Protein kinase Calpha participates in activation of store-operated Ca2+ channels in human glomerular mesangial cells

Protein kinase C (PKC) plays animportant role in activating store-operated Ca²⁺ channels(SOC) in human mesangial cells (MC). The present study was performed todetermine the specific isoform(s) of conventional PKC involved inactivating SOC in MC. Fura 2 fluorescence ratiometry showed that thethapsigargin-induced Ca²⁺ entry (equivalent to SOC) wassignificantly inhibited by 1 µM Gö-6976 (a specific PKC andI inhibitor) and PKC antisense treatment (2.5 nM for 24-48h). However, LY-379196 (PKC inhibitor) and2,2',3,3',4,4'-hexahydroxy-1,1'-biphenyl-6,6'-dimethanoldimethyl ether(HBDDE; PKC and  inhibitor) failed to affect thapsigargin-evoked activation of SOC. Single-channel analysis in the cell-attached configuration revealed that Gö-6976 and PKC antisensesignificantly depressed thapsigargin-induced activation of SOC.However, LY-379196 and HBDDE did not affect the SOC responses. Ininside-out patches, application of purified PKC or I, but notII or , significantly rescued SOC from postexcision rundown.Western blot analysis revealed that thapsigargin evoked a decrease incytosolic expression with a corresponding increase in membraneexpression of PKC and . However, the translocation from cytosolto membranes was not detected for PKCI or II. These resultssuggest that PKC participates in the intracellular signaling pathwayfor activating SOC upon release of intracellular stores ofCa²⁺.

     

Vascular endothelial cells express isoforms of protein kinase A inhibitor

First published September 5, 2001;10.1152/ ajpcell.00256.2001.The expression and function of theendogenous inhibitor of cAMP-dependent protein kinase (PKI) inendothelial cells are unknown. In this study, overexpression of rabbitmuscle PKI gene into endothelial cells inhibited the cAMP-mediatedincrease and exacerbated thrombin-induced decrease in endothelialbarrier function. We investigated PKI expression in human pulmonaryartery (HPAECs), foreskin microvessel (HMECs), and brain microvesselendothelial cells (HBMECs). RT-PCR using specific primers for humanPKI, human PKI, and mouse PKI sequences detectedPKI and PKI mRNA in all three cell types. Sequencing and BLASTanalysis indicated that forward and reverse DNA strands for PKI andPKI were of >96% identity with database sequences. RNaseprotection assays showed protection of the 542 nucleotides in HBMEC andHPAEC PKI mRNA and 240 nucleotides in HBMEC, HPAEC, and HMEC PKImRNA. Western blot analysis indicated that PKI protein was detectedin all three cell types, whereas PKI was found in HBMECs. Insummary, endothelial cells from three different vascular beds expressPKI and PKI, which may be physiologically important inendothelial barrier function.

     

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.

     

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.

     

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

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

     

Differential requirement for NF-kappaB-inducing kinase in the induction of NF-kappaB by IL-1beta,TNF-alpha,and Fas

In this study, weexamined the role of the nuclear factor-B (NF-B)-inducing kinase(NIK) in distinct signaling pathways leading to NF-B activation. Weshow that a dominant-negative form of NIK (dnNIK) delivered byadenoviral (Ad5dnNIK) vector inhibits Fas-induced IBphosphorylation and NF-B-dependent gene expression in HT-29 and HeLacells. Interleukin (IL)-1- and tumor necrosis factor-(TNF-)-induced NF-B activation and B-dependent gene expressionare inhibited in HeLa cells but not in Ad5dnNIK-infected HT-29 cells.Moreover, Ad5dnNIK failed to sensitize HT-29 cells to TNF--inducedapoptosis at an early time point. However, cytokine- andFas-induced signals to NF-B are finally integrated by the IBkinase (IKK) complex, since IB phosphorylation, NF-B DNAbinding activity, and IL-8 gene expression were strongly inhibited inHT-29 and HeLa cells overexpressing dominant-negative IKK(Ad5dnIKK). Our findings support the concept that cytokine signalingto NF-B is redundant at the level of NIK. In addition, this studydemonstrates for the first time the critical role of NIK and IKK inFas-induced NF-B signaling cascade.

     

Functional overload increases beta-MHC promoter activity in rodent fast muscle via the proximal MCAT (betae3) site

Functional overload (OL)of the rat plantaris muscle by the removal of synergistic musclesinduces a shift in the myosin heavy chain (MHC) isoform expressionprofile from the fast isoforms toward the slow type I, or, -MHCisoform. Different length rat -MHC promoters were linked to afirefly luciferase reporter gene and injected in control and OLplantaris muscles. Reporter activities of 3,500, 914, 408, and215 bp promoters increased in response to 1 wk of OL. The smallest171 bp promoter was not responsive to OL. Mutation analyses ofputative regulatory elements within the 171 and 408 bp region wereperformed. The 408 bp promoters containing mutations of the e1,distal muscle CAT (MCAT; e2), CACC, or A/T-rich (GATA), were stillresponsive to OL. Only the proximal MCAT (e3) mutation abolished theOL response. Gel mobility shift assays revealed a significantly higherlevel of complex formation of the e3 probe with nuclear protein fromOL plantaris compared with control plantaris. These results suggestthat the e3 site functions as a putative OL-responsive element inthe rat -MHC gene promoter.

     

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.

     

Rapid and dynamic regulation of TGF-beta receptors on blood vessels and fibroblasts during ischemia-reperfusion injury

Thepathophysiological mechanisms involved in ischemia-reperfusioninjury are poorly understood. Although transforming growth factor(TGF)- has been shown to provide protection againstischemia-reperfusion injury in different organ systems, littleis known about the regulation of TGF- action during this process.Here we analyzed the effect of ischemia and reperfusion on theexpression of TGF- and its receptors in vivo with a pig skin flapmodel. Analysis of unoperated skin, nonischemic control flap,ischemic flap, and reperfused flap by immunohistochemistryindicates that ischemia and reperfusion result in rapid anddynamic regulation of type I, II, and III TGF- receptors andTGF-1 in a cell type-specific manner. Furthermore, hypoxiaupregulates type II TGF- receptor mRNA in skin fibroblasts inculture. Together, our results reveal that TGF- receptors andTGF-1 are markedly increased under acute ischemic conditions in the blood vessels and fibroblasts of the skin. We conclude thatTGF- action is enhanced under ischemic conditions and that it may represent an adaptive response to ischemic injury. The augmented TGF- responsiveness may be a critical determinant of theprotective effect of TGF- during ischemia-reperfusion injury.

     

Effect of interleukin-1beta and tumor necrosis factor-alpha on gene expression in human endothelial cells

Interleukin-1(IL-1) and tumor necrosis factor- (TNF-) are two majorcytokines that rise to relatively high levels during systemicinflammation, and the endothelial cell (EC) response to these cytokinesmay explain some of the dysfunction that occurs. To better understandthe cytokine-induced responses of EC at the gene expression level,human umbilical vein EC were exposed to IL-1 or TNF- for varioustimes and subjected to cDNA microarray analyses to study alterations intheir mRNA expression. Of ~4,000 genes on the microarray, expressionlevels of 33 and 58 genes appeared to be affected by treatment withIL-1 and TNF-, respectively; 25 of these genes responded to bothtreatments. These results suggest that the effects of IL-1 andTNF- on EC are redundant and that it may be necessary to suppressboth cytokines simultaneously to ameliorate the systemic response.

     

Lung epithelial barrier function and wound healing are decreased by IL-4 and IL-13 and enhanced by IFN-gamma

To understand theeffects of cytokines on epithelial cells in asthma, we haveinvestigated the effects of interleukin (IL)-4, IL-13, and interferon(IFN)- on barrier function and wound healing in Calu-3 human lungepithelial cells. IL-4 and IL-13 treatment of Calu-3 cells grown onTranswell filters resulted in a 70-75% decrease in barrierfunction as assessed by electrophysiological and[¹⁴C]mannitol flux measurements. In contrast, IFN-enhanced barrier function threefold using these same parameters. Cellstreated concurrently with IFN- and IL-4 or IL-13 showed an initialdecline in barrier function that was reversed within 2 days, resulting in barrier levels comparable to control cells. Analysis of the tightjunction-associated proteins ZO-1 and occludin showed that IL-4 andIL-13 significantly reduced ZO-1 expression and modestly decreasedoccludin expression compared with controls. IFN-, quite unexpectedlygiven its enhancing effect on barrier function, reduced expression ofZO-1 and occludin to almost undetectable levels compared with controls.In wound-healing assays of cells grown on collagen I, IL-4 and IL-13decreased migration, whereas IFN- treatment enhanced migration,compared with control cells. Addition of IFN-, in combination withIL-4 or IL-13, restored migration of cells to control levels. Migrationdifferences observed between the various cytokine treatments wascorrelated with expression of the collagen I-binding₂₁-integrin at the leading edge of cellsat the wound front; ₂₁-integrinexpression was decreased in IFN--treated cells compared withcontrols, whereas it was highest in IL-4- and IL-13-treated cells.These results demonstrate that IL-4 and IL-13 diminish the capacity ofCalu-3 cells to maintain barrier function and repair wounds, whereasIFN- promotes epithelial restitution by enhancing barrier functionand wound healing.

     

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.

     

Differential expression of TGF-beta isoforms by normal and inflammatory bowel disease intestinal myofibroblasts

First publishedSeptember 5, 2001; 10.1152/ajpcell. 00048.2001.Intestinalstrictures are frequent in Crohn's disease but not ulcerative colitis.We investigated the expression of transforming growth factor (TGF)-isoforms by isolated and cultured primary human intestinalmyofibroblasts and the responsiveness of these cells and intestinalepithelial cells to TGF- isoforms. Normal intestinal myofibroblastsreleased predominantly TGF-₃ and ulcerative colitismyofibroblasts expressed both TGF-₁ andTGF-₃, whereas in myofibroblast cultures from fibroticCrohn's disease tissue, there was significantly lower expression ofTGF-₃ but enhanced release of TGF-₂.These distinctive patterns of TGF- isoform release were sustainedthrough several myofibroblast passages. Proliferation of Crohn'sdisease myofibroblasts was significantly greater than that ofmyofibroblasts derived from normal and ulcerative colitis tissue. Incontrast to cells from normal and ulcerative colitis tissue,neutralization of the three TGF- isoforms did not affect theproliferation of Crohn's disease intestinal myofibroblasts. Studies onthe effect of recombinant TGF- isoforms on epithelial restitutionand proliferation suggest that TGF-₂ may be the least effective of the three isoforms in intestinal wound repair. In conclusion, the enhanced release of TGF-₂ but reducedexpression of TGF-₃ by Crohn's disease intestinalmyofibroblasts, together with their enhanced proliferative capacity,may lead to the development of intestinal strictures.

     

Regulation of Fas (CD95)-induced apoptosis by nuclear factor-kappaB and tumor necrosis factor-alpha in macrophages

The APO-1/Fasligand (FasL) and tumor necrosis factor- (TNF-) are twofunctionally related molecules that induce apoptosis ofsusceptible cells. Although the two molecules have been reported toinduce apoptosis via distinct signaling pathways, we have shown that FasL can also upregulate the expression of TNF-, raising thepossibility that TNF- may be involved in FasL-inducedapoptosis. Because TNF- gene expression is under the controlof nuclear factor-B (NF-B), we investigated whether FasL caninduce NF-B activation and whether such activation plays a role inFasL-mediated cell death in macrophages. Gene transfection studiesusing NF-B-dependent reporter plasmid showed that FasL did activateNF-B promoter activity. Gel shift studies also revealed that FasLmobilized the p50/p65 heterodimeric form of NF-B. Inhibition ofNF-B by a specific NF-B inhibitor, caffeic acid phenylethylester, or by dominant expression of the NF-B inhibitory subunitIB caused an increase in FasL-induced apoptosis and areduction in TNF- expression. However, neutralization of TNF- byspecific anti-TNF- antibody had no effect on FasL-inducedapoptosis. These results indicate that FasL-mediated cell deathin macrophages is regulated through NF-B and is independent ofTNF- activation, suggesting the antiapoptotic role of NF-Band a separate death signaling pathway mediated by FasL.

     

IkappaBalpha-dependent regulation of low-shear flow-induced NF-kappa B activity: role of nitric oxide

We have investigated the role ofinhibitor B (IB) in the activation of nuclear factor B(NF-B) observed in human aortic endothelial cells (HAEC) undergoinga low shear stress of 2 dynes/cm². Low shear for 6 hresulted in a reduction of IB levels, an activation of NF-B,and an increase in B-dependent vascular cell adhesion molecule 1 (VCAM-1) mRNA expression and endothelial-monocyte adhesion.Overexpression of IB in HAEC attenuated all of these shear-induced responses. These results suggest that downregulation ofIB is the major factor in the low shear-induced activation ofNF-B in HAEC. We then investigated the role of nitric oxide (NO) inthe regulation of IB/NF-B. Overexpression of endothelial nitric oxide synthase (eNOS) inhibited NF-B activation in HAEC exposed to 6 h of low shear stress. Addition of the structurally unrelated NO donors S-nitrosoglutathione (300 µM) orsodium nitroprusside (1 mM) before low shear stress significantlyincreased cytoplasmic IB and concomitantly reduced NF-Bbinding activity and B-dependent VCAM-1 promoter activity. Together,these data suggest that NO may play a major role in the regulation ofIB levels in HAEC and that the application of low shear flowincreases NF-B activity by attenuating NO generation and thusIB levels.

     

Combined modulation of the mesangial machinery for monocyte recruitment by inhibition of NF-kappa B

The activation of nuclear factor-B(NF-B) is required for the induction of many of the adhesionmolecules and chemokines involved in the inflammatory leukocyterecruitment to the kidney. Here we studied the effects of NF-Binhibition on the machinery crucial for monocyte infiltration of theglomerulus during inflammation. In mesangial cells (MC), the proteaseinhibitors MG-132 and N--tosyl-L-lysine chloromethyl ketone or adenoviral overexpression of IB- prevented the complete IB- degradation following tumor necrosis factor- (TNF-) stimulation. This resulted in a marked inhibition ofTNF--induced expression of mRNA and protein for the immunoglobulinmolecules intracellular adhesion molecule-1 and vascular cell adhesionmolecule-1 and the chemokines growth-related oncogene-, monocytechemoattractant protein-1, interleukin-8, or fractalkine in MC.Finally, the inhibition of IB- degradation or IB-overexpression suppressed the chemokine-induced transendothelialmonocyte chemotaxis toward MC and the chemokine-triggered firm adhesionof monocytic cells to MC. The inhibition of NF-B by pharmacologicalintervention or gene transfer may present a multimodal approach tocontrol the machinery propagating inflammatory recruitment of monocytesduring glomerular disease.

     

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.

     

Rabbit retinal neurons and glia express a variety of ENaC/DEG subunits

Some members of the epithelialNa⁺ channel/degenerin (ENaC/DEG) family of ion channelshave been detected in mammalian brain. Therefore, we examined the RNAand protein expression of these channels in another part of the centralnervous system, the rabbit retina. We next sought to demonstratephysiological evidence for an amiloride-sensitive current inMüller glia, which, on the basis of a previous study, are thoughtto express -ENaC (Golestaneh N, de Kozak Y, Klein C, and Mirshahi M. Glia 33: 160-168, 2001). RT-PCR of retinal RNA revealedthe presence of -, -, -, and -ENaC as well as acid-sensingion channel (ASIC)1, ASIC2, ASIC3, and ASIC4. Immunohistochemicallocalization with antibodies against -ENaC and -ENaC showedlabeling in Müller cells and neurons, respectively. The presenceof -ENaC, -ENaC, and ASIC1 was detected by Western blotting.Cultured Müller cells were whole cell patch clamped. These cellsexhibited an inward Na⁺ current that was blocked byamiloride. These data demonstrate for the first time both theexpression of a variety of ENaC and ASIC subunits in the rabbit retinaas well as distinct cellular expression patterns of specific subunitsin neurons and glia.

     

GSK-3beta negatively regulates skeletal myotube hypertrophy

Todetermine whether changes in glycogen synthase kinase-3 (GSK-3)phosphorylation contribute to muscle hypertrophy, we delineated theeffects of GSK-3 activity on C₂C₁₂ myotubesize. We also examined possible insulin-like growth factor I (IGF-I) signaling of NFAT (nuclear factors of activated T cells)-inducible geneactivity and possible modulation of NFAT activation by GSK-3. Application of IGF-I (250 ng/ml) or LiCl (10 mM) alone (i.e., bothinhibit GSK-3 activity) increased the area ofC₂C₁₂ myotubes by 80 and 85%, respectively.The application of IGF-I (250 ng/ml) elevated GSK-3 phosphorylationand reduced GSK-3 kinase activity by ~800% and ~25%,respectively. LY-294002 (100 µM) and wortmannin (150 µM), specificinhibitors of phosphatidylinositol 3'-kinase, attenuated IGF-I-inducedGSK-3 phosphorylation by 67 and 92%, respectively. IGF-I suppressedthe kinase activity of GSK-3. IGF-I (250 ng/ml), but not LiCl (10 mM), induced an increase in NFAT-activated luciferase reporteractivity. Cotransfection of a constitutively active GSK-3(cGSK-3) inhibited the induction by IGF-I of NFAT-inducible reporteractivity. LiCl, which inhibits GSK-3, removed the block by cGSK-3on IGF-I-inducible NFAT-responsive reporter gene activity. These datasuggest that the IGF-I-induced increase in skeletal myotube size issignaled, in part, through the inhibition of GSK-3.

     

Adult alveolar epithelial cells express multiple subtypes of voltage-gated K+ channels that are located in apical membrane

Whole cell perforated patch-clampexperiments were performed with adult rat alveolar epithelial cells.The holding potential was 60 mV, and depolarizing voltage stepsactivated voltage-gated K⁺ (Kv) channels. Thevoltage-activated currents exhibited a mean reversal potential of 32mV. Complete activation was achieved at 10 mV. The currents exhibitedslow inactivation, with significant variability in the time coursebetween cells. Tail current analysis revealed cell-to-cell variabilityin K⁺ selectivity, suggesting contributions of multiple Kv-subunits to the whole cell current. The Kv channels also displayedsteady-state inactivation when the membrane potential was held atdepolarized voltages with a window current between 30 and 5 mV.Analysis of RNA isolated from these cells by RT-PCR revealed thepresence of eight Kv -subunits (Kv1.1, Kv1.3, Kv1.4, Kv2.2, Kv4.1,Kv4.2, Kv4.3, and Kv9.3), three -subunits (Kv1.1, Kv2.1, andKv3.1), and two K⁺ channel interacting protein (KChIP)isoforms (KChIP2 and KChIP3). Western blot analysis with available Kv-subunit antibodies (Kv1.1, Kv1.3, Kv1.4, Kv4.2, and Kv4.3) showedlabeling of 50-kDa proteins from alveolar epithelial cells grown inmonolayer culture. Immunocytochemical analysis of cells from monolayersshowed that Kv1.1, Kv1.3, Kv1.4, Kv4.2, and Kv4.3 were localized to theapical membrane. We conclude that expression of multiple Kv -, -,and KChIP subunits explains the variability in inactivation gating andK⁺ selectivity observed between cells and that Kv channelsin the apical membrane may contribute to basal K⁺ secretionacross the alveolar epithelium.