Role of adenosine A1 and A2 receptors in the regulation of aldosterone production in rat adrenal glands

Summary To investigate the roles of adenosine A₁ and A₂ receptors in the regulation of aldosterone production, we examined the effects of adenosine and adenosine agonists (N⁶-cyclohexyl adenosine; selective adenosine A₁ receptor agonist and 5-N-ethylcarboxamine adenosine; selective adenosine A₂ receptor agonist) on aldosterone and cyclic AMP production in rat adrenal capsular cells. Neither adenosine nor 5-N-ethylcarboxamine adenosine caused significant effects on basal aldosterone or cyclic AMP production. Also, adenosine (10^–3M) showed no consistent effects on aldosterone and cyclic AMP production induced by ACTH. On the other hand, N⁶-cyclohexyl adenosine exhibited a significant inhibition of basal aldosterone and cyclic AMP production at doses of 10^–4 M and 10^–3 M; furthermore, 10^–3 M N⁶-cyclohexyl adenosine inhibited aldosterone and cyclic AMP production stimulated by ACTH. These results suggest that adenosine A₁ receptors are coupled to and inhibit adenylate cyclase and may be involved in the inhibition of aldosterone production.     

Purine and pyrimidine receptors

Adenosine 5′-triphosphate (ATP), in addition to its intracellular roles, acts as an extracellular signalling molecule via a rich array of receptors, which have been cloned and characterised. P1 receptors are selective for adenosine, a breakdown product of ATP, produced after degradation by ectonucleotidases. Four subtypes have been identified, A₁, A_2A, A_2B and A₃ receptors. P2 receptors are activated by purines and some subtypes also by pyrimidines. P2X receptors are ligand-gated ion channel receptors and seven subunits have been identified, which form both homomultimers and heteromultimers. P2Y receptors are G protein-coupled receptors, and eight subtypes have been cloned and characterised to date. Received 22 November 2006; received after revision 11 January 2007; accepted 27 February 2007     

Caffeine as a psychomotor stimulant: mechanism of action

The popularity of caffeine as a psychoactive drug is due to its stimulant properties, which depend on its ability to reduce adenosine transmission in the brain. Adenosine A₁ and A_2A receptors are expressed in the basal ganglia, a group of structures involved in various aspects of motor control. Caffeine acts as an antagonist to both types of receptors. Increasing evidence indicates that the psychomotor stimulant effect of caffeine is generated by affecting a particular group of projection neurons located in the striatum, the main receiving area of the basal ganglia. These cells express high levels of adenosine A_2A receptors, which are involved in various intracellular processes, including the expression of immediate early genes and regulation of the dopamine- and cyclic AMP-regulated 32-kDa phosphoprotein DARPP-32. The present review focuses on the effects of caffeine on striatal signal transduction and on their involvement in caffeine-mediated motor stimulation.Received 8 July 2003; received after revision 7 September 2003; accepted 6 October 2003     

Extended and bent conformations of the mannose receptor family

In mammals, the mannose receptor family consists of four members, Endo180, DEC-205, phospholipase A₂ receptor and the mannose receptor. The extracellular domains of all these receptors contain a similar arrangement of domains in which an Nterminal cysteine-rich domain is followed by a single fibronectin type II domain and eight or ten C-type lectin-like domains. This review focuses on the threedimensional structure of the receptors in the mannose receptor family and its functional implication. Recent research has revealed that several members of this family can exist in at least two configurations: an extended conformation with the N-terminal cysteinerich domain pointing outwards from the cell membrane and a bent conformation where the N-terminal domains fold back to interact with C-type lectin-like domains at the middle of the structure. Conformational transitions between these two states seem to regulate the interaction of these receptors with ligands and their oligomerization. Received 25 October 2007; received after revision 23 November 2007; accepted 7 December 2007     

A2 adenosine receptors in human glomerular mesangial cells

A₂ adenosine receptors were characterized in human glomerular mesangial cells using [³H] 5-N-ethylcarboxamidoadenosine (NECA) as a tracer. There was a single group of receptor sites with a K_D of 184 nM, and a number of sites of 317 fmol/mg of cell protein. Adenosine agonists increased 5-nucleotidase activity via A₂ receptor stimulation. The specific A₂ agonist-NECA, at 0.1 and 1 m, was a potent inhibitor of DNA synthesis.     

Luffariellolide,an anti-inflammatory sesterterpene from the marine spongeLuffariella sp.

Summary Luffariellolide (2) is a sesterterpene from the Palauan spongeLuffariella sp. that has useful anti-inflammatory properties. In contrast with the irreversible action of manoalide (1) on phospholipase A₂, luffariellolide (2) is a slightly less potent but partially reversible PLA₂ inhibitor.30 December 1986Acknowledgment We thank Edward Luedtke, Elise Clason and Ellen Snideman for performing some of the assays reported above. The sponge was identified by Dr. Klaus Rützler, Smithsonian Institution, Washington, D.C. The research was supported by grants from Allergan Pharmaceuticals and the California Sea Grant College Program (Projects R/MP-30 and R/MP-31).     

Flippases: still more questions than answers

Our understanding of flippase-mediated lipid translocation and membrane vesiculation, and the involvement of P-type ATPases in these processes is just beginning to emerge. The results obtained so far demonstrate significant complexity within this field and point to major tasks for future research. Most importantly, biochemical characterization of P₄-ATPases is required in order to clarify whether these transporters indeed are capable of catalyzing transmembrane phospholipid flipping. The β-subunit of P₄-ATPases shows unexpected similarities between the β- and γ-subunits of the Na⁺/K⁺-ATPase. It is likely that these proteins provide a similar solution to similar problems, and might have adopted similar structures to accomplish these tasks. No P₄-ATPases have been identified in the endoplasmic reticulum and it remains an intriguing possibility that, in this compartment, P_5A-ATPases are functional homologues of P₄-ATPases. Received 19 June 2008; received after revision 31 July 2008; accepted 15 August 2008     

Malignant hyperthermia: Molecular defects in membrane permeability

Summary Malignant hyperthermia (MH), a genetically inherited disorder of skeletal muscle, is due to molecular defect in membrane permeability. The alteration in membrane permeability is suggested to be due to enhanced phospholipase A₂ activity which is responsible for the increased level in sarcoplasmic Ca²⁺. The excess Ca²⁺ is responsible for muscle hyper-rigidity and enhanced rate of glycolysis, resulting in a rapid rate of lactic acid production and a low pH in MH muscle.     

Arachidonic acid signaling is involved in the mechanism of imidazoline-induced K<Subscript>ATP</Subscript> channel-independent stimulation of insulin secretion

The mechanism by which the novel, pure glucose-dependent insulinotropic, imidazoline derivative BL11282 promotes insulin secretion in pancreatic islets has been investigated. The roles of K_ATP channels, α₂-adrenoreceptors, the I₁-receptor-phosphatidylcholine-specific phospholipase (PC-PLC) pathway and arachidonic acid signaling in BL11282 potentiation of insulin secretion in pancreatic islets were studied. Using SUR1^(-/-) deficient mice, the previous notion that the insulinotropic activity of BL11282 is not related to its interaction with K_ATP channels was confirmed. Insulinotropic activity of BL11282 was not related to its effect on α₂-adrenoreceptors, I₁-imidazoline receptors or PC-PLC. BL11282 significantly increased [³H]arachidonic acid production. This effect was abolished in the presence of the iPLA₂ inhibitor, bromoenol lactone. The data suggest that potentiation of glucose-induced insulin release by BL11282, which is independent of concomitant changes in cytoplasmic free Ca²⁺ concentration, involves release of arachidonic acid by iPLA₂ and its metabolism to epoxyeicosatrienoic acids through the cytochrome P-450 pathway. Received 5 July 2007; received after revision 18 September 2007; accepted 20 September 2007     

Cholinesterases are down-expressed in human colorectal carcinoma

The aberrations of cholinesterase (ChE) genes and the variation of ChE activity in cancerous tissues prompted us to investigate the expression of ChEs in colorectal carcinoma. The study of 55 paired specimens of healthy (HG) and cancerous gut (CG) showed that acetylcholinesterase (AChE) activity fell by 32% and butyrylcholinesterase (BuChE) activity by 58% in CG. Abundant AChE-H, fewer AChE-T, and even fewer AChE-R and BuChE mRNAs were observed in HG, and their content was greatly diminished in CG. The high level of the AChE-H mRNA explains the abundance of AChE-H subunits in HG, which as glycosylphosphatidylinositol (GPI)-anchored amphiphilic AChE dimers (G₂^A) and monomers (G₁^A) account for 69% of AChE activity. The identification of AChE-T and BuChE mRNAs justifies the occurrence in gut of A₁₂, G₄^H and PRiMA-containing G₄^A AChE forms, besides G₄^H, G₄^A and G₁^H BuChE. The down-regulation of ChEs might contribute to gut carcinogenesis by increasing acetylcholine availability and overstimulating muscarinic receptors. Received 19 May 2006; received after revision 5 June 2006; accepted 5 July 2006     

Distribution of the 1,25 dihydroxy-vitamin D3 receptor in the bursa of Fabricius of chicken

The vitamin D₃ metabolite 1,25(OH)₂D₃ is probably involved in B lymphocyte ontogeny. We therefore determined the distribution of the 1,25(OH)₂D₃ receptor in the bursa of Fabricius and spleen cells of 7-day-old chicks, by immunohistochemistry using a monoclonal antibody against the chick intestinal cell 1,25(OH)₂D₃ receptor. The bursa cells of young (7-day-old) chicks contained large amounts of receptor while the spleen cells did not. The bursa cells of older (35-day-old) chicks contained fewer receptors, but the number of receptors in the spleen increased.     

Renal effects of the inhibitor of thromboxane A2-synthetase OKY-046

Summary Acute renal failure (ARF) was associated with increased urinary thromboxane (TXA₂) excretion and lessened excretion of sodium (U_NaV) and fractional excretion of sodium (FE_Na%). The inhibitor of thromboxane A₂-synthetase OKY-046 enhanced sodium excretion and fractional excretion of sodium in normal and saline loaded animals whereas it partially prevented the reduction in sodium excretion and creatinine clearance and significantly increased fractional excretion of sodium in glycerol treated rats suggesting a partial protection against the development of acute renal failure.Acknowledgment. This work was supported by the Public Benefit Foundation Alexander S. Onassis (G-73). We thank ONO Pharmaceutical Co. Ltd, Kissei Pharmaceutical Co. Ltd, Osaka, Japan, and Dr A Hornych for their generous donations of OKY-046 and anti6keto-PGF_1a antibodies respectively.     

Blockade of GABAB receptors accelerates amygdala kindling development

The aim of this study was to investigate the putative role of GABA_B receptors in the development of amygdala kindling in rats. The effects of the GABA_B blocker CGP 35348 and the GABA_B agonist baclofen on the progressive development of behavioural seizure symptoms (stages 1–5 classified by Racine) and duration of afterdischarges (AD) were studied. CGP 35348 at a dose of 300 mg/kg i.p, which blocks central GABA_B receptors, moderately but consistently accelerated the development of behavioural seizure symptoms. CGP 35348 had no marked effect on the duration of ADs corresponding to the different seizure stages. L-baclofen (6 mg/kg i.p.) had a dual effect on kindling development. It retarded the development of the behavioural symptoms, but increased the duration of AD. In conclusion, the results suggest that synaptically-released GABA activated GABA_B receptors and thereby exerted a depressant effect on kindling development.     

Protein kinase C regulation of GABAA receptors

Pharmacological studies with drugs that activate or inhibit several protein kinase C (PKC) isozymes have identified the PKC family of serine-threonine kinases as important in the regulation of -aminobutyric acid type A (GABA_A) receptor function. PKC modulates GABA_A receptor surface density, chloride conductance and receptor sensitivity to positive allosteric modulators such as neurosteroids, ethanol, benzodiazepines and barbiturates. Recent studies using PKC isozyme-selective reagents and gene-targeted mice have begun to identify critical roles for three isozymes, PKCII, PKC and PKC, in various aspects of GABA_A receptor regulation. Progress in this field touches upon therapeutic areas that are of great clinical importance such as anxiety and addiction. Increased understanding of how PKC regulates GABA_A receptors and which PKC isozymes are involved holds promise for development of new treatments for diverse neuropsychiatric disorders.Received 2 August 2004; received after revision 17 August 2004; accepted 21 August 2004     

The possible involvement of protein kinase C and phospholipase A2 inHydra tentacle regeneration

The participation of protein kinase C (PKC) in the regeneration of tentacles ofHydra vulgaris was studied. Regeneration was induced by 1,2-sn-dioctanoyl-glycerol (diC₈) and the novel diterpenoidic diacylglycerol verrucosin B (VB), a potent PKC activator extracted from marine sources. VB substantially increasedHydra average tentacle number (ATN) at concentrations 10,000 times lower than those needed for diC₈ to exert an analogous effect. When both synthetic and natural VB analogues were tested, the structure/activity relationship found inHydra tentacle regeneration was identical to that known for DAG-induced activation of PKC in vitro. VB-induced increase of ATN was strongly counteracted by the PKC inhibitors sphingosine and A3, but was not synergic with a tenfold increase of extracellular Ca²⁺ concentration or with an increase of intracellular Ca²⁺ concentration obtained either with the ionophore A23187 or with thapsigargin. This suggested the involvement of a non-Ca²⁺-dependent PKC in VB-triggeredHydra tentacle regeneration. The involvement of phospholipase A₂ (PLA₂) activation inHydra regenerative processes was studied using the novel site-specific inhibitor of the enzyme, oleyloxyethylphosphorylcholine (OOPC), which brought about a striking inhibition of ATN in the low molar range. This effect was reversed by arachidonic acid (AA), while an enhancement of ATN was also observed with an inhibitor of AA uptake from membrane phospholipids, thus suggesting that PLA₂-catalysed liberation of AA is involved inHydra tentacle regeneration. OOPC also blocked verrucosin B-induced PKC-mediated enhancement of ATN, thus suggesting that this effect is also mediated by PLA₂ activation. ATN was increased also by compound 48/80, a direct activator of pertussis toxin-sensitive GTP-binding proteins, and this effect was counteracted by pertussis toxin pretreatment. None of the known AA cascade inhibitors exhibited an effect on ATN comparable to that exerted by OOPC, but, surprisingly, the cycloxygenase inhibitor indomethacin strongly enhanced ATN, thus suggesting that prostanoids might effect a negative control onHydra regenerative processes. This represents the first attempt so far reported to study the implication of more than one biochemical pathway as a signalling event in the hydroid regenerative processes.     

Participation of the second extracellular loop of claudin-5 in paracellular tightening against ions, small and large molecules

Tight junctions control paracellular permeability. Here, we analyzed the impact of residues in the second extracellular loop (ECL2) of mouse claudin-5 on paracellular permeability. Stable expression of claudin-5_{wild type} in MDCK-II cells—but not that of mutants R145A, Y148A, Y158A or E159Q—increased transepithelial electrical resistance and decreased fluorescein permeation. Expression of claudin-5_Y148A, _Y158A or _E159Q enhanced permeability of FITC-dextran_10 kDa, which was unchanged in cells expressing claudin-5_{wild type} or claudin-5_R145A. In contrast, targeting to tight junctions, strand morphology and tight junction assembly were unchanged. It is concluded that R145 is unessential for trans-interaction of claudin-5, but necessary for tightening against small solutes and ions. The highly conserved residues Y148, Y158 and E159 in ECL2 of claudin-5 contribute to homo- and/or heterophilic trans-interaction between classic claudins and thereby tighten the paracellular space against ions, small and large molecules. These results provide novel insights into the molecular function of tight junctions.     

EP2 receptor stimulation promotes calcium responses in astrocytes via activation of the adenylyl cyclase pathway

Astrocytes are a heterogeneous population of cells that are endowed with a great variety of receptors for neurotransmitters and neuromodulators. Recently prostaglandin E₂ has attracted great interest since it is not only released by astrocytes but also activates receptors coupled to either phospholipase C or adenylyl cyclase. We report that EP₂ receptor stimulation triggers cAMP production but also causes release of Ca²⁺ from intracellular stores. This effect is shared by other receptors similarly coupled to adenylyl cyclase and elicited by direct stimulation of the enzyme or application of cAMP analogues. However, the stimulation of the Ca²⁺ response by cAMP is not mediated by protein kinase A, since a specific antagonist of this kinase had no effect. Such a cross-talk between cAMP and Ca²⁺ was not observed in all astrocytes. It might therefore reflect a specific resource of either a subpopulation or astrocytes in a specific functional state. Received 6 June 2006; received after revision 25 July 2006; accepted 31 August 2006     

Luffolide,a novel anti-inflammatory terpene from the spongeLuffariella sp.

Summary Luffolide (4) is a minor metabolite of the spongeLuffariella sp. from Palau. The structure of luffolide was determined by single crystal X-ray analysis. Luffolide is relatively unstable and undergoes a complex cyclization reaction to give the hexacyclic products5 and6. Luffolide (4) has some of the anti-inflammatory properties of manoalide (1): this may help to define the chemical reaction between manoalide (1) and phospholipase A₂.All crystallographic calculations were done on a PRIME 9950 computer operated by the Cornell Chemistry Computing Facility. Principal programs employed were: FOBS, a data reduction program by G.D. Van Duyne, Cornell University, 1987; MULTAN 80, and RANTAN 80, systems of computer programs for the automatic solution of crystal structures from X-ray diffraction data (locally modified to perform all Fourier calculations including Patterson syntheses) written by P. Main, S. E. Hull, L. Lessinger, G. Germain, J. P. Declercq and M. M. Woolfson, University of York, England, 1980 BDLS, an, anisotropic block diagonal least squares refinement written by K. Hirotsu, E. Arnold, and G. D. Van Duyne, Cornell University, 1987; PLUTO 78, a locally modified crystallographic illustration program by W. D. S. Motherwell, Cambridge Crystallographic Data Centre, 1978; and BOND, a program to calculate molecular parameters and prepare tables written by K. Hirotsu and G. Van Duyne, Cornell University, 1985.Acknowledgment. We thank the Government of the Republic of Palau for a scientific research permit. We thank Dr Klaus Rützler, Smithsonian Institution, Washington, D.C. for identifying the sponge and Mary Kay Harper for performing additional bioassays. This research was supported by grants from the Sea Grant College Programs of California [Projects R/MP-30 to DJF) and R/MP-31 (to RSJ)] and New York (to JC) and the National Institutes of Health (CA 24487 to JC).     

Modulation of chemokine receptor activity through dimerization and crosstalk

Chemokines are small, secreted proteins that bind to the chemokine receptor subfamily of class A G protein-coupled receptors. Collectively, these receptor-ligand pairs are responsible for diverse physiological responses including immune cell trafficking, development and mitogenic signaling, both in the context of homeostasis and disease. However, chemokines and their receptors are not isolated entities, but instead function in complex networks involving homo- and heterodimer formation as well as crosstalk with other signaling complexes. Here the functional consequences of chemokine receptor activity, from the perspective of both direct physical associations with other receptors and indirect crosstalk with orthogonal signaling pathways, are reviewed. Modulation of chemokine receptor activity through these mechanisms has significant implications in physiological and pathological processes, as well as drug discovery and drug efficacy. The integration of signals downstream of chemokine and other receptors will be key to understanding how cells fine-tune their response to a variety of stimuli, including therapeutics. Received 19 October 2008; received after revision 7 November 2008; accepted 11 November 2008 C. L. Salanga, M. O’Hayre: These authors contributed equally.     

Differential vascular effects of neuropeptide Y(NPY) selective receptor agonists

Neuropeptide Y (NPY) increases blood pressure either directly or indirectly by potentiating the effect of various vasoconstrictors. Only one (the Y₁-receptor) of two subtypes of receptors (Y₁ and Y₂) is thought to mediate the vascular smooth muscle contraction. To test this hypothesis we challenged isolated rat mesenteric arteries that had a functional endothelium with (1–36) NPY and with specific Y₁-receptor ([Leu³¹, Pro³⁴] NPY) and Y₂-receptor ([Ahx^5–24, -Glu²--Lys³⁰] NPY) agonists. The Y₁-receptor agonist elicited a contractile response similar to that of NPY, whereas the Y₂-receptor agonist had no effect on wall tension. We also found that the presence of a functional endothelium has no influence on the contractile response to NPY. From these data we conclude that the direct contractile effect of NPY in the mesenteric artery is mediated by stimulation of Y₁-receptors and is not endothelium-dependent.