Diacylglycerol and ceramide formation induced by dopamine D2S receptors via Gbeta gamma -subunits in Balb/c-3T3 cells

Diacylglycerol (DAG)and ceramide are important second messengers affecting cell growth,differentiation, and apoptosis. Balb/c-3T3 fibroblast cellsexpressing dopamine-D2S (short) receptors (Balb-D2S cells) provide amodel of G protein-mediated cell growth and transformation. In Balb-D2Scells, apomorphine (EC₅₀ = 10 nM) stimulated DAG and ceramide formation by 5.6- and 4.3-fold, respectively, maximal at1 h and persisting over 6 h. These actions were blocked by pretreatment with pertussis toxin (PTX), implicatingG_i/G_o proteins. To address which G proteins areinvolved, Balb-D2S clones expressing individual PTX-insensitiveG_i proteins were treated with PTX and tested forapomorphine-induced responses. Neither PTX-insensitive G_i2 nor G_i3 rescued D2S-induced DAG orceramide formation. Both D2S-induced DAG and ceramide signals requiredG-subunits and were blocked by inhibitors of phospholipaseC[1-(6-[([17]-3-methoxyestra-1,2,3[10]-trien- 17yl)amino]hexyl)-1H-pyrrole-2,5-dione(U-73122) and partially by D609]. The similar G protein specificity ofD2S-induced calcium mobilization, DAG, and ceramide formation indicatesa common G-dependent phospholipase C-mediated pathway. Both D2agonists and ceramide specifically induced mitogen-activated proteinkinase (ERK1/2), suggesting that ceramide mediates a novel pathway ofD2S-induced ERK1/2 activation, leading to cell growth.

     

Relationship between intracellular pH and chloride in Xenopus oocytes expressing the chloride channel ClC-0

During maturation of oocytes,Cl conductance (G_Cl) oscillatesand intracellular pH (pH_i) increases. ElevatingpH_i permits the protein synthesis essential to maturation.To examine whether changes in G_Cl andpH_i are coupled, the Cl channel ClC-0 washeterologously expressed. Overexpressing ClC-0 elevatespH_i, decreases intracellular Cl concentration([Cl]_i), and reduces volume. Acuteacidification with butyrate does not activate acid extrusion inClC-0-expressing or control oocytes. The ClC-0-induced pH_ichange increases after overnight incubation at extracellular pH 8.5 butis unaltered after incubation at extracellular pH 6.5. Membranedepolarization did not change pH_i. In contrast, hyperpolarization elevates pH_i. Thus neither membranedepolarization nor acute activation of acid extrusion accounts for theClC-0-dependent alkalinization. Overnight incubation in lowextracellular Cl concentration increases pH_iand decreases [Cl]_i in control and ClC-0expressing oocytes, with the effect greater in the latter. Incubationin hypotonic, low extracellular Cl solutions preventedpH_i elevation, although the decrease in[Cl]_i persisted. Taken together, ourobservations suggest that KCl loss leads to oocyte shrinkage, whichtransiently activates acid extrusion. In conclusion, expressing ClC-0in oocytes increases pH_i and decreases[Cl]_i. These parameters are coupled viashrinkage activation of proton extrusion. Normal, cyclical changes ofoocyte G_Cl may exert an effect onpH_i via shrinkage, thus inducing meiotic maturation.

     

Duality of G protein-coupled mechanisms for beta-adrenergic activation of NKCC activity in skeletal muscle

Skeletal muscleNa⁺-K⁺-2Cl cotransporter (NKCC)activity provides a potential mechanism for regulated K⁺uptake. -Adrenergic receptor (-AR) activation stimulatesskeletal muscle NKCC activity in a MAPK pathway-dependent manner. Weexamined potential G protein-coupled pathways for -AR-stimulatedNKCC activity. Inhibition of G_s-coupled PKA blockedisoproterenol-stimulated NKCC activity in both the slow-twitch soleusmuscle and the fast-twitch plantaris muscle. However, thePKA-activating agents cholera toxin, forskolin, and 8-bromo-cAMP(8-BrcAMP) were not sufficient to activate NKCC in the plantaris andpartially stimulated NKCC activity in the soleus.Isoproterenol-stimulated NKCC activity in the soleus was abolished bypretreatment with pertussis toxin (PTX), indicating aG_i-coupled mechanism. PTX did not affect the8-BrcAMP-stimulated NKCC activity. PTX treatment also precluded theisoproterenol-mediated ERK1/2 MAPK phosphorylation in the soleus,consistent with NKCC's MAPK dependency. Inhibition ofisoproterenol-stimulated ERK activity by PTX treatment was associatedwith an increase in Akt activation and phosphorylation of Raf-1 on theinhibitory residue Ser²⁵⁹. These results demonstrate anovel, muscle phenotype-dependent mechanism for -AR-mediated NKCCactivation that involves both G_s and G_iprotein-coupled mechanisms.

     

Role of alpha(v)beta(3)-integrin in TNF-alpha-induced endothelial cell migration

Tumor necrosis factor- (TNF-), oneof the major inflammatory cytokines, is known to influence endothelialcell migration. In this study, we demonstrate that exposure of calfpulmonary artery endothelial cells to TNF- caused an increase in theformation of membrane protrusions and cell migration. Fluorescencemicroscopy revealed an increase in _v3focal contacts but a decrease in ₅₁ focalcontacts in TNF--treated cells. In addition, both cell-surface andtotal cellular expression of _v3-integrinsincreased significantly, whereas the expression of₅₁-integrins was unaltered. Only focalcontacts containing _v3- but not₅₁-integrins were present in membraneprotrusions of cells at the migration front. In contrast, robust focalcontacts containing ₅₁-integrins were present in cells behind the migration front. A blocking antibody to_v3, but not a blocking antibody to₅-integrins, significantly inhibited TNF--inducedcell migration. These results indicate that in response to TNF-,endothelial cells may increase the activation and ligation of_v3 while decreasing the activation andligation of ₅₁-integrins to facilitatecell migration, a process essential for vascular wound healing and angiogenesis.

     

Ouabain and substrate affinities of human Na(+)-K(+)-ATPase alpha(1)beta(1), alpha(2)beta(1), and alpha(3)beta(1) when expressed separately in yeast cells

HumanNa⁺-K⁺-ATPase₁₁,₂₁, and ₃₁heterodimers were expressed individually in yeast, and ouabainbinding and ATP hydrolysis were measured in membrane fractions. Theouabain equilibrium dissociation constant was 13-17 nM for₁₁ and ₃₁at 37°C and 32 nM for ₂₁, indicatingthat the human -subunit isoforms have a similar high affinity forcardiac glycosides. K_0.5 values for antagonism of ouabain binding by K⁺ were ranked in order as follows:₂ (6.3 ± 2.4 mM) > ₃(1.6 ± 0.5 mM)  ₁ (0.9 ± 0.6 mM),and K_0.5 values for Na⁺ antagonismof ouabain binding to all heterodimers were 9.5-13.8 mM. Themolecular turnover for ATP hydrolysis by₁₁ (6,652 min¹) was abouttwice as high as that by ₃₁ (3,145 min¹). These properties of the human heterodimersexpressed in yeast are in good agreement with properties of the humanNa⁺-K⁺-ATPase expressed in Xenopusoocytes (G Crambert, U Hasler, AT Beggah, C Yu, NN Modyanov, J-DHorisberger, L Lelievie, and K Geering. J Biol Chem275: 1976-1986, 2000). In contrast to Na⁺ pumpsexpressed in Xenopus oocytes, the₂₁ complex in yeast membranes wassignificantly less stable than ₁₁ or₃₁, resulting in a lower functionalexpression level. The ₂₁ complex was also more easily denatured by SDS than was the₁₁ or the₃₁ complex.

     

Regulation of ATP-sensitive K(+) channels by protein kinase C in murine colonic myocytes

We investigated the regulation ofATP-sensitive K⁺ (K_ATP) currents in murinecolonic myocytes with patch-clamp techniques. Pinacidil(10⁵ M) activated inward currents in the presence of highexternal K⁺ (90 mM) at a holding potential of 80 mV indialyzed cells. Glibenclamide (10⁵ M) suppressedpinacidil-activated current. Phorbol 12,13-dibutyrate (PDBu; 2 × 10⁷ M) inhibited pinacidil-activated current.4--Phorbol ester (5 × 10⁷ M), an inactive formof PDBu, had no effect on pinacidil-activated current. In cell-attachedpatches, the open probability of K_ATP channels wasincreased by pinacidil, and PDBu suppressed openings ofK_ATP channels. When cells were pretreated withchelerythrine (10⁶ M) or calphostin C (10⁷M), inhibition of the pinacidil-activated whole cell currents by PDBuwas significantly reduced. In cells studied with the perforated patchtechnique, PDBu also inhibited pinacidil-activated current, and thisinhibition was reduced by chelerythrine (10⁶ M).Acetylcholine (ACh; 10⁵ M) inhibited pinacidil-activatedcurrents, and preincubation of cells with calphostin C(10⁷ M) decreased the effect of ACh. Cells dialyzed withprotein kinase C -isoform (PKC) antibody had normal responses topinacidil, but the effects of PDBu and ACh on K_ATP wereblocked in these cells. Immunofluorescence and Western blots showedexpression of PKC in intact muscles and isolated smooth muscle cellsof the murine proximal colon. These data suggest that PKC regulates K_ATP in colonic muscle cells and that the effects of ACh onK_ATP are largely mediated by PKC. PKC appears to be themajor isozyme that regulates K_ATP in murine colonic myocytes.

     

Upregulation of alpha(8)beta(1)-integrin in cardiac fibroblast by angiotensin II and transforming growth factor-beta1

Using a novel pharmacological tool with¹²⁵I-echistatin to detect integrins on the cell, we haveobserved that cardiac fibroblasts harbor five different RGD-bindingintegrins: ₈₁,₃₁, ₅₁, _v1, and _v3.Stimulation of cardiac fibroblasts by angiotensin II (ANG II) ortransforming growth factor-1 (TGF-1) resulted in an increase ofprotein and heightening by 50% of the receptor density of₈₁-integrin. The effect of ANG II wasblocked by an AT₁, but not an AT₂, receptorantagonist, or by an anti-TGF-1 antibody. ANG II and TGF-1increased fibronectin secretion, smooth muscle -actin synthesis, andformation of actin stress fibers and enhanced attachment of fibroblaststo a fibronectin matrix. The ₈- and₁-subunits were colocalized by immunocytochemistry with vinculin or ₃-integrin at focal adhesion sites.These results indicate that ₈₁-integrinis an abundant integrin on rat cardiac fibroblasts. Its positivemodulation by ANG II and TGF-1 in a myofibroblast-likephenotype suggests the involvement of₈₁-integrin in extracellularmatrix protein deposition and cardiac fibroblast adhesion.

     

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.

     

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.

     

Astrocytes from Na(+)-K(+)-Cl(-) cotransporter-null mice exhibit absence of swelling and decrease in EAA release

We reported previously that inhibition ofNa⁺-K⁺-Cl cotransporter isoform 1 (NKCC1) by bumetanide abolishes high extracellular K⁺concentration ([K⁺]_o)-induced swelling andintracellular Cl accumulation in rat cortical astrocytes.In this report, we extended our study by using cortical astrocytes fromNKCC1-deficient (NKCC1^/) mice. NKCC1 protein andactivity were absent in NKCC1^/ astrocytes.[K⁺]_o of 75 mM increased NKCC1 activityapproximately fourfold in NKCC1^+/+ cells (P < 0.05) but had no effect in NKCC1^/ astrocytes.Intracellular Cl was increased by 70% inNKCC1^+/+ astrocytes under 75 mM[K⁺]_o (P < 0.05) butremained unchanged in NKCC1^/ astrocytes. Baselineintracellular Na⁺ concentration([Na⁺]_i) in NKCC1^+/+ astrocyteswas 19.0 ± 0.5 mM, compared with 16.9 ± 0.3 mM[Na⁺]_i in NKCC1^/ astrocytes(P < 0.05). Relative cell volume ofNKCC1^+/+ astrocytes increased by 13 ± 2% in 75 mM[K⁺]_o, compared with a value of 1.0 ± 0.5% in NKCC1^/ astrocytes (P < 0.05).Regulatory volume increase after hypertonic shrinkage was completelyimpaired in NKCC1^/ astrocytes.High-[K⁺]_o-induced ¹⁴C-labeledD-aspartate release was reduced by ~30% inNKCC1^/ astrocytes. Our study suggests that stimulationof NKCC1 is required for high-[K⁺]_o-inducedswelling, which contributes to glutamate release from astrocytes underhigh [K⁺]_o.

     

Targeted expression of activated Q227L G(alpha)(s) in vivo

We reportthe creation of transgenic mice with an inducible, tissue-targetedexpression of a constitutively active mutant form (Q227L) ofG_s. Mice expressing activated G_s in fattissue, liver, and skeletal muscle displayed normal body mass andblunted glucose metabolism. cAMP accumulation in adipose tissue wasincreased in the basal state, but far less than would be expected.Marked adaptation to elevated cAMP levels occurred, leading to anincrease in total cAMP-specific phosphodiesterase activity, a 50%decline in cAMP-dependent protein kinase (protein kinase A) activity, and an increased expression of G_i2. The reduction inkinase activity coincided with >50% increase in the expression ofRI and RII regulatory subunits of protein kinase A, with nochange in the amount of catalytic subunit. These data demonstrate theexistence of adaptive responses of protein kinase A, phosphodiesterase, and G_i2 in tissues expressing constitutively activeG_s that may act to rectify the impact of increased cAMP accumulation.

     

Regulation of epithelial transport and barrier function by distinct protein kinase C isoforms

The phorbol ester phorbol12-myristate 13-acetate (PMA) inhibits Cl secretion(short-circuit current, I_sc) and decreasesbarrier function (transepithelial resistance, TER) in T84 epithelia. To elucidate the role of specific protein kinase C (PKC) isoenzymes inthis response, we compared PMA with two non-phorbol activators of PKC(bryostatin-1 and carbachol) and utilized three PKC inhibitors (Gö-6850, Gö-6976, and rottlerin) with different isozymeselectivity profiles. PMA sequentially inhibited cAMP-stimulatedI_sc and decreased TER, as measured byvoltage-current clamp. By subcellular fractionation and Western blot,PMA (100 nM) induced sequential membrane translocation of the novelPKC followed by the conventional PKC and activated both isozymesby in vitro kinase assay. PKC was activated by PMA but did nottranslocate. By immunofluorescence, PKC redistributed to thebasolateral domain in response to PMA, whereas PKC moved apically.Inhibition of I_sc by PMA was prevented by theconventional and novel PKC inhibitor Gö-6850 (5 µM) but not theconventional isoform inhibitor Gö-6976 (5 µM) or the PKCinhibitor rottlerin (10 µM), implicating PKC in inhibition ofCl secretion. In contrast, both Gö-6976 andGö-6850 prevented the decline of TER, suggesting involvement ofPKC. Bryostatin-1 (100 nM) translocated PKC and PKC andinhibited cAMP-elicited I_sc. However, unlikePMA, bryostatin-1 downregulated PKC protein, and the decrease in TERwas only transient. Carbachol (100 µM) translocated only PKC andinhibited I_sc with no effect on TER. Gö-6850 but not Gö-6976 or rottlerin blocked bryostatin-1and carbachol inhibition of I_sc. We concludethat basolateral translocation of PKC inhibits Clsecretion, while apical translocation of PKC decreases TER. Thesedata suggest that epithelial transport and barrier function can bemodulated by distinct PKC isoforms.

     

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.

     

Agonist-specific cross talk between ERKs and p38(mapk) regulates PGI(2) synthesis in endothelium

We have examined the mechanisms regulatingprostacyclin (PGI₂) synthesis after acute exposure of humanumbilical vein endothelial cells (HUVEC) to interleukin-1 (IL-1).IL-1 evoked an early (30 min) release of PGI₂ and[³H]arachidonate that was blocked by the cytosolicphospholipase A₂ (cPLA₂) inhibitorarachidonyl trifluoromethyl ketone. IL-1-mediated activationof extracellular signal-regulated kinase 1/2 (ERK1/2; p42/p44^mapk) coincided temporally with phosphorylation ofcPLA₂ and with the onset of PGI₂synthesis. The mitogen-activated protein kinase (MAPK) kinase (MEK)inhibitors, PD-98059 and U-0126, blocked IL-1-induced ERKactivation and partially attenuated cPLA₂phosphorylation and PGI₂ release, suggesting thatERK-dependent and -independent pathways regulate cPLA₂phosphorylation. SB-203580 treatment enhanced IL-1-induced MEK,p42/44^mapk, and cPLA₂ phosphorylation butreduced thrombin-stimulated MEK and p42/44^mapk activation.IL-1, but not thrombin, activated Raf-1 as assessed byimmune-complex kinase assay, as did SB-203580 alone. These results showthat IL-1 causes an acute upregulation of PGI₂generation in HUVEC, establish a role for theMEK/ERK/cPLA₂ pathway in this early release, and provideevidence for an agonist-specific cross talk between p38^mapkand p42/44^mapk that may reflect receptor-specificdifferences in the signaling elements proximal to MAPK activation.

     

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.

     

Na+ pump alpha 2-subunit expression modulates Ca2+ signaling

The role of the Na⁺ pump₂-subunit in Ca²⁺ signaling was examined inprimary cultured astrocytes from wild-type(₂^+/+ = WT) mouse fetuses and thosewith a null mutation in one [₂^+/ = heterozygote (Het)] or both [₂^/ = knockout (KO)] ₂ genes. Na⁺ pump catalytic() subunit expression was measured by immunoblot; cytosol[Na⁺] ([Na⁺]_cyt) and[Ca²⁺] ([Ca²⁺]_cyt) weremeasured with sodium-binding benzofuran isophthalate and fura 2 byusing digital imaging. Astrocytes express Na⁺ pumpswith both ₁- (80% of total ) and₂- (20% of total ) subunits. Het astrocytesexpress 50% of normal ₂; those from KO express none.Expression of ₁ is normal in both Het and KO cells.Resting [Na⁺]_cyt = 6.5 mM in WT, 6.8 mMin Het (P > 0.05 vs. WT), and 8.0 mM in KO cells(P < 0.001); 500 nM ouabain (inhibits only₂) equalized [Na⁺]_cyt at 8 mMin all three cell types. Resting[Ca²⁺]_cyt = 132 nM in WT, 162 nM in Het,and 196 nM in KO cells (both P < 0.001 vs. WT).Cyclopiazonic acid (CPA), which inhibits endoplasmic reticulum (ER)Ca²⁺ pumps and unloads the ER, induces transient (inCa²⁺-free media) or sustained (in Ca²⁺-repletemedia) elevation of [Ca²⁺]_cyt. TheseCa²⁺ responses to 10 µM CPA were augmented in Het as wellas KO cells. When CPA was applied in Ca²⁺-free media, thereintroduction of Ca²⁺ induced significantly largertransient rises in [Ca²⁺]_cyt (due toCa²⁺ entry through store-operated channels) in Het and KOcells than in WT cells. These results correlate with published evidencethat ₂ Na⁺ pumps andNa⁺/Ca²⁺ exchangers are confined to plasmamembrane microdomains that overlie the ER. The data suggest thatselective reduction of ₂ Na⁺ pump activitycan elevate local [Na⁺] and, viaNa⁺/Ca²⁺ exchange, [Ca²⁺] in thetiny volume of cytosol between the plasma membrane and ER. This, inturn, augments adjacent ER Ca²⁺ stores and therebyamplifies Ca²⁺ signaling without elevating bulk[Na⁺]_cyt.

     

Arachidonic acid mediates dual effect of TNF-alpha on Ca2+ transients and contraction of adult rat cardiomyocytes

Tumor necrosisfactor (TNF)- has a biphasic effect on heart contractility andstimulates phospholipase A₂ (PLA₂) incardiomyocytes. Because arachidonic acid (AA) exerts a dual effect onintracellular Ca²⁺ concentration([Ca²⁺]_i) transients, we investigated thepossible role of AA as a mediator of TNF- on[Ca²⁺]_i transients and contraction withelectrically stimulated adult rat cardiac myocytes. At a lowconcentration (10 ng/ml) TNF- produced a 40% increase in theamplitude of both [Ca²⁺]_i transients andcontraction within 40 min. At a high concentration (50 ng/ml) TNF-evoked a biphasic effect comprising an initial positive effect peakingat 5 min, followed by a sustained negative effect leading to50-40% decreases in [Ca²⁺]_i transientsand contraction after 30 min. Both the positive and negative effects ofTNF- were reproduced by AA and blocked by arachidonyltrifluoromethylketone (AACOCF3), an inhibitor of cytosolic PLA₂.Lipoxygenase and cyclooxygenase inhibitors reproduced the high-doseeffects of TNF- and AA. The negative effects of TNF- and AA werealso reproduced by sphingosine and were abrogated by the ceramidaseinhibitor n-oleoylethanolamine. These results point out thekey role of the cytosolic PLA₂/AA pathway in mediating thecontractile effects of TNF-.

     

G protein coupling to M1 and M3 muscarinic receptors in sublingual glands

Rat sublingual glandM₁ and M₃ muscarinic receptors each directlyactivate exocrine secretion. To investigate the functional role ofcoreceptor expression, we determined receptor-G protein coupling.Although membrane proteins of 40 and 41 kDa are ADP-ribosylated bypertussis toxin (PTX), and 44 kDa proteins by cholera toxin (CTX), bothcarbachol-stimulated high-affinity GTPase activity and the GTP-inducedshift in agonist binding are insensitive to CTX or PTX. Carbacholenhances photoaffinity labeling([-³²P]GTP-azidoaniline) of only 42-kDa proteins thatare subsequently tractable to immunoprecipitation by antibodiesspecific for G_q or G₁₁ but notG₁₂ or G₁₃. Carbachol-stimulatedphotoaffinity labeling as well as phosphatidylinositol 4,5-bisphosphate(PIP₂) hydrolysis is reduced 55% and 60%, respectively,by M₁ receptor blockade with m1-toxin.G_q/11-specific antibody blocks carbachol-stimulated PIP₂ hydrolysis. We also provide estimates of the molarratios of receptors to G_q and G₁₁.Although simultaneous activation of M₁ and M₃receptors is required for a maximal response, both receptor subtypesare coupled to G_q and G₁₁ to stimulateexocrine secretion via redundant mechanisms.

     

Trafficking of GFP-tagged Delta F508-CFTR to the plasma membrane in a polarized epithelial cell line

The F508 mutationreduces the amount of cystic fibrosis transmembrane conductanceregulator (CFTR) expressed in the plasma membrane of epithelial cells.However, a reduced temperature, butyrate compounds, and "chemicalchaperones" allow F508-CFTR to traffic to the plasma membrane andincrease Cl permeability in heterologous and nonpolarizedcells. Because trafficking is affected by the polarized state ofepithelial cells and is cell-type dependent, our goal was to determinewhether these maneuvers induce F508-CFTR trafficking to the apicalplasma membrane in polarized epithelial cells. To this end, wegenerated and characterized a line of polarized Madin-Darby caninekidney (MDCK) cells stably expressing F508-CFTR tagged with greenfluorescent protein (GFP). A reduced temperature, glycerol, butyrate,or DMSO had no effect on 8-(4-chlorophenylthio)-cAMP(CPT-cAMP)-stimulated transepithelial Cl secretion acrosspolarized monolayers. However, when the basolateral membrane waspermeabilized, butyrate, but not the other experimental maneuvers,increased the CPT-cAMP-stimulated Cl current across theapical plasma membrane. Thus butyrate increased the amount offunctional F508-CFTR in the apical plasma membrane. Butyrate failedto stimulate transepithelial Cl secretion because ofinhibitory effects on Cl uptake across the basolateralmembrane. These observations suggest that studies on heterologous andnonpolarized cells should be interpreted cautiously. The GFP tag onF508-CFTR will allow investigation of F508-CFTR trafficking inliving, polarized MDCK epithelial cells in real time.

     

Purification and reconstitution of an outwardly rectified Cl- channel from tracheal epithelia

We reported the identification of three outwardly rectifiedCl channel (ORCC) candidateproteins (115, 85, and 52 kDa) from bovine tracheal epithelia. We haveraised polyclonal antibodies against these isolated proteins.Incorporation into planar lipid bilayers of material partly purifiedfrom bovine tracheal apical membranes with one of these antibodies as aligand (anti-p115) resulted in the incorporation of an ORCC identicalin biophysical characteristics to one we previously described. Wedeveloped a new purification procedure to increase the yield and purityof this polypeptide. The purification scheme that gave the best results in terms of overall protein yield and purity was a combination ofanion- and cation-exchange chromatography followed byimmunopurification. By use of this purification scheme, 7 µg of the115-kDa protein were purified from 20 mg of tracheal apical membraneproteins. Incorporation of this highly purified material into planarlipid bilayers revealed a DIDS-inhibitable channel with the following properties: linear conductance of 87 ± 9 pS in symmetricalCl solutions, halideselectivity sequence of I > Cl > Br, and lack of sensitivityto protein kinase A, Ca²⁺, ordithiothreitol. Using anti-G_iantibodies to precipitate G_iprotein(s) from the partly purified preparations, we demonstrated thatthe loss of rectification of the ORCC was due to uncoupling ofG_i protein(s) from the ORCCprotein and that the 115-kDa polypeptide is an ORCC.