beta-adrenergic receptor/cAMP-mediated signaling and apoptosis of S49 lymphoma cells

-Adrenergic receptor (AR) activationand/or increases in cAMP regulate growth and proliferation of a varietyof cells and, in some cells, promote cell death. In the current studieswe addressed the mechanism of this growth reduction by examiningAR-mediated effects in the murine T-lymphoma cell line S49.Wild-type S49 cells, derived from immature thymocytes(CD4⁺/CD8⁺) undergo growth arrest andsubsequent death when treated with agents that increase cAMP levels(e.g., AR agonists, 8-bromo-cAMP, cholera toxin, forskolin).Morphological and biochemical criteria indicate that this cell death isa result of apoptosis. In cyc and kin S49cells, which lack G_s and functional protein kinase A(PKA), respectively, AR activation of G_s and cAMPaction via PKA are critical steps in this apoptotic pathway. S49 cellsthat overexpress Bcl-2 are resistant to cAMP-induced apoptosis. Weconclude that AR activation induces apoptosis in immature Tlymphocytes via G_s and PKA, while overexpression ofBcl-2 prevents cell death. AR/cAMP/PKA-mediated apoptosis mayprovide a means to control proliferation of immature T cells in vivo.

     

PKA and arachidonic acid activation of human recombinant ClC-2 chloride channels

An HEK-293 cell line stably expressing the humanrecombinant ClC-2 Cl channel was used in patch-clampstudies to study its regulation. The relative permeabilityP_x/P_Cl calculated fromreversal potentials was I > Cl = NO₃ = SCNBr. Theabsolute permeability calculated from conductance ratios wasCl = Br = NO₃  SCN > I. The channel was activatedby cAMP-dependent protein kinase (PKA), reduced extracellular pH, oleicacid (C:18 cis9), elaidic acid (C:18trans9), arachidonic acid (AA; C:20cis5,8,11,14), and by inhibitors of AA metabolism,5,8,11,14-eicosatetraynoic acid (ETYA; C:20trans5,8,11,14),-methyl-4-(2-methylpropyl)benzeneacetic acid (ibuprofen), and2-phenyl-1,2-benzisoselenazol-3-[2H]-one (PZ51, ebselen). ClC-2Cl channels were activated by a combination of forskolinplus IBMX and were inhibited by the cell-permeant myristoylated PKAinhibitor (mPKI). Channel activation by reduction of bath pH wasincreased by PKA and prevented by mPKI. AA activation of the ClC-2Cl channel was not inhibited by mPKI or staurosporine andwas therefore independent of PKA or protein kinase C activation.

     

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.

     

Synthesis and characterization of dual-wavelength Cl--sensitive fluorescent indicators for ratio imaging

The fluorescence of quinolinium-basedCl indicators such as6-methoxy-N-(3-sulfopropyl)quinolinium(SPQ) is quenched by Cl bya collisional mechanism without change in spectral shape. A series of"chimeric" dual-wavelengthCl indicators weresynthesized by conjugatingCl-sensitive and-insensitive chromophores with spacers. The SPQ chromophore(N-substituted 6-methoxyquinolinium; MQ) was selected as theCl-sensitive moiety[excitation wavelength(_ex) 350 nm, emission wavelength (_em) 450 nm]. N-substituted 6-aminoquinolinium (AQ) waschosen as theCl-insensitive moietybecause of its different spectral characteristics (_ex 380 nm,_em 546 nm), insensitivity toCl, positive charge (tominimize quenching by chromophore stacking/electron transfer), andreducibility (for noninvasive cell loading). The dual-wavelengthindicators were stable and nontoxic in cells and were distributeduniformly in cytoplasm, with occasional staining of the nucleus. Thebrightest and mostCl-sensitive indicatorswere -MQ-'-dimethyl-AQ-xylene dichloride andtrans-1,2-bis(4-[1-'-MQ-1'-'-dimethyl-AQ-xylyl]-pyridinium)ethylene (bis-DMXPQ). At 365-nm excitation, emission maxima were at 450 nm(Cl sensitive; Stern-Volmerconstants 82 and 98 M¹)and 565 nm (Clinsensitive). Cystic fibrosis transmembrane conductanceregulator-expressing Swiss 3T3 fibroblasts were labeled with bis-DMXPQby hypotonic shock or were labeled with its uncharged reduced form(octahydro-bis-DMXPQ) by brief incubation (20 µM, 10 min). Changes inCl concentration inresponse to Cl/nitrateexchange were recorded by emission ratio imaging (450/565 nm) at 365-nmexcitation wavelength. These results establish a first-generation setof chimeric bisquinoliniumCl indicators forratiometric measurement ofCl concentration.     

Cloning and functional studies of splice variants of the alpha -subunit of the amiloride-sensitive Na+ channel

The -subunit of the amiloride-sensitive epithelialNa⁺ channel (ENaC) is criticalin forming an ion conductive pore in the membrane. We have identifiedthe wild-type and three splice variants of the human ENaC (hENaC)from the human lung cell line H441, using RT-PCR. These splice variantscontain various structures in the extracellular domain, resultingin premature truncation (hENaCx), 19-amino acid deletion(hENaC19), and 22-amino acid insertion (hENaC+22).Wild-type hENaC and splice variants were functionally characterizedin Xenopus oocytes by coexpression with hENaC - and -subunits. Unlike wild-type hENaC,undetectable or substantially reduced amiloride-sensitive currents wereobserved in oocytes expressing these splice variants. Wild-typehENaC was the most abundantly expressed hENaC mRNA species in alltissues in which its expression was detected. These findings indicate that the extracellular domain is important to generate structural andfunctional diversity of hENaC and that alternative splicing may playa role in regulating hENaC activity.

     

Activation of p42mapk in human umbilical vein endothelial cells by interleukin-1alpha and tumor necrosis factor-alpha

Work from this and other laboratories has identified a role forprotein tyrosine kinases in interleukin-1 (IL-1)- and tumor necrosis factor- (TNF-)-induced responses in endothelial cells. In this study, we show that activation of human umbilical vein endothelial cells (HUVEC) by IL-1 leads to increased tyrosine phosphorylation of several proteins including one with a molecular massof ~42 kDa. This protein was identified asp42^mapk by Western blot analysis.Tyrosine phosphorylation and catalytic activation ofp42^mapk by IL-1 was transient,reaching maximal levels after 30 min and returning to basal levels by120-300 min. Activation ofp42^mapk in HUVEC was also observedin response to TNF- or to the protein kinase C (PKC)-activatingphorbol ester phorbol 12-myristate 13-acetate (PMA). Pretreatment ofHUVEC with IL-1 or TNF- prevented reactivation ofp42^mapk by either cytokine but didnot affect subsequent activation in response to PMA. Activation ofp42^mapk by PMA was significantlyreduced by the PKC inhibitor Ro-31-8220 and completely inhibited by theprotein tyrosine kinase inhibitor genistein. Genistein, but notRo-31-8220, attenuated IL-1- and TNF--inducedp42^mapk activation. Takentogether, the results of this study demonstrate 1) thatp42^mapk is transiently activatedin HUVEC by IL-1 and TNF-, 2)that this activation is PKC independent, and3) that a genistein-inhibitable tyrosine kinase may be an upstream regulator of cytokine-induced p42^mapk activation in humanendothelium.

     

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.     

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.

     

Unusual degradation of alpha -beta complexes in Xenopus oocytes by beta -subunits of Xenopus gastric H-K-ATPase

The catalytic -subunit of oligomeric P-type ATPases such asNa-K-ATPase and H-K-ATPase requires association with a -subunit after synthesis in the endoplasmic reticulum (ER) to become stably expressed and functionally active. In this study, we have expressed the-subunit of Xenopus gastricH-K-ATPase (HK) in Xenopus oocytes together with -subunits of H-K-ATPase (HK) or Na-K-ATPase (NK) and have followed the biosynthesis, assembly, and cell surface expression of functional pumps. Immunoprecipitations ofXenopus HK from metabolicallylabeled oocytes show that it is well expressed and, when synthesizedwithout -subunits, can leave the ER and become fully glycosylated.Xenopus HK can associate with both coexpressed HK and NK, but the - complexes formed aredegraded rapidly in or close to the ER and do not produce functionalpumps at the cell surface as assessed by⁸⁶Rb uptake. A possibleexplanation of these results is thatXenopus HK may contain atissue-specific signal that is important in the formation or correcttargeting of functional - complexes in the stomach but thatcannot be recognized in Xenopusoocytes and in consequence leads to cellular degradation of the -complexes in this experimental system.

     

Colonic H-K-ATPase alpha- and beta-subunits express ouabain-insensitive H-K-ATPase

Active K absorption in the rat distal colon is energizedby an apical H-K-ATPase, a member of the gene family of P-type ATPases. The H-K-ATPase -subunit (HKc) has been cloned and characterized (together with the -subunit of either Na-K-ATPase or gastric H-K-ATPase) in Xenopus oocytes as ouabain-sensitive⁸⁶Rb uptake. In contrast, HKc, when expressed in Sf9cells without a -subunit, yielded evidence of ouabain-insensitiveH-K-ATPase. Because a -subunit (HKc) has recently been clonedfrom rat colon, this present study was initiated to determine whetherH-K-ATPase and its sensitivity to ouabain are expressed when these twosubunits (HKc and HKc) are transfected into a mammalian cellexpression system. Transfection of HEK-293 cells with HKc and HKccDNAs resulted in the expression of HKc and HKc proteins andtheir delivery to plasma membranes. H-K-ATPase activity was identified in crude plasma membranes prepared from transfected cells and was1) saturable as a function of increasing K concentration with aK_m for K of 0.63 mM; 2) inhibited byorthovanadate; and 3) insensitive to both ouabain andSch-28080. In parallel transfection studies with HKc and Na-K-ATPase1 cDNAs and with HKc cDNA alone, there was expression ofouabain-insensitive H-K-ATPase activity that was 60% and 21% of thatin HKc/HKc cDNA transfected cells, respectively. Ouabain-insensitive ⁸⁶Rb uptake was also identified incells transfected with HKc and HKc cDNAs. These studies establishthat HKc cDNA with HKc cDNA express ouabain-insensitiveH-K-ATPase similar to that identified in rat distal colon.

     

Nitric oxide-dependent downregulation of adipocyte UCP-2 expression by tumor necrosis factor-alpha

Uncoupling protein-2 (UCP-2) is amitochondrial protein expressed in adipocytes and has recently beeninvolved in the control of energy dissipation. Because obesity ischaracterized by an imbalance between energy intake and expenditure andby an enhanced adipocyte-derived secretion of tumor necrosis factor-(TNF-), we asked whether TNF- could directly influence UCP-2expression in adipocytes. Experiments performed in differentiated3T3F442A preadipocytes showed that TNF- (10 ng/ml) induced areduction of UCP-2 trancripts, assessed by Northern blot analysis. Asignificant decrease in UCP-2 expression (40%) was observed after 12 and 24 h of TNF- stimulation of the cells. The characterizationof the mechanisms responsible for the TNF- effect on UCP-2expression demonstrates an involvement of the TNF--induced inducible(i) nitric oxide synthase (NOS) expression. Cell treatment with the NOSinhibitor N^G-nitro-L-arginine methylester (L-NAME; 1 mmol/l) significantly diminished theTNF--mediated sustained downregulation of UCP-2 expression, whereascell treatment with a nitric oxide (NO) donor (10³ mol/lS-nitroso-L-glutathione) mimicked the TNF-effect on UCP-2 expression. Moreover, Western blot analysis clearlyshowed that TNF- alone induces the expression of iNOS after12-24 h treatment of differentiated 3T3F442A cells. Theseexperiments demonstrate that TNF- directly downregulates UCP-2expression via NO-dependent pathways that involve the induction of iNOS expression.

     

Monocyte/macrophages evoke epithelial dysfunction: indirect role of tumor necrosis factor-alpha

We examined theability of monocytes (M) activated by bacterial products to alterepithelial physiology. Confluent monolayers of the T84 colonicepithelial cell line were grown on filter supports and then coculturedin the presence of human M with or without the activating agentsbacterial lipopolysaccharide and the bacterial tripeptideformyl-methionyl-leucyl-phenylalanine. After 24 or 48 h, monolayerswere mounted in Ussing chambers where parameters of epithelial functionwere measured. Exposure to activated M resulted in a significantincrease (P < 0.05) in baselineshort-circuit current (250% after 48 h) that was associated withenhanced secretion of Cl.In addition, epithelial permeability was significantly increased asshown by reduced transepithelial resistance and increased flux of⁵¹Cr-EDTA. Activated M producedsubstantial amounts (~3 ng/ml at 48 h) of tumor necrosis factor-(TNF-). TNF- was identified as a key mediator acting via anautocrine mechanism to induce epithelial pathophysiology. Our data showthat M, when activated by common bacterial components, are potenteffector cells capable of initiating significant changes in thetransport and barrier properties of a model epithelium.

     

NF-kappa B inactivation converts a hepatocyte cell line TNF-alpha response from proliferation to apoptosis

Toxins convertthe hepatocellular response to tumor necrosis factor- (TNF-)stimulation from proliferation to cell death, suggesting thathepatotoxins somehow sensitize hepatocytes to TNF- toxicity. Becausenuclear factor-B (NF-B) activation confers resistance to TNF-cytotoxicity in nonhepatic cells, the possibility that toxin-inducedsensitization to TNF- killing results from inhibition ofNF-B-dependent gene expression was examined in the RALA rathepatocyte cell line sensitized to TNF- cytotoxicity by actinomycinD (ActD). ActD did not affect TNF--induced hepatocyte NF-Bactivation but decreased NF-B-dependent gene expression. Expressionof an IB superrepressor rendered RALA hepatocytes sensitive toTNF--induced apoptosis in the absence of ActD. Apoptosis was blockedby caspase inhibitors, and TNF- treatment led to activation ofcaspase-2, caspase-3, and caspase-8 only when NF-B activation wasblocked. Although apoptosis was blocked by the NF-B-dependent factornitric oxide (NO), inhibition of endogenous NO production did notsensitize cells to TNF--induced cytotoxicity. Thus NF-Bactivation is the critical intracellular signal that determines whetherTNF- stimulates hepatocyte proliferation or apoptosis. Althoughexogenous NO blocks RALA hepatocyte TNF- cytotoxicity, endogenousproduction of NO is not the mechanism by which NF-B activationinhibits this death pathway.

     

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.

     

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-.

     

Inhibition of cell differentiation by Galpha q in the renal epithelial cell line LLC-PK1

LLC-PK₁, an epithelial cellline derived from the kidney proximal tubule, was used to study theability of the G protein -subunit, G_q, to regulate celldifferentiation. A constitutively active mutant protein,_qQ209L, was expressed using theLacSwitch-inducible mammalian expression system. Induction of_qQ209L expression with isopropyl--D-thiogalactopyranoside(IPTG) enhanced phospholipase C activity maximally by 6- to 7.5-fold.Increasing concentrations of IPTG progressively inhibited the activityof two differentiation markers,Na⁺-dependent hexose transport andalkaline phosphatase activity. Induction of_qQ209L expression also caused achange from an epithelial to a spindle-shaped morphology. The effectsof _qQ209L expression on celldifferentiation were similar to those observed with12-O-tetradecanoylphorbol 13-acetate(TPA) treatment. However, protein kinase C (PKC) levels weredownregulated in TPA-treated cells but not in_qQ209L-expressing cells,suggesting that the regulation of PKC byG_q may be different fromregulation by TPA. Interestingly, the PKC inhibitor GF-109203X did notinhibit the effect of IPTG on the development ofNa⁺-dependent hexose transport in_qQ209L-expressing cells. These data implicate PKC and PKC in the pathway used byG_q to block the development ofNa⁺-dependent hexose transport inIPTG-treated cells.

     

Charged residues in the M2 region of alpha-hENaC play a role in channel conductance

The epithelial Na⁺channel (ENaC) is a low-conductance channel that is highly selectivefor Na⁺ andLi⁺ overK⁺ and impermeable toanions. The molecular basis underlying these conductionproperties is not well known. Previous studies with the ENaC subunitsdemonstrated that the M2 region of -ENaC is critical to channelfunction. Here we examine the effects of reversing the negative chargesof highly conserved amino acids in -subunit human ENaC (-hENaC)M1 and M2 domains. Whole cell and single-channel currentmeasurements indicated that the M2 mutations E568R, E571R, and D575Rsignificantly decreased channel conductance but did not affectNa⁺:K⁺permeability. We observed no functional perturbations from the M1mutation E108R. Whole cell amiloride-sensitive current recorded fromoocytes injected with the M2 -hENaC mutants along with wild-type (wt) - and -hENaC was low (46-93 nA) compared with the wtchannel (1-3 µA). To determine whether this reduced macroscopiccurrent resulted from a decreased number of mutant channels at theplasma membrane, we coexpressed mutant -hENaC subunits with greenfluorescent protein-tagged - and -subunits. Confocal laserscanning microscopy of oocytes demonstrated that plasma membranelocalization of the mutant channels was the same as that of wt. Theseexperiments demonstrate that acidic residues in the secondtransmembrane domain of -hENaC affect ion permeation and are thuscritical components of the conductive pore of ENaC.

     

TGF-alpha reduces bradykinin-stimulated ion transport and prostaglandin release in human colonic epithelial cells

The effect of chronic exposure to transforming growth factor-(TGF-) on bradykinin-stimulated acute prostanoid production and ionsecretion in monolayers of HCA-7 colony 29 colonic epithelial cells hasbeen studied. Monolayers synthesized prostaglandinE₂ (PGE₂) at a basal rate of 2.10 ± 0.31 pg · monolayer¹ · min¹over 24 h. Bradykinin(10⁸-10⁵M) dose dependently increased acutePGE₂ release by three orders ofmagnitude. This was associated with a rise in cAMP from 1.60 ± 0.14 to 2.90 ± 0.1 pmol/monolayer (P < 0.02) and a dose-dependent increase in short-circuit current (SCC).When monolayers were primed by a 24-h exposure to TGF-, basalPGE₂ release rose to 6.31 ± 0.38 pg · monolayer¹ · min¹(TGF- concn 10 ng/ml; P = 0.001).However, the stimulation of acute prostaglandin release, intracellularcAMP, and increased SCC by bradykinin was significantly reduced bypreincubation with TGF-. Priming withPGE₂(10⁸-10⁶M) over 24 h mimicked the effect of TGF- on bradykinin-induced changes in cAMP and SCC. These data suggest that enhanced chronic release of prostaglandins in response to stimulation with TGF- maydownregulate acute responses to bradykinin. In vivo, TGF- could havean important modulatory function in regulating secretion underinflammatory conditions.     

Effect of TNF-alpha on SMIT mRNA levels and myo-inositol accumulation in cultured endothelial cells

Previously we have shown that hyperosmolarity increasesNa⁺-myo-inositolcotransporter (SMIT) activity and mRNA levels in cultured endothelialcells. Because hyperosmolarity and cytokines, such as tumor necrosisfactor- (TNF-), activate similar signal transduction pathways, weexamined the effect of TNF- on SMIT mRNA levels andmyo-inositol accumulation. In contrastto the effect of hyperosmolarity, TNF- caused a time- andconcentration-dependent decrease in SMIT mRNA levels andmyo-inositol accumulation. The effectof TNF- on myo-inositolaccumulation was found in large-vessel endothelial cells (derived fromthe aorta and pulmonary artery) and cerebral microvessel endothelialcells. In bovine aorta and bovine pulmonary artery endothelial cells,TNF- activated nuclear factor (NF)-B. TNF- also increasedceramide levels, and C₂-ceramidemimicked the effect of TNF- on SMIT mRNA levels andmyo-inositol accumulation in bovineaorta endothelial cells. Pyrrolidinedithiocarbamate, genistein, and7-amino-1-chloro-3-tosylamido-2-hepatanone, compounds that can inhibitNF-B activation, partially prevented the TNF--induced decrease inmyo-inositol accumulation. The effectof TNF- on myo-inositolaccumulation was also partially prevented by the protein kinase Cinhibitor calphostin C but not by staurosporine. These studiesdemonstrate that TNF- causes a decrease in SMIT mRNA levels andmyo-inositol accumulation in culturedendothelial cells, which may be related to the activation of NF-B.

     

Colonic H-K-ATPase beta -subunit: identification in apical membranes and regulation by dietary K depletion

P-type ATPasesrequire both - and -subunits for functionalactivity. Although an -subunit for colonic apical membraneH-K-ATPase (HKc) has been identified and studied, its -subunithas not been identified. We cloned putative -subunit rat colonicH-K-ATPase (HKc) cDNA that encodes a 279-amino-acid protein with asingle transmembrane domain and sequence homology to other rat-subunits. Northern blot analysis demonstrates that this HKc isexpressed in several rat tissues, including distal and proximal colon,and is highly expressed in testis and lung. HKc mRNA abundance is upregulated threefold compared with normal in distal colon but notproximal colon, testis, or lung of K-depleted rats. In contrast, Na-K-ATPase ₁ mRNA abundance isunaltered in distal colon of K-depleted rats. Na depletion, which alsostimulates active K absorption in distal colon, does not increaseHKc mRNA abundance. Western blot analyses using a polyclonalantibody raised to a glutathioneS-transferase-HKc fusion proteinestablished expression of a 45-kDa HKc protein in both apical andbasolateral membranes of rat distal colon, but K depletion increasedHKc protein expression only in apical membranes. Physicalassociation between HKc and HKc proteins was demonstrated byWestern blot analysis performed with HKc antibody onimmunoprecipitate of apical membranes of rat distal colon and HKcantibody. Tissue-specific upregulation of this -subunit mRNA inresponse to K depletion, localization of its protein, its upregulationby K depletion in apical membranes of distal colon, and its physicalassociation with HKc protein provide compelling evidence that HKcis the putative -subunit of colonic H-K-ATPase.