Cholecystokinin induction of mob-1 chemokine expression in pancreatic acinar cells requires NF-kappa B activation

Inflammatory mediators are involved in the early phase of acutepancreatitis, but the cellular mechanisms responsible for theirgeneration within pancreatic cells are unknown. We examined the role ofnuclear factor-B (NF-B) in cholecystokinin octapeptide (CCK-8)-induced mob-1 chemokineexpression in pancreatic acinar cells in vitro. Supraphysiological, butnot physiological, concentrations of CCK-8 increased inhibitory B(IB-) degradation, NF-B activation, andmob-1 gene expression in isolatedpancreatic acinar cells. CCK-8-induced IB- degradation wasmaximal within 1 h. Expression ofmob-1 was maximal within 2 h. Neitherbombesin nor carbachol significantly increasedmob-1 mRNA or induced IB-degradation. Thus the concentration, time, and secretagogue dependenceof mob-1 gene expression and IB-degradation were similar. Inhibition of NF-B with pharmacologicalagents or by adenovirus-mediated expression of the inhibitory proteinIB- also inhibited mob-1 geneexpression. These data indicate that the NF-B signaling pathway isrequired for CCK-8-mediated induction ofmob-1 chemokine expression inpancreatic acinar cells. This supports the hypothesis that NF-Bsignaling is of central importance in the initiation of acute pancreatitis.

     

Differential distribution of ERalpha and ERbeta mRNA in intrauterine tissues of the pregnant rhesus monkey

Twoestrogen receptor (ER) isoforms, ER and ER, have been described.However, no information is available in any species regarding thecomparison of ER and ER levels in pregnant intrauterine tissues.We investigated 1) distribution of ER and ER mRNA in myometrium, amnion, choriodecidua, and placenta; 2) theirabundance in intrauterine tissues at term not in labor (NIL) and inspontaneous term labor (STL); and 3) immunolocalization ofER and ER in pregnant rhesus monkey myometrium. Myometrium,amnion, choriodecidua, and placenta were obtained at cesarean sectionfrom monkeys in STL at 156-166 days gestational age(GA) (n = 4) and from control monkeys NIL at140-152 days GA (n = 4). RT-PCR was conducted to determineER and ER and glyceraldehyde-3-phosphate dehydrogenase mRNAabundance in four intrauterine tissues of the pregnant rhesus monkey.The cloned ER PCR fragment was subjected to sequence analysis. ERand ER were localized in the myometrium by immunohistochemistry. Wedemonstrated that 1) rhesus monkey ER shares >97%identity with human ER in the region sequenced; 2) both ERswere expressed in myometrium, amnion, and choriodecidua but not inplacenta in the current study; 3) ER and ER weredifferentially distributed in myometrium and amnion; 4) ERand ER were immunolocalized in myometrial smooth cells and smoothmuscle and endothelial cells of the myometrial blood vessels. Thebiological significance of these quantitative differences in ERsubtypes merits further study.

     

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.

     

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.

     

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.

     

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.     

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.

     

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.

     

Induction of TNF-alpha and MnSOD by endotoxin: role of membrane CD14 and Toll-like receptor-4

Endotoxin (LPS) is a potent inducer oftumor necrosis factor- (TNF-) and manganese superoxide dismutase(MnSOD). Recent evidence suggests that LPS induction of TNF- andMnSOD mRNAs is mediated through distinct intracellular signaltransduction pathways. Membrane CD14 (mCD14) and Toll-like receptor-4(TLR4) mediate LPS induction of TNF- in macrophages. In the current study, we evaluated the role of mCD14 and TLR4 in LPS induction ofMnSOD using peritoneal macrophages from CD14 knockout (CD14-KO) miceand mice with the Tlr4 gene point mutation (C3H/HeJ) ordeletion (C57BL/10ScCr). We studied mCD14-dependent (1 and 10 ng/ml)and mCD14-independent (1,000 ng/ml) concentrations of LPS. Compared with control (BALB/c) macrophages, LPS at 1 and 10 ng/ml failed toinduce TNF- or MnSOD mRNA in CD14-KO macrophages. However, LPS at1,000 ng/ml induced TNF- and MnSOD mRNAs equally in macrophages fromCD14-KO and control mice. LPS (1, 10, or 1,000 ng/ml) failed to induceTNF- or MnSOD mRNA and failed to activate nuclear factor-B inC3H/HeJ or C57BL/10ScCr macrophages. Measurements of TNF- and MnSODenzyme activity paralleled TNF- and MnSOD mRNA levels. These datademonstrate that, like TNF-, induction of MnSOD by LPS is mediatedby mCD14 and TLR4 in murine macrophages.

     

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.

     

Three-dimensional tissue structure affects sensitivity of fibroblasts to TGF-beta 1

Transforming growth factor-(TGF-) is known to induce -smooth muscle actin (-SMA) infibroblasts and is supposed to play a role in myofibroblastdifferentiation and tumor desmoplasia. Our objective was to elucidatethe impact of TGF-1 on -SMA expression in fibroblasts in athree-dimensional (3-D) vs. two-dimensional (2-D) environment. Inmonolayer culture, all fibroblast cultures responded in a similarfashion to TGF-1 with regard to -SMA expression. In fibroblastspheroids, -SMA expression was reduced and induction by TGF-1 washighly variable. This difference correlated with a differentialregulation in the TGF- receptor (TGFR) expression, in particularwith a reduction in TGF-RII in part of the fibroblast types. Ourdata indicate that 1) sensitivity to TGF-1-induced -SMA expression in a 3-D environment is fibroblast-type specific, 2) fibroblast type-independent regulatory mechanisms, suchas a general reduction/loss in TGF-RIII, contribute to an altered TGFR expression profile in spheroid compared with monolayer culture, and 3) fibroblast type-specific alterations in TGFR typesI and II determine the sensitivity to TGF-1-induced -SMAexpression in the 3-D setting. We suggest that fibroblasts that can beinduced by TGF-1 to produce -SMA in spheroid culture reflect a"premyofibroblastic" phenotype.

     

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.

     

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.

     

p38 MAPK mediates renal tubular cell TNF-{alpha} production and TNF-{alpha}-dependent apoptosis during simulated ischemia

Ischemia causes renal tubular cellloss through apoptosis; however, the mechanisms of this processremain unclear. Using the renal tubular epithelial cell lineLLC-PK₁, we developed a model of simulated ischemia(SI) to investigate the role of p38 MAPK (mitogen-activated proteinkinase) in renal cell tumor necrosis factor- (TNF-) mRNAproduction, protein bioactivity, and apoptosis. Resultsdemonstrate that 60 min of SI induced maximal TNF- mRNA productionand bioactivity. Furthermore, 60 min of ischemia induced renaltubular cell apoptosis at all substrate replacement time pointsexamined, with peak apoptotic cell death occurring after either 24 or 48 h. p38 MAPK inhibition abolished TNF- mRNA production andTNF- bioactivity, and both p38 MAPK inhibition and TNF- neutralization (anti-porcine TNF- antibody) preventedapoptosis after 60 min of SI. These results constitute theinitial demonstration that 1) renal tubular cells produceTNF- mRNA and biologically active TNF- and undergoapoptosis in response to SI, and 2) p38 MAPKmediates renal tubular cell TNF- production and TNF--dependent apoptosis after SI.

     

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.

     

A second enzyme protecting mineralocorticoid receptors from glucocorticoid occupancy

We have confirmed that A6 cells (derived fromkidney of Xenopus laevis), whichcontain both mineralocorticoid and glucocorticoid receptors, do notnormally possess 11-hydroxysteroid dehydroxgenase (11-HSD1 or11-HSD2) enzymatic activity and so are without apparent "protective" enzymes. A6 cells do not convert the glucocorticoid corticosterone to 11-dehydrocorticosterone but do, however, possess steroid 6-hydroxylase that transforms corticosterone to6-hydroxycorticosterone. This hydroxylase is cytochromeP-450 3A (CYP3A). We have nowdetermined the effects of 3,5-tetrahydroprogesterone andchenodeoxycholic acid (both inhibitors of 11-HSD1) and11-dehydrocorticosterone and11-hydroxy-3,5-tetrahydroprogesterone (inhibitors of11-HSD2) and carbenoxalone, which inhibits both 11-HSD1 and11-HSD2, on the actions and metabolism of corticosterone and activeNa⁺ transport [short-circuitcurrent(I_sc)] inA6 cells. All of these 11-HSD inhibitory substances induced asignificant increment in corticosterone-inducedI_sc, which wasdetectable within 2 h. However, none of these agents caused an increasein I_sc whenincubated by themselves with A6 cells. In all cases, the additionalI_sc was inhibitedby the mineralocorticoid receptor (MR) antagonist, RU-28318, whereasthe original I_scelicited by corticosterone alone was inhibited by the glucocorticoidreceptor antagonist, RU-38486. In separate experiments, each agent wasshown to significantly inhibit metabolism of corticosterone to6-hydroxycorticosterone in A6 cells, and a linear relationshipexisted between 6-hydroxylase inhibition and the MR-mediatedincrease in I_scin the one inhibitor tested. Troleandomycin, a selective inhibitor ofCYP3A, inhibited 6-hydroxylase and also significantly enhancedcorticosterone-induced I_sc at 2 h. Theseexperiments indicate that the enhanced MR-mediated I_sc in A6 cellsmay be related to inhibition of 6-hydroxylase activity in thesecells and that this 6-hydroxylase (CYP3A) may be protecting theexpression of corticosterone-induced active Na⁺ transport in A6 cells byMR-mediated mechanism(s).

     

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.

     

Resistance to TNF-alpha cytotoxicity can be achieved through different signaling pathways in rat mesangial cells

We reported previously that Ro-318220 blocked expression ofmitogen-activated protein kinase phosphatase-1 (MKP-1) induced by tumornecrosis factor- (TNF-) and subsequently caused apopotosis inmesangial cells (Y.-L. Guo, B. Kang, and J. R. Williamson. J. Biol. Chem. 273: 10362-10366,1998). These data support our hypothesis that a TNF--induciblephosphatase may be responsible for preventing sustained activation ofc-Jun NH₂-terminal protein kinase(JNK) and consequent cell death in these cells (Y.-L. Guo, K. Baysal,B. Kang, L.-J. Yang, and J. R. Williamson. J. Biol. Chem. 273: 4027-4034, 1998). In this study, weinvestigated the involvement of protein kinase C (PKC) in regulation ofMKP-1 expression in mesangial cells together with effects on viability.Although originally characterized as a PKC inhibitor, Ro-318220inhibited TNF--induced MKP-1 expression through a mechanism otherthan blocking the PKC pathway. Furthermore, inhibition of the PKCpathway neither significantly affected TNF--induced MKP-1 expression nor made cells susceptible to toxic effect of TNF-. Thus PKC activation is not essential for cells to achieve the resistance toTNF- cytotoxicity displayed by normal mesangial cells. However, activation of PKC by phorbol 12-myristate 13-acetate (PMA) dramatically increased cellular resistance to the apoptotic effect of TNF-. Coincidentally, PMA stimulated MKP-1 expression and suppressed JNKactivation. Therefore, PMA-induced MKP-1 expression may contribute tothe protective effect of PMA. These results provide a mechanistic explanation for previous documentation that PKC activation can rescuesome cells from apopotosis.     

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.

     

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.