Deficiency in parvalbumin increases fatigue resistance in fast-twitch muscle and upregulates mitochondria

The solubleCa²⁺-binding protein parvalbumin (PV) is expressed at highlevels in fast-twitch muscles of mice. Deficiency of PV in knockoutmice (PV /) slows down the speed of twitch relaxation, whilemaximum force generated during tetanic contraction is unaltered. Weobserved that PV-deficient fast-twitch muscles were significantly moreresistant to fatigue than were the wild type. Thus components involvedin Ca²⁺ homeostasis during the contraction-relaxation cyclewere analyzed. No upregulation of another cytosolicCa²⁺-binding protein was found. Mitochondria are thought toplay a physiological role during muscle relaxation and were thusanalyzed. The fractional volume of mitochondria in the fast-twitchmuscle extensor digitorum longus (EDL) was almost doubled in PV /mice, and this was reflected in an increase of cytochrome coxidase. A faster removal of intracellular Ca²⁺concentration ([Ca²⁺]_i) 200-700 ms afterfast-twitch muscle stimulation observed in PV / muscles supportsthe role for mitochondria in late [Ca²⁺]_iremoval. The present results also show a significant increase of thedensity of capillaries in EDL muscles of PV / mice. Thus alterations in the dynamics of Ca²⁺ transients detected infast-twitch muscles of PV / mice might be linked to the increase inmitochondria volume and capillary density, which contribute to thegreater fatigue resistance of these muscles.

     

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.

     

Polyamines regulate beta-catenin tyrosine phosphorylation via Ca(2+) during intestinal epithelial cell migration

Polyaminesare essential for early mucosal restitution that occurs by epithelialcell migration to reseal superficial wounds after injury. Normalintestinal epithelial cells are tightly bound in sheets, but they needto be rapidly disassembled during restitution. -Catenin is involvedin cell-cell adhesion, and its tyrosine phosphorylation causesdisassembly of adhesion junctions, enhancing the spreading of cells.The current study determined whether polyamines are required for thestimulation of epithelial cell migration by altering -catenintyrosine phosphorylation. Migration of intestinal epithelial cells(IEC-6 line) after wounding was associated with an increase in-catenin tyrosine phosphorylation, which decreased the bindingactivity of -catenin to -catenin. Polyamine depletion by-difluoromethylornithine reduced cytoplasmic free Ca²⁺concentration ([Ca²⁺]_cyt), preventedinduction of -catenin phosphorylation, and decreased cell migration.Elevation of [Ca²⁺]_cyt induced by theCa²⁺ ionophore ionomycin restored -cateninphosphorylation and promoted migration in polyamine-deficient cells.Decreased -catenin phosphorylation through the tyrosine kinaseinhibitor herbimycin-A or genistein blocked cell migration, which wasaccompanied by reorganization of cytoskeletal proteins. These resultsindicate that -catenin tyrosine phosphorylation plays a criticalrole in polyamine-dependent cell migration and that polyamines induce-catenin tyrosine phosphorylation at least partially through[Ca²⁺]_cyt.

     

Alterations in airway ion transport in NKCC1-deficient mice

Airways of Na⁺-K⁺-2Cl(NKCC1)-deficient mice (/) were studied in Ussing chambers todetermine the role of the basolateral NKCC1 in transepithelial anionsecretion. The basal short-circuit current (I_sc)of tracheae and bronchi from adult mice did not differ betweenNKCC1/ and normal mice, whereas NKCC1/ tracheae from neonatalmice exhibited a significantly reduced basalI_sc. In normal mouse tracheae, sensitivity tothe NKCC1 inhibitor bumetanide correlated inversely with the age of themouse. In contrast, tracheae from NKCC1/ mice at all ages wereinsensitive to bumetanide. The anion secretory response to forskolindid not differ between normal and NKCC1/ tissues. However, whenlarger anion secretory responses were induced with UTP, airways fromthe NKCC1/ mice exhibited an attenuated response. Ion substitutionand drug treatment protocols suggested that HCOsecretion compensated for reduced Cl secretion inNKCC1/ airway epithelia. The absence of spontaneous airway diseaseor pathology in airways from the NKCC1/ mice suggests that theNKCC1 mutant mice are able to compensate adequately for absence of theNKCC1 protein.

     

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.

     

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.

     

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.

     

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-.

     

PGE(2), Ca(2+), and cAMP mediate ATP activation of Cl(-) channels in pigmented ciliary epithelial cells

Purines regulate intraocular pressure. Adenosine activatesCl channels of nonpigmented ciliary epithelial cellsfacing the aqueous humor, enhancing secretion. Tamoxifen and ATPsynergistically activate Cl channels of pigmented ciliaryepithelial (PE) cells facing the stroma, potentially reducing netsecretion. The actions of nucleotides alone on Cl channelactivity of bovine PE cells were studied by electronic cell sorting,patch clamping, and luciferin/luciferase ATP assay. Clchannels were activated by ATP > UTP, ADP, and UDP, but not by 2-methylthio-ATP, all at 100 µM. UTP triggered ATP release. The second messengers Ca²⁺, prostaglandin (PG)E₂,and cAMP activated Cl channels without enhancing effectsof 100 µM ATP. Buffering intracellular Ca²⁺activity with1,2-bis(2-aminophenoxy)ethane-N,N,N',N'- tetraacetic acidor blocking PGE₂ formation with indomethacininhibited ATP-triggered channel activation. The Rp stereoisomerof 8-bromoadenosine 3',5'-cyclic monophosphothioate inhibited proteinkinase A activity but mimicked 8-bromoadenosine 3',5'-cyclicmonophosphate. We conclude that nucleotides can act at >1 P2Yreceptor to trigger a sequential cascade involving Ca²⁺,PGE₂, and cAMP. cAMP acts directly on Clchannels of PE cells, increasing stromal release and potentially reducing net aqueous humor formation and intraocular pressure.

     

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.

     

Contribution of chloride channels to volume regulation of cortical astrocytes

The objective of this study was todetermine the relative contribution of Cl channels tovolume regulation of cultured rat cortical astrocytes after hypotoniccell swelling. Using a Coulter counter, we showed that corticalastrocytes regulate their cell volume by ~60% within 45 min afterhypotonic challenge. This volume regulation was supported whenCl was replaced with Br,NO, methanesulfonate, oracetate but was inhibited when Cl wasreplaced with isethionate or gluconate.Additionally, substitution of Cl with Icompletely blocked volume regulation. Volume regulation was unaffected by furosemide or bumetanide, blockers of KCl transport, but was inhibited by Cl channel blockers, including5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB),4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS), and niflumicacid. Surprisingly, the combination of Cd²⁺ with NPPB,DIDS, or niflumic acid inhibited regulation to a greater extent thanany of these drugs alone. Volume regulation did not differ amongastrocytes cultured from different brain regions, as cerebellar andhippocampal astrocytes exhibited behavior identical to that of corticalastrocytes. These data suggest that Cl flux through ionchannels rather than transporters is essential for volume regulation ofcultured astrocytes in response to hypotonic challenge.

     

Permeant but not impermeant divalent cations enhance activation of nondesensitizing alpha(7) nicotinic receptors

Neuronal₇ nicotinic acetylcholine receptors (nAChRs) arepermeable to Ca²⁺ and other divalent cations. Wecharacterized the modulation of the pharmacological properties ofnondesensitizing mutant (L²⁴⁷T andS²⁴⁰T/L²⁴⁷T) ₇ nAChRs bypermeant (Ca²⁺, Ba²⁺, and Sr²⁺) andimpermeant (Cd²⁺ and Zn²⁺) divalent cations.₇ receptors were expressed in Xenopus oocytes and studied with two-electrode voltage clamp. Extracellular permeant divalent cations increased the potency and maximal efficacy of ACh,whereas impermeant divalent cations decreased potency and maximalefficacy. The antagonist dihydro--erythroidine (DHE) was a strongpartial agonist of L²⁴⁷T andS²⁴⁰T/L²⁴⁷T ₇ receptors in thepresence of divalent cations but was a weak partial agonist in thepresence of impermeant divalent cations. Mutation of the"intermediate ring" glutamates (E²³⁷A) inL²⁴⁷T ₇ nAChRs eliminated Ca²⁺conductance but did not alter the Ca²⁺-dependent increasein ACh potency, suggesting that site(s) required for modulation are onthe extracellular side of the intermediate ring. The difference betweenpermeant and impermeant divalent cations suggests that sites within thepore are important for modulation by divalent cations.

     

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.

     

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.

     

Human trabecular meshwork cell volume regulation

The volume ofcertain subpopulations of trabecular meshwork (TM) cells may modifyoutflow resistance of aqueous humor, thereby altering intraocularpressure. This study examines the contribution thatNa⁺/H⁺, Cl/HCOexchange, and K⁺-Cl efflux mechanisms have onthe volume of TM cells. Volume, Cl currents, andintracellular Ca²⁺ activity of cultured human TM cells werestudied with calcein fluorescence, whole cell patch clamping, and fura2 fluorescence, respectively. At physiological bicarbonateconcentration, the selective Na⁺/H⁺ antiportinhibitor dimethylamiloride reduced isotonic cell volume. Hypotonicitytriggered a regulatory volume decrease (RVD), which could be inhibitedby the Cl channel blocker5-nitro-2-(3-phenylpropylamino)-benzoate (NPPB), the K⁺channel blockers Ba²⁺ and tetraethylammonium, and theK⁺-Cl symport blocker[(dihydroindenyl)oxy]alkanoic acid. The fluid uptake mechanism inisotonic conditions was dependent on bicarbonate; at physiologicallevels, the Na⁺/H⁺ exchange inhibitordimethylamiloride reduced cell volume, whereas at low levels theNa⁺-K⁺-2Cl symport inhibitorbumetanide had the predominant effect. Patch-clamp measurements showedthat hypotonicity activated an outwardly rectifying, NPPB-sensitiveCl channel displaying the permeability rankingCl > methylsulfonate > aspartate.2,3-Butanedione 2-monoxime antagonized actomyosin activity and bothincreased baseline [Ca²⁺] and abolishedswelling-activated increase in [Ca²⁺], but it did notaffect RVD. Results indicate that human TM cells display aCa²⁺-independent RVD and that volume is regulated byswelling-activated K⁺ and Cl channels,Na⁺/H⁺ antiports, and possiblyK⁺-Cl symports in addition toNa⁺-K⁺-2Cl symports.

     

Ca2+-activated Cl- current in cultured myenteric neurons from murine proximal colon

Whole cell patch-clamprecordings were made from cultured myenteric neurons taken from murineproximal colon. The micropipette contained Cs⁺ to removeK⁺ currents. Depolarization elicited a slowly activatingtime-dependent outward current (I_tdo), whereasrepolarization was followed by a slowly deactivating tail current(I_tail). I_tdo andI_tail were present in ~70% of neurons. Weidentified these currents as Cl currents(I_Cl), because changing the transmembraneCl gradient altered the measured reversal potential(E_rev) of both I_tdo andI_tail with that for I_tailshifted close to the calculated Cl equilibrium potential(E_Cl). I_Cl areCa²⁺-activated Cl current[I_Cl(Ca)] because they were Ca²⁺dependent. E_Cl, which was measured from theE_rev of I_Cl(Ca) using agramicidin perforated patch, was 33 mV. This value is more positivethan the resting membrane potential (56.3 ± 2.7 mV), suggestingmyenteric neurons accumulate intracellular Cl.-Conotoxin GIVA [0.3 µM; N-type Ca²⁺ channelblocker] and niflumic acid [10 µM; knownI_Cl(Ca) blocker], decreased theI_Cl(Ca). In conclusion, these neurons haveI_Cl(Ca) that are activated by Ca²⁺entry through N-type Ca²⁺ channels. These currents likelyregulate postspike frequency adaptation.

     

Force relaxes before the fall of cytosolic calcium in the photomechanical response of rat sphincter pupillae

In the ratsphincter pupillae, as in other smooth muscles, the primary signaltransduction cascade for agonist activation is receptor  G protein phospholipase C  inositol trisphosphate  intracellularCa²⁺ concentration ([Ca²⁺]_i)  calmodulin  myosin light chain kinase  phosphorylated myosin  force development. Light stimulation of isolated sphincters pupillaecan be very precisely controlled, and precise reproducible photomechanical responses (PMRs) result. This precision makes the PMRideal for testing models of regulation of smooth muscle myosinphosphorylation. We measured force and[Ca²⁺]_i concurrently in sphincter pupillaefollowing stimulation by light flashes of varying duration andintensity. We sampled at unusually short (0.01-0.02 s) intervalsto adequately test a PMR model based on the myosin phosphorylationcascade. We found, surprisingly, contrary to the behavior of intestinalmuscle and predictions of the phosphorylation model, that during PMRsforce begins to decay while [Ca²⁺]_i is stillrising. We conclude that control of contraction in the sphincterpupillae probably involves an inhibitory process as well as activationby [Ca²⁺]_i.

     

Evidence for functional role of epsilonPKC isozyme in the regulation of cardiac Na(+) channels

Investigation of the role ofindividual protein kinase C (PKC) isozymes in the regulation ofNa⁺ channels has been largely limited by the lack ofisozyme-selective modulators. Here we used a novel peptide-specificactivator (V1-7) of PKC and other peptide isozyme-specificinhibitors in addition to the general PKC activator phorbol12-myristate 13-acetate (PMA) to dissect the role of individual PKCs inthe regulation of the human cardiac Na⁺ channel hH1,heterologously expressed in Xenopus oocytes. Peptides wereinjected individually or in combination into the oocyte. Whole cellNa⁺ current (I_Na) was recorded usingtwo-electrode voltage clamp. V1-7 (100 nM) and PMA (100 nM)inhibited I_Na by 31 ± 5% and 44 ± 8% (at 20 mV), respectively. These effects were not seen with thescrambled peptide for V1-7 (100 nM) or the PMA analog4-phorbol 12,13-didecanoate (100 nM). However, V1-7-and PMA-induced I_Na inhibition was abolished byV1-2, a peptide-specific antagonist of PKC. Furthermore,PMA-induced I_Na inhibition was not altered by100 nM peptide-specific inhibitors for -, -, -, or PKC. PMAand V1-7 induced translocation of PKC from soluble toparticulate fraction in Xenopus oocytes. This translocationwas antagonized by V1-2. In native rat ventricular myocytes,PMA and V1-7 also inhibited I_Na; thisinhibition was antagonized by V1-2. In conclusion, the resultsprovide evidence for selective regulation of cardiac Na⁺channels by PKC isozyme.

     

Characterization of norepinephrine-evoked inward currents in interstitial cells isolated from the rabbit urethra

Freshly dispersedinterstitial cells from the rabbit urethra were studied by using theperforated-patch technique. When cells were voltage clamped at 60 mVand exposed to 10 µM norepinephrine (NE) at 80-s intervals, eitherlarge single inward currents or a series of oscillatory inward currentsof diminishing amplitude were evoked. These currents were blocked byeither phentolamine (1 µM) or prazosin (1 µM), suggesting that theeffects of NE were mediated via ₁-adrenoceptors.NE-evoked currents were depressed by the blockers ofCa²⁺-activated Cl currents, niflumic acid (10 µM), and 9-anthracenecarboxylic acid (9-AC, 1 mM). The reversalpotential of the above currents changed in a predictable manner whenthe Cl equilibrium potential was altered, againsuggesting that they were due to activation of a Clconductance. NE-evoked currents were decreased by 10 µM cyclopiazonic acid, suggesting that they were dependent on store-releasedCa²⁺. Inhibition of NE-evoked currents by the phospholipaseC inhibitor 2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate(100 µM) suggested that NE releases Ca²⁺ via an inositol1,4,5-trisphosphate (IP₃)-dependent mechanism. Theseresults support the idea that stimulation of₁-adrenoceptors releases Ca²⁺ from anIP₃-sensitive store, which in turn activatesCa²⁺-activated Cl current in freshlydispersed interstitial cells of the rabbit urethra. This elevates slowwave frequency in these cells and may underlie the mechanismresponsible for increased urethral tone during nerve stimulation.

     

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.