing the two signaling molecules. Similar findings were made in pancreatic insulin-secreting cells and cultured hippocampal neurons that endogenously express AKAP79/150 and AC8, which suggests important physiological implications for this protein-protein interaction with respect to Ca2+-stimulated cAMP production.

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Characterization of Phospholipase Cγ Enzymes with Gain-of-Function Mutations

Everett

Bunney

Yoon

et al. 2009

Journal of Biological Chemistry

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-495) is within the spPH domain. Replacement of this residue had no effect on folding of the domain and enhanced Rac activation of PLC␥2 without increasing Rac binding. Importantly, the activation of the ALI14-PLC␥2 and corresponding PLC␥1 variants was enhanced in response to EGF stimulation and bypassed the requirement for phosphorylation of critical tyrosine residues. ALI5-and ALI14-type mutations affected basal activity only slightly; however, their combination resulted in a constitutively active PLC. Based on these data, we suggest that each mutation could compromise auto-inhibition in the inactive PLC, facilitating the activation process; in addition, ALI5-type mutations could enhance membrane interaction in the activated state.

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Structural Insights into Formation of an Active Signaling Complex between Rac and Phospholipase C Gamma 2

et al. 2009

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Rho family GTPases are important cellular switches and control a number of physiological functions. Understanding the molecular basis of interaction of these GTPases with their effectors is crucial in understanding their functions in the cell. Here we present the crystal structure of the complex of Rac2 bound to the split pleckstrin homology (spPH) domain of phospholipase C-gamma(2) (PLCgamma(2)). Based on this structure, we illustrate distinct requirements for PLCgamma(2) activation by Rac and EGF and generate Rac effector mutants that specifically block activation of PLCgamma(2), but not the related PLCbeta(2) isoform. Furthermore, in addition to the complex, we report the crystal structures of free spPH and Rac2 bound to GDP and GTPgammaS. These structures illustrate a mechanism of conformational switches that accompany formation of signaling active complexes and highlight the role of effector binding as a common feature of Rac and Cdc42 interactions with a variety of effectors.

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Katy L. Everett

ADCY5 Couples Glucose to Insulin Secretion in Human Islets

Direct Binding Between Orai1 and AC8 Mediates Dynamic Interplay Between Ca ²⁺ and cAMP Signaling

AKAP79/150 Interacts with AC8 and Regulates Ca2+-dependent cAMP Synthesis in Pancreatic and Neuronal Systems

Characterization of Phospholipase Cγ Enzymes with Gain-of-Function Mutations

Structural Insights into Formation of an Active Signaling Complex between Rac and Phospholipase C Gamma 2

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Katy L. Everett

ADCY5 Couples Glucose to Insulin Secretion in Human Islets

Direct Binding Between Orai1 and AC8 Mediates Dynamic Interplay Between Ca 2+ and cAMP Signaling

AKAP79/150 Interacts with AC8 and Regulates Ca2+-dependent cAMP Synthesis in Pancreatic and Neuronal Systems

Characterization of Phospholipase Cγ Enzymes with Gain-of-Function Mutations

Structural Insights into Formation of an Active Signaling Complex between Rac and Phospholipase C Gamma 2

Contact Info

Product

Resources

About

Direct Binding Between Orai1 and AC8 Mediates Dynamic Interplay Between Ca ²⁺ and cAMP Signaling