Bitter taste transduced by PLC-beta(2)-dependent rise in IP(3) and alpha-gustducin-dependent fall in cyclic nucleotides

Current evidence points to the existence of multiple processesfor bitter taste transduction. Previous work demonstrated involvement of the polyphosphoinositide system and an -gustducin(G_gust)-mediated stimulation of phosphodiesterase inbitter taste transduction. Additionally, a taste-enriched G protein-subunit, G₁₃, colocalizes with G_gustand mediates the denatonium-stimulated production of inositol1,4,5-trisphosphate (IP₃). Using quench-flow techniques, weshow here that the bitter stimuli, denatonium and strychnine, inducerapid (50-100 ms) and transient reductions in cAMP and cGMP andincreases in IP₃ in murine taste tissue. This decrease ofcyclic nucleotides is inhibited by G_gust antibodies,whereas the increase in IP₃ is not affected by antibodiesto G_gust. IP₃ production is inhibited byantibodies specific to phospholipase C-₂(PLC-₂), a PLC isoform known to be activated byG-subunits. Antibodies to PLC-₃ or toPLC-₄ were without effect. These data suggest atransduction mechanism for bitter taste involving the rapid andtransient metabolism of dual second messenger systems, both mediatedthrough a taste cell G protein, likely composed ofG_gust//₁₃, with both systems beingsimultaneously activated in the same bitter-sensitive taste receptor cell.

     

Heterologous desensitization of response mediated by selective PKC-dependent phosphorylation of G(i-1) and G(i-2)

This study examined the ability of protein kinase C (PKC) toinduce heterologous desensitization by targeting specific G proteinsand limiting their ability to transduce signals in smooth muscle.Activation of PKC by pretreatment of intestinal smooth muscle cellswith phorbol 12-myristate 13-acetate, cholecystokinin octapeptide, orthe phosphatase 1 and phosphatase 2A inhibitor, calyculin A,selectively phosphorylated G_i-1 and G_i-2,but not G_i-3 or G_o, and blockedinhibition of adenylyl cyclase mediated by somatostatin receptorscoupled to G_i-1 and opioid receptors coupled toG_i-2, but not by muscarinic M₂ and adenosineA₁ receptors coupled to G_i-3. Phosphorylationof G_i-1 and G_i-2 and blockade of cyclaseinhibition were reversed by calphostin C and bisindolylmaleimide, andadditively by selective inhibitors of PKC and PKC. Blockade ofinhibition was prevented by downregulation of PKC. Phosphorylation ofG-subunits by PKC also affected responses mediated by-subunits. Pretreatment of muscle cells withcANP-(4-23), a selective agonist of the natriureticpeptide clearance receptor, NPR-C, which activates phospholipase C(PLC)-3 via the -subunits of G_i-1 andG_i-2, inhibited the PLC- response to somatostatin and[D-Pen^2,5]enkephalin. The inhibition waspartly reversed by calphostin C. Short-term activation of PKC had noeffect on receptor binding or effector enzyme (adenylyl cyclase orPLC-) activity. We conclude that selective phosphorylation ofG_i-1 and G_i-2 by PKC partly accounts forheterologous desensitization of responses mediated by the - and-subunits of both G proteins. The desensitization reflects adecrease in reassociation and thus availability of heterotrimeric G proteins.

     

Intracellular H+ regulates the alpha -subunit of ENaC, the epithelial Na+ channel

Protons regulateelectrogenic sodium absorption in a variety of epithelia, including thecortical collecting duct, frog skin, and urinary bladder. Recently,three subunits (, , ) coding for the epithelial sodium channel(ENaC) were cloned. However, it is not known whether pH regulatesNa⁺ channels directly byinteracting with one of the three ENaC subunits or indirectly byinteracting with a regulatory protein. As a first step to identifyingthe molecular mechanisms of proton-mediated regulation of apicalmembrane Na⁺ permeability inepithelia, we examined the effect of pH on the biophysical propertiesof ENaC. To this end, we expressed various combinations of -, -,and -subunits of ENaC in Xenopusoocytes and studied ENaC currents by the two-electrode voltage-clampand patch-clamp techniques. In addition, the effect of pH on the-ENaC subunit was examined in planar lipid bilayers. We report that ,,-ENaC currents were regulated by changes in intracellular pH(pH_i) but not by changes inextracellular pH (pH_o).Acidification reduced and alkalization increased channel activity by avoltage-independent mechanism. Moreover, a reduction ofpH_i reduced single-channel openprobability, reduced single-channel open time, and increased single-channel closed time without altering single-channel conductance. Acidification of the cytoplasmic solution also inhibited ,-ENaC, ,-ENaC, and -ENaC currents. We conclude thatpH_i but notpH_o regulates ENaC and that the-ENaC subunit is regulated directly bypH_i.     

Lung epithelial barrier function and wound healing are decreased by IL-4 and IL-13 and enhanced by IFN-gamma

To understand theeffects of cytokines on epithelial cells in asthma, we haveinvestigated the effects of interleukin (IL)-4, IL-13, and interferon(IFN)- on barrier function and wound healing in Calu-3 human lungepithelial cells. IL-4 and IL-13 treatment of Calu-3 cells grown onTranswell filters resulted in a 70-75% decrease in barrierfunction as assessed by electrophysiological and[¹⁴C]mannitol flux measurements. In contrast, IFN-enhanced barrier function threefold using these same parameters. Cellstreated concurrently with IFN- and IL-4 or IL-13 showed an initialdecline in barrier function that was reversed within 2 days, resulting in barrier levels comparable to control cells. Analysis of the tightjunction-associated proteins ZO-1 and occludin showed that IL-4 andIL-13 significantly reduced ZO-1 expression and modestly decreasedoccludin expression compared with controls. IFN-, quite unexpectedlygiven its enhancing effect on barrier function, reduced expression ofZO-1 and occludin to almost undetectable levels compared with controls.In wound-healing assays of cells grown on collagen I, IL-4 and IL-13decreased migration, whereas IFN- treatment enhanced migration,compared with control cells. Addition of IFN-, in combination withIL-4 or IL-13, restored migration of cells to control levels. Migrationdifferences observed between the various cytokine treatments wascorrelated with expression of the collagen I-binding₂₁-integrin at the leading edge of cellsat the wound front; ₂₁-integrinexpression was decreased in IFN--treated cells compared withcontrols, whereas it was highest in IL-4- and IL-13-treated cells.These results demonstrate that IL-4 and IL-13 diminish the capacity ofCalu-3 cells to maintain barrier function and repair wounds, whereasIFN- promotes epithelial restitution by enhancing barrier functionand wound healing.

     

Osmotic pressure regulates alpha beta gamma -rENaC expressed in Xenopus oocytes

The hypothesisthat amiloride-sensitive Na⁺channels (ENaC) are involved in cell volume regulation was tested.Anisosmotic ND-20 media (ranging from 70 to 450 mosM) were used tosuperfuse Xenopus oocytes expressing-rat ENaC (-rENaC). Whole cell currents werereversibly dependent on external osmolarity. Under conditions ofswelling (70 mosM) or shrinkage (450 mosM), current amplitude decreasedand increased, respectively. In contrast, there was no change incurrent amplitude of H₂O-injectedoocytes to the above osmotic insults. Currents recorded from-rENaC-injected oocytes were not sensitive to externalCl concentration or to theK⁺ channel inhibitorBaCl₂. They were sensitive toamiloride. The concentration of amiloride necessary to inhibit one-halfof the maximal rENaC current expressed in oocytes(K_i; apparentdissociation constant) decreased in swollen cells and increased inshrunken oocytes. The osmotic pressure-inducedNa⁺ currents showed propertiessimilar to those of stretch-activated channels, including inhibition byGd³⁺ andLa³⁺, and decreased selectivityfor Na⁺.-rENaC-expressing oocytes maintained a nearly constant cell volume in hypertonic ND-20. The present study is the firstdemonstration that -rENaC heterologously expressed inXenopus oocytes may contribute tooocyte volume regulation following shrinkage.

     

Modulation of human neuronal alpha 1E-type calcium channel by alpha 2delta -subunit

Calcium channels are composed of a pore-forming subunit,₁, and at least two auxiliarysubunits, - and₂-subunits. It is well knownthat -subunits regulate most of the properties of the channel. Thefunction of ₂-subunit isless understood. In this study, the effects of the calcium channel₂-subunit on the neuronal_1E voltage-gated calciumchannel expressed in Xenopus oocyteswas investigated without and with simultaneous coexpression of eitherthe _1b- or the_2a-subunit. Most aspects of_1E function were affected by₂. Thus₂ caused a shift in thecurrent-voltage and conductance-voltage curves toward more positivepotentials and accelerated activation, deactivation, and theinstallation of the inactivation process. In addition, the efficiencywith which charge movement is coupled to pore opening assessed bydetermining ratios of limiting conductance to limiting charge movementwas decreased by ₂ byfactors that ranged from 1.6 (P < 0.01) for _1E-channels to 3.0 (P < 0.005) for_1E1b-channels. These results indicate that₂ facilitates the expressionand the maturation of_1E-channels and converts thesechannels into molecules responding more rapidly to voltage.

     

Synergism between toxin-gamma from Brazilian scorpion Tityus serrulatus and veratridine in chromaffin cells

Toxin- (T)from the Brazilian scorpion Tityusserrulatus venom caused a concentration- andtime-dependent increase in the release of norepinephrine andepinephrine from bovine adrenal medullary chromaffin cells. T was~200-fold more potent than veratridine judged fromEC₅₀ values, although the maximalsecretory efficacy of veratridine was 10-fold greater than that of T(1.2 vs. 12 µg/ml of catecholamine release). The combination of both toxins produced a synergistic effect that was particularly drastic at 5 mM extracellular Ca²⁺concentration([Ca²⁺]_o),when 30 µM veratridine plus 0.45 µM T were used. T (0.45 µM) doubled the basal uptake of⁴⁵Ca²⁺,whereas veratridine (100 µM) tripled it. Again, a drastic synergism in enhancing Ca²⁺ entry was seenwhen T and veratridine were combined; this was particularlypronounced at 5 mM[Ca²⁺]_o.Veratridine induced oscillations of cytosolicCa²⁺ concentration([Ca²⁺]_i)in single fura 2-loaded cells without elevation of basal levels. Incontrast, T elevated basal[Ca²⁺]_ilevels, causing only small oscillations. When added together, T andveratridine elevated the basal levels of[Ca²⁺]_iwithout causing large oscillations. T shifted the current-voltage (I-V) curve forNa⁺ channel current to the left.The combination of T with veratridine increased the shift of theI-V curve to the left, resulting in agreater recruitment of Na⁺channels at more hyperpolarizing potentials. This led to enhanced andmore rapid accumulation of Na⁺ inthe cell, causing cell depolarization, the opening of voltage-dependent Ca²⁺ channels, andCa²⁺ entry and secretion.

     

Chemokine expression in CF epithelia: implications for the role of CFTR in RANTES expression

To delineate themechanisms that facilitate leukocyte migration into the cystic fibrosis(CF) lung, expression of chemokines, including interleukin-8 (IL-8),monocyte chemoattractant protein-1 (MCP-1), andRANTES, was compared between CF and non-CF airway epithelia. Thefindings presented herein demonstrate that, under either basalconditions or tumor necrosis factor- (TNF-)- and/or interferon- (IFN-)-stimulated conditions, a consistent pattern ofdifferences in the secretion of IL-8 and MCP-1 between CF and non-CFepithelial cells was not observed. In contrast, CF epithelial cellsexpressed no detectable RANTES protein or mRNA under basal conditionsor when stimulated with TNF- and/or IFN-(P  0.05), unlike their non-CFcounterparts. Correction of the CF transmembrane conductance regulator(CFTR) defect in CF airway epithelial cells restored the induction ofRANTES protein and mRNA by TNF- in combination with IFN-(P  0.05) but had little effect onIL-8 or MCP-1 production compared with mock controls. Transfection studies utilizing RANTES promoter constructs suggested that CFTR activates the RANTES promoter via a nuclear factor-B-mediated pathway. Together, these results suggest that1) RANTES expression is altered inCF epithelia and 2) epithelialexpression of RANTES, but not IL-8 or MCP-1, is dependent on CFTR.     

alpha -Adrenergic receptors regulate human lymphocyte amiloride-sensitive sodium channels

Two independentsignal transduction pathways regulate lymphocyte amiloride-sensitivesodium channels (ASSCs), one utilizing cAMP as a second messenger andthe other utilizing a GTP-binding protein. This implies that two plasmamembrane receptors play a role in the regulation of lymphocyte ASSCs.In this study, we tested the hypothesis that₁- and₂-adrenergic receptorsindependently regulate lymphocyte ASSCs via the two previouslyidentified second messengers. Direct measurements indicated thatnorepinephrine increased lymphocyte cAMP and activated ASSCs. The₂-specific inhibitor,yohimbine, blocked this activation, thereby linking ₂-adrenergic receptors to ASSCregulation via cAMP. The₁-specific ligand, terazosin,acted as an agonist and activated lymphocyte ASSCs but inhibited ASSCcurrent that had been preactivated by norepinephrine or8-(4-chlorophenylthio) (CPT)-cAMP. Terazosin had no effect on thelymphocyte whole cell ASSC currents preactivated by treatment withpertussis toxin. This finding indirectly links ₁-adrenergic receptors tolymphocyte ASSC regulation via GTP-binding proteins. Terazosin had nodirect inhibitory or stimulatory effects on ,,-endothelialsodium channels reconstituted into planar lipid bilayers and expressedin Xenopus oocytes, ruling out a direct interaction between terazosin and the channels. These findings support the hypothesis that both₁- and₂-adrenergic receptors independently regulate lymphocyte ASSCs via GTP-binding proteins andcAMP, respectively.

     

Role of beta 1- and beta 3-adrenoceptors in the regulation of lipolysis and thermogenesis in rat brown adipocytes

To evaluate the physiological functions of₁-,₂-, and₃-adrenoceptors (ARs) in brownadipose tissue, the lipolytic and respiratory effects of variousadrenergic agonists and antagonists were studied in rat brownadipocytes. The -agonists stimulated both lipolysis and respiration(8-10 times above basal levels), with the following order ofpotency (concentration eliciting 50% of maximum response):CL-316243 (₃) > BRL-37344(₃) > isoproterenol (mainly₁/₂) > norepinephrine (NE; mainly₁/₂) > epinephrine (mainly₁/₂) dobutamine (₁)  procaterol (₂). Schild plot coefficients of competitive inhibition experiments using ICI-89406 (₁ antagonist) revealed thatmore than one type of receptor mediates NE action. It is concluded fromour results that 1) NE, at low plasma levels (1-25 nM), stimulates lipolysis and respiration mainly through ₁-ARs,2) NE, at higher levels, stimulateslipolysis and respiration via both₁- and₃-ARs,3)₂-ARs play only a minor role,and 4)₃-ARs may represent thephysiological receptors for the high NE concentrations in the synapticcleft, where the high-affinity₁-ARs are presumablydesensitized. It is also suggested that lipolysis represents theflux-generating step regulating mitochondrial respiration.

     

Carbachol-induced desensitization of PLC-beta pathway in rat myometrium: downregulation of Gqalpha /G11alpha

In the estrogen-treated rat myometrium, carbachol increased thegeneration of inositol phosphates by stimulating the muscarinic receptor-G_q/G₁₁-phospholipaseC-3 (PLC-3) cascade. Exposure to carbachol resulted in a rapidand specific (homologous) attenuation of the subsequent muscarinicresponses in terms of inositol phosphate production, PLC-3translocation to membrane, and contraction. Refractoriness wasaccompanied by a reduction of membrane muscarinic binding sites and anuncoupled state of residual receptors. Protein kinase C (PKC) alteredthe functionality of muscarinic receptors and contributed to theinitial period of desensitization. A delayed phase of the muscarinicrefractoriness was PKC independent and was associated with adownregulation ofG_q/G₁₁.Atropine failed to induce desensitization as well asG_q/G₁₁downregulation, indicating that both events involve active occupancy ofthe receptor. Prolonged exposure toAlF₄ reduced subsequent AlF₄ as well as carbachol-mediatedinositol phosphate responses and similarly induced downregulation ofG_q/G₁₁. Data suggest that a decrease in the level ofG_q/G₁₁is subsequent to its activation and may account forheterologous desensitization.

     

Interaction of alpha- and beta-subunits in native H-K-ATPase and cultured cells transfected with H-K-ATPase beta-subunit

The assembly of the -subunit of thegastric H-K-ATPase (HK) with the -subunit of the H-K-ATPase orthe Na-K-ATPase (NaK) was characterized with two anti-HKmonoclonal antibodies (MAbs). In fixed gastric oxyntic cells, inH-K-ATPase in vitro, and in Madin-Darby canine kidney (MDCK) cellstransfected with HK, MAb 2/2E6 was observed to bind to HK onlywhen interactions between - and -subunits were disrupted byvarious denaturants. The epitope for MAb 2/2E6 was mapped to thetetrapeptide S₂₂₆LHY₂₂₉ of the extracellulardomain of HK. The epitope for MAb 2G11 was mapped to the eightNH₂-terminal amino acids of the cytoplasmic domain ofHK. In transfected MDCK cells, MAb 2G11 could immunoprecipitate HK with -subunits of the endogenous cell surface NaK, as well as that from early in the biosynthetic pathway, whereas MAb 2/2E6 immunoprecipitated only a cohort of unassembled endoglycosidase H-sensitive HK. In HK-transfected LLC-PK₁ cells,significant immunofluorescent labeling of HK at the cell surfacecould be detected without postfixation denaturation or in live cells,although a fraction of transfected HK could also becoimmunoprecipitated with NaK. Thus assembly of HK with NaKdoes not appear to be a stringent requirement for cell surface deliveryof HK in LLC-PK₁ cells but may be required in MDCKcells. In addition, endogenous posttranslational regulatory mechanismsto prevent hybrid - heterodimer assembly appear to be compromisedin transfected cultured renal epithelial cells. Finally, theextracellular epitope for assembly-sensitive MAb 2/2E6 may represent aregion of HK that is associated with - interaction.

     

Regulation of a cloned epithelial Na+ channel by its beta - and gamma -subunits

Using the Xenopus oocyteexpression system, we examined the mechanisms by which the - and-subunits of an epithelial Na⁺channel (ENaC) regulate -subunit channel activity and the mechanisms by which -subunit truncations cause ENaC activation. Expression of-ENaC alone produced small amiloride-sensitive currents (43 ± 10 nA, n = 7). These currentsincreased >30-fold with the coexpression of - and -ENaC to1,476 ± 254 nA (n = 20).This increase was accompanied by a 3.1- and 2.7-fold increase ofmembrane fluorescence intensity in the animal and vegetal poles of theoocyte, respectively, with use of an antibody directed against the-subunit of ENaC. Truncation of the last 75 amino acids of the-subunit COOH terminus, as found in the original pedigree ofindividuals with Liddle's syndrome, caused a 4.4-fold(n = 17) increase of theamiloride-sensitive currents compared with wild-type -ENaC.This was accompanied by a 35% increase of animal pole membranefluorescence intensity. Injection of a 30-amino acid peptide withsequence identity to the COOH terminus of the human -ENaCsignificantly reduced the amiloride-sensitive currents by 40-50%.These observations suggest a tonic inhibitory role on the channel'sopen probability (P_o) by the COOH terminus of -ENaC. We conclude that the changes of current observed with coexpression of the - and -subunits or those observed with -subunit truncation are likely the result ofchanges of channel density in combination with large changes ofP_o.

     

The gamma-subunit of ENaC is more important for channel surface expression than the beta-subunit

The amiloride-sensitiveepithelial sodium channel (ENaC) plays a critical role in fluid andelectrolyte homeostasis and is composed of three homologous subunits:, , and . Only heteromultimeric channels made of ENaCare efficiently expressed at the cell surface, resulting in maximallyamiloride-sensitive currents. To study the relative importance ofvarious regions of the - and -subunits for the expression offunctional ENaC channels at the cell surface, we constructedhemagglutinin (HA)-tagged --chimeric subunits composed of -and -subunit regions and coexpressed them with HA-tagged - and-subunits in Xenopus laevis oocytes. The whole cellamiloride-sensitive sodium current (I_ami) andsurface expression of channels were assessed in parallel using thetwo-electrode voltage-clamp technique and a chemiluminescence assay.Because coexpression of ENaC resulted in largerI_ami and surface expression compared withcoexpression of ENaC, we hypothesized that the -subunit ismore important for ENaC trafficking than the -subunit. Usingchimeras, we demonstrated that channel activity is largely preservedwhen the highly conserved second cysteine rich domains (CRD2) of the- and -subunits are exchanged. In contrast, exchanging the wholeextracellular loops of the - and the -subunits largely reducedENaC currents and ENaC expression in the membrane. This indicates thatthere is limited interchangeability between molecular regions of thetwo subunits. Interestingly, our chimera studies demonstrated that theintracellular termini and the two transmembrane domains of ENaC aremore important for the expression of functional channels at the cellsurface than the corresponding regions of ENaC.

     

Overexpression of protein kinase C-delta increases tight junction permeability in LLC-PK1 epithelia

The Ca²⁺-independent-isoform of protein kinase C (PKC-) was overexpressed inLLC-PK₁ epithelia and placed undercontrol of a tetracycline-responsive expression system. In the absenceof tetracycline, the exogenous PKC- is expressed. Westernimmunoblots show that the overexpressed PKC- is found in thecytosolic, membrane-associated, and Triton-insoluble fractions.Overexpression of PKC- produced subconfluent and confluentepithelial morphologies similar to that observed on exposure ofwild-type cells to the phorbol ester 12-O-tetradecanoylphorbol-13-acetate. Transepithelialelectrical resistance(R_T) in cellsheets overexpressing PKC- was only 20% of that in cell sheetsincubated in the presence of tetracycline, in which the amount ofPKC- and R_Twere similar to those in LLC-PK₁ parental cell sheets. Overexpression of PKC- also elicited a significant increase in transepithelial flux ofD-[¹⁴C]mannitoland a radiolabeled 2 × 10⁶-molecular-weight dextran,suggesting with theR_T decrease that overexpression increased paracellular, tight junctional permeability. Electron microscopy showed that PKC- overexpression results in amultilayered cell sheet, the tight junctions of which are almost uniformly permeable to ruthenium red. Freeze-fracture electron microscopy indicates that overexpression of PKC- results in a moredisorganized arrangement of tight junctional strands. As withLLC-PK₁ cell sheets treated with12-O-tetradecanoylphorbol-13-acetate, the reducedR_T, increasedD-mannitol flux, and tightjunctional leakiness to ruthenium red that are seen with PKC-overexpression suggest the involvement of PKC- in regulation oftight junctional permeability.

     

An immunologically distinct beta -adaptin on tubulovesicles of gastric oxyntic cells

Clathrin and the -adaptin subunit of the AP-1 clathrinadaptor have been previously identified on H-K-ATPase-richtubulovesicles from gastric acid secretory (oxyntic) cells [C. T. Okamoto, S. M. Karam, Y. Y. Jeng, J. G. Forte, and J. Goldenring.Am. J. Physiol. 274 (Cell Physiol. 43):C1017-C1029]. We further characterized this AP-1 adaptorfrom rabbit and hog tubulovesicles biochemically and immunologically.Clathrin coat proteins were stripped from purified tubulovesicularmembranes and fractionated by hydroxyapatite chromatography. The AP-1adaptor appears to elute at 200 mM sodium phosphate, based on thepresence of proteins in this fraction that are immunoreactive withantibodies against three of the four subunits of this heterotetramericcomplex: the -, µ₁-, and₁-adaptin subunits. Althoughthe putative -adaptin subunit in this fraction is not immunoreactivewith the anti--adaptin monoclonal antibody (MAb), this -adaptinis immunoreactive with polyclonal antibodies (PAbs) directed againstthe peptide sequenceGly⁶²⁵-Asp-Leu-Leu-Gly-Asp-Leu-Leu-Asn-Leu-Asp-Leu-Gly-Pro-Pro-Val⁶⁴⁰,a region conserved between ₁-and ₂-adaptins that is thought to be involved in the binding of clathrin heavy chain.Immunoprecipitation of the AP-1 adaptor complex from this fraction withanti--adaptin MAb 100/3 resulted in the coimmunoprecipitation of the-adaptin that did not react with the anti--adaptin MAb but didreact with the anti--adaptin PAbs. In contrast, immunoprecipitationof the AP-1 adaptor complex from crude clathrin-coated vesicles from brain resulted in the coimmunoprecipitation of a -adaptin that wasrecognized by both the anti--adaptin MAb and PAbs. These resultssuggest that the tubulovesicular AP-1 adaptor complex may be distinctfrom that found in the trans-Golgi network and may contain animmunologically distinct -adaptin. This immunologically distinct-adaptin may be diagnostic of apical tubulovesicular endosomes ofepithelial cells.

     

Regulation of intracellular polyamine biosynthesis and transport by NO and cytokines TNF-alpha and IFN-gamma

Nitric oxide (NO)has been described to exert cytostatic effects on cellularproliferation; however the mechanisms responsible for these effectshave yet to be fully resolved. Polyamines, conversely, are requiredcomponents of cellular proliferation. In experimental models ofinflammation, a relationship between these two pathways has beensuggested by the temporal regulation of a common precursor, arginine.This study was undertaken to determine the effects NO and the NOsynthase (NOS)-inducing cytokines, tumor necrosis factor- (TNF-)and interferon- (IFN-), exert on polyamine regulation. Thetransformed kidney proximal tubule cell line, MCT, maintains highconstitutive levels of the first polyamine biosynthetic enzyme, ornithine decarboxylase (ODC). NO donors markedly suppressed ODC activity in MCT and all other cell lines examined. TNF- and IFN- induction of NO generation resulted in suppressed ODC activity, aneffect prevented by the inducible NOS inhibitorL-N⁶-(1-iminoethyl)lysine(L-NIL). Dithiothreitol reversalof NO-mediated ODC suppression supports nitrosylation as the mechanismof inactivation. We also evaluated polyamine uptake, inasmuch asinhibition of ODC can result in a compensatory induction of polyaminetransporters. Administration of NO donors, or TNF- and IFN-,suppressed[³H]putrescine uptake,thereby preventing transport-mediated reestablishment of intracellularpolyamine levels. This study demonstrates the capacity of NO andinflammatory cytokines to regulate both polyamine biosynthesis and transport.     

Antisense oligodeoxynucleotide to PKC-delta blocks alpha 1-adrenergic activation of Na-K-2Cl cotransport

A role for protein kinase C (PKC)- and -isotypes in ₁-adrenergicregulation of human tracheal epithelial Na-K-2Cl cotransport wasstudied with the use of isotype-specific PKC inhibitors and antisenseoligodeoxynucleotides to PKC- or - mRNA. Rottlerin, a PKC-inhibitor, blocked 72% of basolateral-to-apical, bumetanide-sensitive ³⁶Cl flux innystatin-permeabilized cell monolayers stimulated with methoxamine, an₁-adrenergic agonist, with a50% inhibitory concentration of 2.3 µM. Methoxamine increased PKCactivity in cytosol and a particulate fraction; the response wasinsensitive to PKC- and -_IIisotype-specific inhibitors, but was blocked by general PKC inhibitorsand rottlerin. Rottlerin also inhibited methoxamine-induced PKCactivity in immune complexes of PKC-, but not PKC-. At the subcellular level, methoxamine selectively elevated cytosolic PKC-activity and particulate PKC- activity. Pretreatment of cellmonolayers with antisense oligodeoxynucleotide to PKC- for 48 hreduced the amount of whole cell and cytosolic PKC-, diminished whole cell and cytosolic PKC- activity, and blockedmethoxamine-stimulated Na-K-2Cl cotransport. Sense oligodeoxynucleotideto PKC- and antisense oligodeoxynucleotide to PKC- did not altermethoxamine-induced cotransport activity. These results demonstrate theselective activation of Na-K-2Cl cotransport by cytosolic PKC-.

     

PPAR-gamma ligands modulate effects of LPS in stimulated rat synovial fibroblasts

This work demonstrated the constitutive expressionof peroxisome proliferator-activated receptor (PPAR)- and PPAR-in rat synovial fibroblasts at both mRNA and protein levels. A decrease in PPAR- expression induced by 10 µg/ml lipopolysaccharide (LPS) was observed, whereas PPAR- mRNA expression was not modified. 15-Deoxy-^12,14-prostaglandin J₂(15d-PGJ₂) dose-dependently decreased LPS-induced cyclooxygenase (COX)-2 (80%) and inducible nitric oxide synthase (iNOS) mRNA expression (80%), whereas troglitazone (10 µM) only inhibited iNOS mRNA expression (50%). 15d-PGJ₂ decreasedLPS-induced interleukin (IL)-1 (25%) and tumor necrosis factor(TNF)- (40%) expression. Interestingly, troglitazone stronglydecreased TNF- expression (50%) but had no significant effect onIL-1 expression. 15d-PGJ₂ was able to inhibitDNA-binding activity of both nuclear factor (NF)-B and AP-1.Troglitazone had no effect on NF-B activation and was shown toincrease LPS-induced AP-1 activation. 15d-PGJ₂ andtroglitazone modulated the expression of LPS-induced iNOS, COX-2, andproinflammatory cytokines differently. Indeed, troglitazone seems tospecifically target TNF- and iNOS pathways. These results offer newinsights in regard to the anti-inflammatory potential of the PPAR-ligands and underline different mechanisms of action of15d-PGJ₂ and troglitazone in synovial fibroblasts.

     

Interferon-gamma has immunomodulatory effects with minor endocrine and metabolic effects in humans

To evaluatewhether interferon- (IFN-) is involved in the interaction betweenthe immune and endocrine systems in vivo, we studied six healthysubjects twice in a placebo-controlled trial: once after administrationof recombinant human IFN- and, on another occasion, afteradministration of saline. The rate of appearance of glucose wasdetermined by infusion of[6,6-²H₂]glucoseand resting energy expenditure by indirect calorimetry. Human leukocyteantigen-DR gene expression on monocytes and serum neopterin increased after administration of IFN-(P < 0.05 vs. control). IFN-increased serum interleukin-6 levels significantly. Levels of tumornecrosis factor- remained below detection limits. IFN- increasedplasma concentrations of ACTH and cortisol(P < 0.05 vs. control), IFN- didnot alter concentrations of growth hormone,(nor)epinephrine, insulin, C peptide, glucagon, or insulin-like growthfactor I. IFN- did not alter plasma concentrations of glucose andfree fatty acids nor the rate of appearance of glucose. IFN-increased resting energy expenditure significantly. We conclude thatIFN- is a minor stimulator of the endocrine and metabolic pathways.Therefore, IFN- by itself is probably not a major mediator in theinteraction between the immune and the endocrine and metabolic systems.