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Loren M. Brown Kathleen E. Rogers Nakon Aroonsakool J. Andrew McCammon Paul A. Insel 《The Journal of biological chemistry》2014,289(42):29148-29157
Epac, a guanine nucleotide exchange factor for the low molecular weight G protein Rap, is an effector of cAMP signaling and has been implicated to have roles in numerous diseases, including diabetes mellitus, heart failure, and cancer. We used a computational molecular modeling approach to predict potential binding sites for allosteric modulators of Epac and to identify molecules that might bind to these regions. This approach revealed that the conserved hinge region of the cyclic nucleotide-binding domain of Epac1 is a potentially druggable region of the protein. Using a bioluminescence resonance energy transfer-based assay (CAMYEL, cAMP sensor using YFP-Epac-Rluc), we assessed the predicted compounds for their ability to bind Epac and modulate its activity. We identified a thiobarbituric acid derivative, 5376753, that allosterically inhibits Epac activity and used Swiss 3T3 and HEK293 cells to test the ability of this compound to modulate the activity of Epac and PKA, as determined by Rap1 activity and vasodilator-stimulated phosphoprotein phosphorylation, respectively. Compound 5376753 selectively inhibited Epac in biochemical and cell migration studies. These results document the utility of a computational approach to identify a domain for allosteric regulation of Epac and a novel compound that prevents the activation of Epac1 by cAMP. 相似文献
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Hu BS Landeen LK Aroonsakool N Giles WR 《American journal of physiology. Heart and circulatory physiology》2007,293(1):H677-H683
Mechanical force can induce a number of fundamental short- and long-term responses in myocardium. These include alterations in ECM, activation of cell-signaling pathways, altered gene regulation, changes in cell proliferation and growth, and secretion of a number of peptides and growth factors. It is now known that a number of these autocrine/paracrine factors are secreted from both cardiomyocytes and ventricular cardiac fibroblasts (CFb) in response to stretch. One such substance is IGF-I. IGF-I is an important autocrine/paracrine factor that can regulate physiological or pathophysiological responses, such as hypertrophy. In this study, we addressed the possible effects of mechanical perturbation, biaxial strain, on IGF-I secretion from adult rat CFb. CFb were subjected to either static stretch (3-10%) or cyclic stretch (10%; 0.1-1 Hz) over a 24-h period. IGF-1 secretion from CFb in response to selected stretch paradigms was examined using ELISA to measure IGF-I concentrations in conditioned media. Static stretch did not result in any measurable modulation of IGF-I secretion from CFb. However, cyclic stretch significantly increased IGF-I secretion from CFb in a frequency- and time-dependent manner compared with nonstretched controls. This stretch-induced increase in secretion was relatively insensitive to changes in extracellular [Ca(2+)] or to block of L-type Ca(2+) channels. In contrast, thapsigargin, an inhibitor of sarco(endo)plasmic reticulum Ca(2+) ATPase, remarkably decreased stretch-induced IGF-I secretion from CFb. We further show that IGF-I can upregulate mRNA expression of atrial natriuretic peptide in myocytes. In summary, cyclic stretch can significantly increase IGF-I secretion from CFb, and this effect is dependent on a thapsigargin-sensitive pool of intracellular [Ca(2+)]. 相似文献
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Landeen LK Aroonsakool N Haga JH Hu BS Giles WR 《American journal of physiology. Heart and circulatory physiology》2007,292(6):H2698-H2711
The bioactive molecule sphingosine-1-phosphate (S1P) binds with high affinity to five recognized receptors (S1P(1-5)) to affect various tissues, including cellular responses of cardiac fibroblasts (CFbs) and myocytes. CFbs are essential components of myocardium, and detailed study of their cell signaling and physiology is required for a number of emerging disciplines. Meaningful studies on CFbs, however, necessitate methods for selective, reproducible cell isolations. Macrophages reside within normal cardiac tissues and often are isolated with CFbs. A protocol was therefore developed that significantly reduces macrophage levels and utilizes more CFb-specific markers (discoidin domain receptor-2) instead of, or in addition to, more commonly used cytoskeletal markers. Our results demonstrate that primary isolated, purified CFbs express predominantly S1P(1-3); however, the relative levels of these receptor subtypes are modulated with time and by culture conditions. In coculture experiments, macrophages altered CFb S1P receptor levels relative to controls. Further investigations using known macrophage-secreted factors showed that S1P and H(2)O(2) had minimal effects on CFb S1P(1-3) expression, whereas transforming growth factor-beta1, TNF-alpha, and PDGF-BB significantly altered all S1P receptor subtypes. Lowering FBS concentrations from 10% to 0.1% increased S1P(2), whereas supplementation with either PDGF-BB or Rho-associated protein kinase inhibitor Y-27632 significantly elevated S1P(3) levels. S1P(2) and S1P(3) receptor levels are known to regulate cell migration. Using cells isolated from either normal or S1P(3)-null mice, we demonstrate that S1P(3) is important and necessary for CFb migration. These results highlight the importance of demonstrating CFb culture purity in functional studies of S1P and also identify conditions that modulate S1P receptor expression in CFbs. 相似文献
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Landeen LK Dederko DA Kondo CS Hu BS Aroonsakool N Haga JH Giles WR 《American journal of physiology. Heart and circulatory physiology》2008,294(2):H736-H749
Sphingosine-1-phosphate (S1P) induces a transient bradycardia in mammalian hearts through activation of an inwardly rectifying K(+) current (I(K(ACh))) in the atrium that shortens action potential duration (APD) in the atrium. We have investigated probable mechanisms and receptor-subtype specificity for S1P-induced negative inotropy in isolated adult mouse ventricular myocytes. Activation of S1P receptors by S1P (100 nM) reduced cell shortening by approximately 25% (vs. untreated controls) in field-stimulated myocytes. S1P(1) was shown to be involved by using the S1P(1)-selective agonist SEW2871 on myocytes isolated from S1P(3)-null mice. However, in these myocytes, S1P(3) can modulate a somewhat similar negative inotropy, as judged by the effects of the S1P(1) antagonist VPC23019. Since S1P(1) activates G(i) exclusively, whereas S1P(3) activates both G(i) and G(q), these results strongly implicate the involvement of mainly G(i). Additional experiments using the I(K(ACh)) blocker tertiapin demonstrated that I(K(ACh)) can contribute to the negative inotropy following S1P activation of S1P(1) (perhaps through G(ibetagamma) subunits). Mathematical modeling of the effects of S1P on APD in the mouse ventricle suggests that shortening of APD (e.g., as induced by I(K(ACh))) can reduce L-type calcium current and thus can decrease the intracellular Ca(2+) concentration ([Ca(2+)](i)) transient. Both effects can contribute to the observed negative inotropic effects of S1P. In summary, these findings suggest that the negative inotropy observed in S1P-treated adult mouse ventricular myocytes may consist of two distinctive components: 1) one pathway that acts via G(i) to reduce L-type calcium channel current, blunt calcium-induced calcium release, and decrease [Ca(2+)](i); and 2) a second pathway that acts via G(i) to activate I(K(ACh)) and reduce APD. This decrease in APD is expected to decrease Ca(2+) influx and reduce [Ca(2+)](i) and myocyte contractility. 相似文献
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Potentiometric, visible, infrared, electron spin, and nuclear magnetic resonance studies of the complexation of N-(2-acetamido)iminodiacetic acid (H2ADA) by Ca(II), Mg(II), Mn(II), Zn(II), Co(II), Ni(II), and Cu(II) are reported. Ca(II) and Mg(II) were found not to form 2:1 ADA2- to M(II) complexes, while Mn(II), Cu(II), Ni(II), Zn(II), and Co(II) did form 2:1 metal chelates at or below physiological pH values. Co(II) and Zn(II), but not Cu(II), were found to induce stepwise deprotonation of the amide groups to form [M(H-1ADA)4-(2)]. Formation (affinity) constants for the various metal complexes are reported, and the probable structures of the various metal chelates in solution are discussed on the basis of various spectral data. 相似文献
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John M. Pope Philip R. Stevens Michael T. Angotti Robert Nakon 《Analytical biochemistry》1980,103(1):214-221
Potentiometric, visible, and infrared studies of the complexation of N-(2-acetamido)-2-aminoethanesulfonic acid (ACESH) by Ca(II), Mg(II), Mn(II), Co(II), Zn(II), Ni(II), and Cu(II) are reported. Ca(II), Mg(II), and Mn(II) were found not to complex with ACES?, while Co(II), Zn(II), Ni(II), and Cu(II) were found to form 2:1, ACES? to M2+, complexes, and [Cu(ACES)2] was found to undergo stepwise deprotonation of the amide groups to form [Cu(H?1ACES)22?]. Formation (affinity) constants for the various metal complexes are reported, and the probable structures of the various metal chelates in solution are discussed. 相似文献
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In order to study the metal ion binding of optically active beta-(2-pyridyl)-alpha-alanine, NH2CH(CH2C5H4N)CO2H, Pyala, and beta-(6-methyl-2-pyridyl)-alpha-alanine, NH2CH(CH2C5H3NCH3)CO2H, Mepyala, these pyridine analogs of histidine were synthesized and resolved; absolute configurations were determined for the isolated enatiomers. Protonation constants and formation constants for the binding of L-Pyala, D,L-Pyala, D-Mepyala, and D,L-Mepyala with Cu(II), Ni(II), Co(II), and Zn(II) were determined by potentiometrictitration. They show that the formation constant (Kx) for the reaction, M(L-Pyala) + D-Pyala in equilibrium M(L-Pyala)(D-pyala), is larger (up to 8.7 times larger) than that (K2) for the coordination of the same enantiomer, M(L-Pyala) + L-Pyala in equilibrium M(L-Pyala)2. Although the difference between Kx and K2 can be explained on a statistical basis for Cu(II), the larger differences for Ni(II), Co(II), and Zn(II) demonstrate that their M(L-Pyala)complexes bind D-Pyala more favorably than they do L-Pyala. A similar trend was found for the optical isomers of Mepyala except that the stereoselectivity is less than in the Pyala system. This presumably results from the reduced coordinating ability of the 6-methylpyridyl group as compared to the less crowded pyridyl donor. Using ideas previously applied to the analogous histidine system, the observed stereoselectivities may be explained in terms of the structures of the complexes. 相似文献
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R Nakon 《Analytical biochemistry》1979,95(2):527-532
Formation (affinity) constants for 1:1 complexes of N-(2-acetamido)iminodiacetic acid (ADAH2) with Ca(II), Mg(II), Mn(II), Zn(II), Co(II), Ni(II), and Cu(II) have been determined. Probable structures of the various metal chelates existing in solution are discussed. Values for the deprotonation of the amide group in [Cu(ADA)] and subsequent hydroxo complex formation are also reported. The use of ADA as a buffer is considered in terms of metal buffers complexes which can be formed at physiological pH, i.e., at pH 7.0 there is essentially no free metal ion in 1:1 M2+ to ADA solutions. 相似文献
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