Joseph Kaminsky scite author profile

Cardiac fibroblasts produce and degrade extracellular matrix and are critical in regulating cardiac remodeling and hypertrophy. Fibroblasts are activated by factors such as transforming growth factor beta and inhibited by agents that elevate 3',5'-cyclic adenosine monophosphate (cAMP) levels. cAMP signal generation and response is known to be compartmentalized in many cell types in part through the colocalization of receptors and specific adenylyl cyclase isoforms in lipid rafts and caveolae. The present study sought to define the localization of key G protein-coupled receptors with adenylyl cyclase type 6 (AC6) in lipid rafts of rat cardiac fibroblasts and to determine if this colocalization was functionally relevant. We found that cardiac fibroblasts produce cAMP in response to agonists for beta-adrenergic (isoproterenol), prostaglandin EP2 (butaprost), adenosine (adenosine-5'-N-ethylcarboxamide, NECA), and prostacyclin (beraprost) receptors. Overexpression of AC6 increased cAMP production stimulated by isoproterenol and beraprost but not by butaprost or NECA. A key function of fibroblasts is the production of collagen. Isoproterenol- and beraprostmediated inhibition of collagen synthesis was also enhanced by AC6 overexpression, while inhibition by butaprost and NECA were unaltered. Lipid raft fractions from cardiac fibroblasts contain the preponderance of beta-adrenergic receptors and AC6 but exclude EP2 receptors. While we could not determine the localization of native prostacyclin receptors, we were able to determine that epitope-tagged prostanoid IP receptors (IPR) expressed in COS7 cells did localize, in part, in lipid raft fractions. These findings indicate that IP receptors are expressed in lipid rafts and can activate raft-localized AC isoforms. AC6 is completely compartmentized in lipid raft domains where it is activated solely by coresident G protein-coupled receptors to regulate cardiac fibroblast function.

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The C1 and C2 domains target human type 6 adenylyl cyclase to lipid rafts and caveolae

Thangavel

Liu

Sun

et al. 2009

Cellular Signalling

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Previous data has shown that adenylyl cyclase type 6 (AC6) is expressed principally in lipid rafts or caveolae of cardiac myocytes and other cell types while certain other isoforms of AC are excluded from these microdomains. The mechanism by which AC6 is localized to lipid rafts or caveolae is unknown. In this study, we show AC6 is localized in lipid rafts of COS-7 cells (expressing caveolin-1) and in HEK-293 cells or cardiac fibroblasts isolated from caveolin-1 knock-out mice (both of which lack prototypical caveolins). To determine the region of AC6 that confers raft localization, we independently expressed each of the major intracellular domains, the N-terminus, C1 and C2 domains, and examined their localization with various approaches. The N-terminus did not associate with lipid rafts or caveolae of either COS-7 or HEK-293 cells nor did it immunoprecipitate with caveolin-1 when expressed in COS-7 cells. By contrast, the C1 and C2 domains each associated with lipid rafts to varying degrees and was present in caveolin-1 immunoprecipitates. There were no differences in the pattern of localization of either the C1 or C2 domains between COS-7 and HEK-293 cells. Further dissection of the C1 domain into four individual proteins indicated that the N-terminal half of this domain is responsible for its raft localization. To probe for a role of a putative palmitoylation motif in the C-terminal portion of the C2 domain, we expressed various truncated forms of AC6 lacking most or all of the C-terminal 41 amino acids. These truncated AC6 proteins were not altered in terms of their localization in lipid rafts or their catalytic activity, implying that this C-terminal region is not required for lipid raft targeting of AC6. We conclude that while the C1 domain may be most important, both the C1 and C2 domains of AC6 play a role in targeting AC6 to lipid rafts.

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The Absorption Spectrum of Malachite Green Leucocyanide and the Mechanism of the Dark Reaction after Photolysis

Harris¹,

Kaminsky²,

Simard³

1935

J. Am. Chem. Soc.

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The Compressibility of and an Equation of State for Gaseous Propane

Beattie¹,

Kay²,

Kaminsky³

1937

J. Am. Chem. Soc.

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Substitution of the critical temperature (267.01°) and volume (0.416 liter per mole) into the equation gives a calculated pressure of 28.75 atm. The observed pressure is 27.00 atm.; and the error of extrapolation from 2 to 2.40 moles per liter is 6.5%. SummaryMeasurements are reported on the compressi-bility of liquid normal heptane over the temperature range from 30 to 250°and to 350 atmospheres, and on the compressibility of the gas phase from 275 to 350°and from a density of 1.0 to 5.0 moles per liter.The constants of an equation of state for the gas phase are determined from the data for densities less than the critical.Cambridge, Mass.

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Fibroblast-specific expression of AC6 enhances β-adrenergic and prostacyclin signaling and blunts bleomycin-induced pulmonary fibrosis

Liu¹,

Li²,

Sun³

et al. 2010

American Journal of Physiology-Lung Cellular and Molecular Phys

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Joseph Kaminsky

Adenylyl cyclase type 6 overexpression selectively enhances β-adrenergic and prostacyclin receptor-mediated inhibition of cardiac fibroblast function because of colocalization in lipid rafts

The C1 and C2 domains target human type 6 adenylyl cyclase to lipid rafts and caveolae

The Absorption Spectrum of Malachite Green Leucocyanide and the Mechanism of the Dark Reaction after Photolysis

The Compressibility of and an Equation of State for Gaseous Propane

Fibroblast-specific expression of AC6 enhances β-adrenergic and prostacyclin signaling and blunts bleomycin-induced pulmonary fibrosis

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