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.

     

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.

     

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.

     

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.     

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

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

     

Expression of the TGF-beta receptor gene and sensitivity to growth inhibition following polyamine depletion

Our previous studieshave shown that inhibition of polyamine biosynthesis increases thesensitivity of intestinal epithelial cells to growth inhibition inducedby exogenous transforming growth factor- (TGF-). This study wentfurther to determine whether expression of the TGF- receptor genesis involved in this process. Studies were conducted in the IEC-6 cellline, derived from rat small intestinal crypt cells. Administration of-difluoromethylornithine (DFMO), a specific inhibitor of ornithinedecarboxylase (the rate-limiting enzyme for polyamine synthesis), for 4 and 6 days depleted cellular polyamines putrescine, spermidine, andspermine in IEC-6 cells. Polyamine depletion by DFMO increased levelsof the TGF- type I receptor (TGF-RI) mRNA and protein but had noeffect on the TGF- type II receptor expression. The inducedTGF-RI expression after polyamine depletion was associated with anincreased sensitivity to growth inhibition induced by exogenous TGF-but not by somatostatin. Extracellular matrix laminin inhibited IEC-6cell growth without affecting the TGF- receptor expression. Lamininconsistently failed to induce the sensitivity of TGF--mediatedgrowth inhibition. In addition, decreasing TGF-RI expression bytreatment with retinoic acid not only decreased TGF--mediated growthinhibition in normal cells but also prevented the increased sensitivityto exogenous TGF- in polyamine-deficient cells. These resultsindicate that 1) depletion of cellular polyamines by DFMOincreases expression of the TGF-RI gene and 2) increasedTGF-RI expression plays an important role in the process throughwhich polyamine depletion sensitizes intestinal epithelial cells togrowth inhibition induced by TGF-.

     

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.

     

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.

     

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).

     

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.

     

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.

     

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.

     

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.

     

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.     

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.

     

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

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

     

Transforming growth factor-beta 1 modulates the expression of vascular endothelial growth factor by osteoblasts

Angiogenesis is essential to both normal and pathological bonephysiology. Vascular endothelial growth factor (VEGF) has been implicated in angiogenesis, whereas transforming growth factor-1 (TGF-1) modulates bone differentiation, matrixformation, and cytokine expression. The purpose of this study was toinvestigate the relationship between TGF-1 and VEGF expression inosteoblasts and osteoblast-like cells. Northern blot analysis revealedan early peak of VEGF mRNA (6-fold at 3 h) in fetal rat calvarial cellsand MC3T3-E1 osteoblast-like cells after stimulation with TGF-1 (2.5 ng/ml). The stability of VEGF mRNA in MC3T3-E1 cells was not increasedafter TGF-1 treatment. Actinomycin D inhibited the TGF-1-inducedpeak in VEGF mRNA, whereas cycloheximide did not. Blockade of TGF-1signal transduction via a dominant-negative receptor II adenovirussignificantly decreased TGF-1 induction of VEGF mRNA. Additionally,TGF-1 induced a dose-dependent increase in VEGF protein expressionby MC3T3-E1 cells (P < 0.01).Dexamethasone similarly inhibited VEGF protein expression. BothTGF-1 mRNA and VEGF mRNA were concurrently present in rat membranousbone, and both followed similar patterns of expression during ratmandibular fracture healing (mRNA and protein). In summary,TGF-1-induced VEGF expression by osteoblasts and osteoblast-likecells is a dose-dependent event that may be intimately related to bonedevelopment and fracture healing.

     

CCK independently activates intracellular trypsinogen and NF-kappaB in rat pancreatic acinar cells

In the cholecystokinin (CCK)hyperstimulation model of acute pancreatitis, two early intracellularevents, activation of trypsinogen and activation of nuclear factor-B(NF-B), are thought to be important in the development of thedisease. In this study, the relationship between these two events wasinvestigated. NF-B activity was monitored by using a DNA bindingassay and mob-1 chemokine gene expression. Intracellulartrypsin activity was measured by using a fluorogenic substrate.Protease inhibitors including FUT-175, Pefabloc, and E-64d preventedCCK stimulation of intracellular trypsinogen and NF-B activation.Likewise, the NF-B inhibitors pyrrolidine dithiocarbamate andN-acetyl-L-cysteine inhibited CCK stimulation ofNF-B and intracellular trypsinogen activation. These resultssuggested a possible codependency of these two events. However, CCKstimulated NF-B activation in Chinese hamster ovary-CCK_Acells, which do not express trypsinogen, indicating that trypsin is notnecessary for CCK activation of NF-B. Furthermore,adenovirus-mediated expression in acinar cells of active p65 subunitsto stimulate NF-B, or of inhibitory B- molecules to inhibitNF-B, did not affect either basal or CCK-mediated trypsinogenactivation. Thus trypsinogen and NF-B activation are independentevents stimulated by CCK.

     

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.

     

Serine phosphorylation of p60 tumor necrosis factor receptor by PKC-delta in TNF-alpha-activated neutrophils

Tumor necrosis factor-(TNF-) triggers degranulation and oxygen radical release in adherentneutrophils. The p60TNF receptor (p60TNFR) is responsible forproinflammatory signaling, and protein kinase C (PKC) is a candidatefor the regulation of p60TNFR. Both TNF- and the PKC-activatorphorbol 12-myristate 13-acetate triggered phosphorylation of p60TNFR.Receptor phosphorylation was on both serine and threonine but not ontyrosine residues. The PKC- isotype is a candidate enzyme for serinephosphorylation of p60TNFR. Staurosporine and the PKC- inhibitorrottlerin inhibited TNF--triggered serine but not threoninephosphorylation. Serine phosphorylation was associated withreceptor desensitization, as inhibition of PKC resulted in enhanceddegranulation (elastase release). After neutrophil activation, PKC-was the only PKC isotype that associated with p60TNFR within thecorrect time frame for receptor phosphorylation. In vitro, onlyPKC-, but not the -, I-, II-, or -isotypes, wascompetent to phosphorylate the receptor, indicating that p60TNFR is adirect substrate for PKC-. These findings suggest a selective rolefor PKC- in negative regulation of the p60TNFR and ofTNF--induced signaling.