Distinct and specific functions of cGMP-dependent protein kinases.

cGMP-dependent protein kinases I and II conduct signals from widespread signaling systems. Whereas the type I kinase mediates numerous effects of natriuretic peptides and nitric oxide in cardiovascular cells, the type II kinase transduces signals from the Escherichia coli heat-stable enterotoxin, STa, and from the endogenous intestinal peptide, guanylin, stimulating Cl- conductance of the cystic fibrosis transmembrane conductance regulator (CFTR). Although the two kinases may be interchangeable for several functions, CFTR regulation specifically requires the type II kinase.

Endogenous expression of type II cGMP-dependent protein kinase mRNA and protein in rat intestine. Implications for cystic fibrosis transmembrane conductance regulator.

Certain pathogenic bacteria produce a family of heat stable enterotoxins (STa) which activate intestinal guanylyl cyclases, increase cGMP, and elicit life-threatening secretory diarrhea. The intracellular effector of cGMP actions has not been clarified. Recently we cloned the cDNA for a rat intestinal type II cGMP dependent protein kinase (cGK II) which is highly enriched in intestinal mucosa. Here we show that cGK II mRNA and protein are restricted to the intestinal segments from the duodenum to the proximal colon, with the highest amounts of cGK II protein in duodenum and jejunum. cGK II mRNA and protein decreased along the villus to crypt axis in the small intestine, whereas substantial amounts of both were found in the crypts of cecum. In intestinal epithelia, cGK II was specifically localized in the apical membrane, a major site of ion transport regulation. In contrast to cGK II, cGK I was localized in smooth muscle cells of the villus lamina propria. Short circuit current (ISC), a measure of Cl- secretion, was increased to a similar extent by STa and by 8-Br-cGMP, a selective activator of cGK, except in distal colon and in monolayers of T84 human colon carcinoma cells in which cGK II was not detected. In human and mouse intestine, the cyclic nucleotide-regulated Cl- conductance can be exclusively accounted for by the cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel. Viewed collectively, the data suggest that cGK II is the mediator of STa and cGMP effects on Cl- transport in intestinal-epithelia.

Luteinizing hormone inhibits Fas-induced apoptosis in ovarian surface epithelial cell lines.

Gonadotrophins including LH have been suggested to play an important role in the etiology of epithelial ovarian cancers. The goal of the present study was to obtain more insight in the mechanism of gonadotrophin action on ovarian surface epithelium (OSE) cells. As the Fas system is known to be a major player in the regulation of the process of apoptosis in the ovary, we investigated whether LH interfered with Fas-induced apoptosis in the human OSE cancer cell lines HEY and Caov-3. Activation of Fas receptor by an agonistic anti-Fas receptor antibody induced apoptosis, as was evaluated by caspase-3 activation, poly(ADP-ribose) polymerase fragmentation, phosphatidylserine externalization and morphological changes characteristic of apoptosis. Co-treatment with LH reduced the number of apoptotic cells following activation of Fas in a transient manner, while LH by itself did not affect apoptosis or cell proliferation. The anti-apoptotic effect of LH could be mimicked by the membrane-permeable cAMP analog 8-(4-chlorophenylthio) cAMP (8-CPT-cAMP), and blocked by H89, a specific inhibitor of protein kinase A (PKA). In conclusion, these findings suggest that LH protects HEY cells against Fas-induced apoptosis through a signaling cascade involving PKA. Although it is plausible that in vivo LH might also enhance OSE tumor growth through inhibition of apoptosis, further research is necessary to confirm this hypothesis.

A sensitive technique for the determination of anion exchange activities in brush-border membrane vesicles. Evidence for two exchangers with different affinities for HCO3- and SITS in rat intestinal epithelium.

A large percentage (up to 70%) of 36Cl- influx in brush-border membrane vesicles from rat small intestine under equilibrium exchange conditions was found to be mediated by SITS-inhibitable anion exchange. This Cl-/anion exchange could be measured 10-15-times more sensitive by determining the uptake of trace amounts of 125I- driven by a large Cl- gradient (in greater than out) generated by passing the vesicles through an anion-exchange column. Voltage clamping of the vesicle membrane with K+ and valinomycin did not effect the chloride driven 125I- uptake, showing that the 'overshooting' I- uptake was not mediated by an electrical diffusion potential, as might be generated by the Cl- gradient in the presence of a chloride channel. The Cl-/anion exchange was further characterized in brush-border membrane vesicles from both rat ileum and jejunum by studying the inhibitory action of various anions on the Cl- driven I- uptake. NO3-, Cl-, SCN- and formate at 2 mM could inhibit Cl-/I- exchange for more than 80%. The ileal brush-border membrane vesicles displayed a clear heterogeneity with respect to the inhibitory action of SO2-(4), SITS and HCO-3 on Cl-/I- exchange. Approximately 30% of the Cl-/I- exchange was insensitive to SO2-(4) and showed a relatively low sensitivity to SITS (IC50 = 1 mM) but could be inhibited for 80% by 2 mM HCO-3. Presumably this component represents Cl-/OH- or Cl-/HCO-3 exchange. The residual 70% showed a high sensitivity to SO2-(4) (IC50 = 0.5 mM) and SITS (IC50 = 2.5 microM) but was less sensitive to HCO-3. This part of the exchange activity showed inhibition characteristics very similar to the Cl-/I- exchange in the jejunal vesicles. The latter process was also inhibited for 80% by 2 mM oxalate. As discussed in this paper both exchangers may be involved in the electroneutral transport of NaCl across the apical membrane of the small intestinal villus cell.

Modulation of salt permeabilities of intestinal brush-border membrane vesicles by micromolar levels of internal calcium.

A possible modulation of ion permeabilities of rat intestinal brush-border membrane vesicles by Ca2+, a putative second messenger of salt secretion, was explored by three independent methods: (1) measurements of [3H]glucose accumulation driven by a Na+ gradient; (2) stopped-flow spectrophotometry of salt-induced osmotic swelling; (3) 86Rb+, 22Na+ and 36Cl- flux measurements. Cytoskeleton-deprived membrane vesicles were prepared from isolated brushborders by thiocyanate treatment. Intravescicular Ca2+ levels were varied by preincubating vesicles in Ca-EGTA buffers in the presence of the Ca2+-ionophore A23187. At Ca2+free greater than 10(-5) M, initial Na+-dependent glucose uptake in the presence of a 0.1 M NaSCN gradient (but not in its absence) was inhibited by about 50 per cent as compared to EGTA alone (ED50 approximately equal to 10(-6) M Ca2+). By contrast, initial rates of 22Na+ uptake and reswelling rates of vesicles exposed to a NaSCN gradient were increased at least 2-fold by 10(-5) M Ca2+free. Both observations are compatible with a Ca2+-induced increase of the Na+-permeability of the vesicle membrane. The modulation of ion transport was fully reversible and critically dependent on internal Ca2+, suggesting a localization of Ca2+-sensor sites at the inner surface of the microvillous membrane. As shown by radiotracer and osmotic swelling measurements, micromolar Ca2+ additionally increased the flux rate of K+, Rb+, Cl- and NO-3 but did not change the membrane permeability for small uncharged molecules, including glucose and mannitol. The effect of Ca2+ on ion permeabilities could be blocked by Ba2+ (10(-3) M) or Mg2+ (10(-2) M), but not by amiloride (10(-3) M), apamin (2 X 10(-7) M), trifluoperazine (10(-4) M) or quinine (5 X 10(-4) M). At present it is unclear whether Ca2+ activates a nonselective cation and anion channel or multiple highly selective channels in the vesicle membrane.

Regulation of chloride transport in cultured normal and cystic fibrosis keratinocytes.

Cultured normal (N) cystic fibrosis (CF) keratinocytes were evaluated for their Cl(-)-transport properties by patch-clamp-, Ussing chamber- and isotopic efflux-measurements. Special attention was paid to a 32 pS outwardly rectifying Cl- channel which has been reported to be activated upon activation of cAMP-dependent pathways in N, but not in CF cells. This depolarization-induced Cl- channel was found with a similar incidence in N and CF apical keratinocyte membranes. However, activation of this channel in excised patches by protein kinase (PK)-A or PK-C was not successful in either N or CF keratinocytes. Forskolin was not able to activate Cl- channels in N and CF cell-attached patches. The Ca(2+)-ionophore A23187 activated in cell-attached patches a linear 17 pS Cl- channel in both N and CF cells. This channel inactivated upon excision. No relationship between the cell-attached 17 pS and the excised 32 pS channel could be demonstrated. Returning to the measurement of Cl- transport at the macroscopic level, we found that a drastic rise in intracellular cAMP induced by forskolin did in N as well as CF cells not result in a change in the short-circuit current (Isc) or the fractional efflux rates of 36Cl- and 125I-. In contrast, addition of A23187 resulted in an increase of the Isc and in the isotopic anion efflux rates in N and CF cells. We conclude that Cl(-)-transport in cultured human keratinocytes can be activated by Ca2+, but not by cAMP-dependent pathways.

Skeletal and hepatic changes induced by chronic vitamin A supplementation in cats.

The first aim of this study was to determine whether vitamin D supplementation influenced the effects of high vitamin A intake on new bone formation in adult cats. The second aim was to determine whether high vitamin A intake in cats caused liver pathology and, if so, whether the current upper limit for the dietary intake of vitamin A for healthy adult cats would be safe. Twenty-four healthy adult cats were divided into four groups that received a control diet supplemented with peanut oil (control), or peanut oil containing a 100-fold increase in vitamin A (HA), or a 100-fold increase in vitamin A and a fivefold increase in vitamin D (HAMD), or a 100-fold increase in vitamin A and a 65-fold increase in vitamin D (HAHD) over a period of 18 months. Cats did not show abnormal locomotion or clinical signs of liver failure after 18 months of supplementation but did show subtle skeletal changes and liver pathology, suggesting that the current National Research Council (2006) safe upper limit for vitamin A for cats is too high. The addition of vitamin D did not seem to influence bone pathology. While moderately elevated dietary vitamin D levels (HAMD) seemed to protect cats against the liver pathology caused by the consumption of large amounts of vitamin A, higher dietary levels of vitamin D (HAHD) did not seem to be protective.

Equine biochemical multiple acyl-CoA dehydrogenase deficiency (MADD) as a cause of rhabdomyolysis.

Two horses (a 7-year-old Groninger warmblood gelding and a six-month-old Trakehner mare) with pathologically confirmed rhabdomyolysis were diagnosed as suffering from multiple acyl-CoA dehydrogenase deficiency (MADD). This disorder has not been recognised in animals before. Clinical signs of both horses were a stiff, insecure gait, myoglobinuria, and finally recumbency. Urine, plasma, and muscle tissues were investigated. Analysis of plasma showed hyperglycemia, lactic acidemia, increased activity of muscle enzymes (ASAT, LDH, CK), and impaired kidney function (increased urea and creatinine). The most remarkable findings of organic acids in urine of both horses were increased lactic acid, ethylmalonic acid (EMA), 2-methylsuccinic acid, butyrylglycine (iso)valerylglycine, and hexanoylglycine. EMA was also increased in plasma of both animals. Furthermore, the profile of acylcarnitines in plasma from both animals showed a substantial elevation of C4-, C5-, C6-, C8-, and C5-DC-carnitine. Concentrations of acylcarnitines in urine of both animals revealed increased excretions of C2-, C3-, C4-, C5-, C6-, C5-OH-, C8-, C10:1-, C10-, and C5-DC-carnitine. In addition, concentrations of free carnitine were also increased. Quantitative biochemical measurement of enzyme activities in muscle tissue showed deficiencies of short-chain acyl-CoA dehydrogenase (SCAD), medium-chain acyl-CoA dehydrogenase (MCAD), and isovaleryl-CoA dehydrogenase (IVD) also indicating MADD. Histology revealed extensive rhabdomyolysis with microvesicular lipidosis predominantly in type 1 muscle fibers and mitochondrial damage. However, the ETF and ETF-QO activities were within normal limits indicating the metabolic disorder to be acquired rather than inherited. To our knowledge, these are the first cases of biochemical MADD reported in equine medicine.

The nitric oxide donor sodium nitroprusside inhibits mineralization in ATDC5 cells.

The aim of this study was to test whether the nitric oxide (NO) donor sodium nitroprusside (SNP) has an effect on mineralization in ATDC5 cells. Mineralization in ATDC5 cell culture was induced by addition of beta-glycerophosphate or inorganic phosphate, visualized by staining precipitated calcium with an alizarin red stain, and quantified using atomic absorption spectrometry. SNP was shown to inhibit the mineralization of ADTC5 cells. This inhibition was not affected by inhibitors of guanylyl cyclase nor mimicked by a cyclic guanosine monophosphate (cGMP) analog. Furthermore, SNP did not inhibit phosphate uptake or inhibit apoptosis in ATDC5 cells. These findings indicate that SNP can specifically inhibit matrix mineralization via a cGMP-independent pathway and that the effect is not mediated by inhibition of phosphate transport or apoptosis. These results suggest a preventive role of NO in premature or pathological mineralization.

Partial purification and characterization of ferritin from the liver and intestinal mucosa of chickens, turtledoves and mynahs.

Ferritin is the iron-storage protein responsible for sequestering excess iron, to be stored in a safe way in the liver or to be shed with the intestinal epithelial cells. The properties of ferritin in iron-overload-susceptible birds have not been elucidated. Furthermore, there is only scarce information on mucosal ferritin, with no information at all in avian species. Here we have studied the liver and proximal intestine ferritins of iron-overload-susceptible (Indian hill mynahs, common mynahs) and non-susceptible (turtledoves, chicken) bird species. A brief purification process preceded native polyacrylamide gel electrophoresis and staining the gels for protein and iron. Protein amounts and iron-binding characteristics of ferritin were measured and ferritin saturation levels were calculated. Although ferritin protein amounts did not differ significantly, liver and mucosal ferritins of sensitive bird species incorporated much more iron, leading to high saturation levels. Significantly higher ferritin iron content and saturation were observed in the liver of both mynah species and in the intestinal ferritin of Indian hill mynahs when compared with the non-susceptible species. Ferritin appears not to play a major role in the regulation of iron absorption, implicating other phases in iron transport to be more important in the onset and process of iron overload in birds.

Lung surfactant proteins A and D in innate immune defense.

The lung surfactant proteins (SP) A and D are large multimeric proteins and belong to a family of collagenous C-type lectins designated collectins. Both SP-A and SP-D are believed to play a role in the innate immunity of the lung. SP-A and SP-D bind to a broad spectrum of pathogens, including bacteria, viruses, fungi and yeasts but also lipopolysaccharides and allergens. Furthermore, SP-A and SP-D enhance the clearing of various pathogens by neutrophils and macrophages in vitro. Recent in vivo studies on SP-A deficient mice also support a role of SP-A in host defense.

Signalling by cGMP-dependent protein kinases.

The second messenger cGMP is a major intracellular mediator of the vaso-active agents nitric oxide and natriuretic peptides. The principal targets of cGMP are (i) phosphodiesterases, resulting in interference with the cAMP-signalling pathway, (ii) cGMP-gated cation channels, and (iii) cGMP-dependent protein kinases (cGKs). Only two mammalian isotypes of cGK have been described so far: type I cGK, consisting of an alpha and a beta isoform, presumably splice variants of a single gene, and identified as the most prominent cGK isotype in the cardio-vascular system; and type II cGK, expressed mainly in the intestine, the kidney and the brain. High levels of cGK I are found in vascular smooth muscle cells, endothelial cells and platelets. In these cells, cGK I is thought to counteract the increase in contraction provoked by Ca-mobilizing agonists, to reduce endothelial permeability and to inhibit platelet aggregation, respectively. Relatively low levels of cGK I are found in cardiomyocytes. In this cell type, cGK is implicated in the negative inotropic effect of cGMP, presumably through modulation of Ca channels and by diminishing the Ca-sensitivity of contractile proteins.

Heat-stable enterotoxin activation of immunopurified guanylyl cyclase C. Modulation by adenine nucleotides.

We studied the activation and inactivation of recombinant guanylyl cyclase (GC) C stably expressed in human kidney 293 cells. Activation of GC-C by heat-stable enterotoxin (STa), Cd2+, hemin, or the detergent Triton X-100 was followed by a rapid inactivation of the enzyme. Adenine nucleotides were found to prevent the inactivation process in native membranes, as well as following enzyme solubilization and immunopurification. Inactivation of GC-C was not associated with dephosphorylation. However, the phosphorylation of GC-C was promoted by phorbol esters, known activators of protein kinase C. The activation of purified GC-C by STa required the presence of a nonspecific factor as exemplified by bovine serum albumin. When immunopurified GC-C, stabilized by ATP and bovine serum albumin, was analyzed by SDS-polyacrylamide gel electrophoresis under nonreducing conditions, proteins with almost twice the molecular mass (220 and 245 kDa) of the monomer were observed. The mobility of these high M(r) GC-C forms was reduced by STa, suggesting that STa induces a conformation change in a preexisting GC-C dimer. These results indicate that ATP interacts directly with GC-C, stabilizing its active conformation and that the activation of GC-C may occur in the absence of other specific regulatory factors.

Asymmetrical distribution of G-proteins among the apical and basolateral membranes of rat enterocytes.

The distribution of the alpha and beta subunits of guanosine-nucleotide-binding proteins (G-proteins) among the apical and basolateral membranes of polarized rat enterocytes was investigated by ADP-ribosylation assays in vitro and immunoblotting with G-protein-subunit-specific antisera. The enterocytes were found to express alpha i2, alpha ji3, alpha s and beta subunits, whereas alpha i1 and alpha o subunits could not be detected. The alpha i2 and alpha i3 subunits were located predominantly in the basolateral membrane, in contrast with the alpha s and beta subunits, which were distributed uniformly among both membranes. Furthermore, 39 kDa and 78 kDa proteins, recognized by anti-alpha i1/2 but not anti-alpha i1 or anti-alpha i3 specific antisera, and resistant to ADP-ribosylation by pertussis toxin, were localized exclusively at the apical border. These Gi-related proteins might represent novel members of the G-protein family. Activation of apical G-proteins by GTP or its analogues failed to release the alpha s, alpha i and beta subunits or the 39 kDa and 78 kDa alpha i-like proteins from the membrane, suggesting a functional role for these proteins in the apical membrane itself. Our recent finding of a guanosine 5'-[gamma-thio]triphosphate-sensitive Cl- conductance in the apical membrane of rat enterocytes suggests that one or more of these G-proteins may act as local regulators of specific apical transport functions.

Atriopeptins and Escherichia coli enterotoxin STa have different sites of action in mammalian intestine.

Studies with Escherichia coli-induced heat-stable enterotoxin (STa), an activator of intestinal particulate guanylate cyclase, have established an independent role for cyclic guanosine monophosphate (cGMP) as an intracellular mediator of intestinal salt and water secretion. The present study addressed whether atriopeptins (APs), known activators of particulate guanylate cyclase in other tissues, function as physiological agonists for cGMP-linked Cl- secretion in intestine. APs, in contrast to STa, caused no or only minor changes in cGMP levels in freshly isolated rat intestinal villus and crypt cells and in cultured human colon carcinoma cell lines (HT29glc-, CaCo-2, and T84). Conversely, APs, but not STa, induced a large increase in intracellular cGMP levels in the undifferentiated small intestinal cell lines IEC-6, IEC-18, and INT407. Addition of AP II (atrial natriuretic peptide fragment 5-27) to stripped mucosa of rat proximal colon in Ussing chambers caused a transient increase in the transepithelial potential difference (PD), which most likely represents an increase in Cl- secretion. In contrast, a sustained increase in PD was observed in response to STa or 8Br-cGMP. The AP II-provoked increase in PD was blocked by the neurotoxin tetrodotoxin. Immunohistochemical detection of cGMP in this tissue provided evidence for a different localization pattern of cells responding with an increase in cGMP levels to STa (colonocytes and goblet cells) or AP (specific cells in the submucosa) in rat proximal colon. This indicates that APs, unlike STa, do not directly stimulate the colonic epithelial cells but possibly provoke Cl- secretion by release of a neurotransmitter in the submucosa.

Phorbol esters stimulate and inhibit Cl- secretion by different mechanisms in a colonic cell line.

Phorbol 12-myristate 13-acetate (PMA) was found to increase both the short-circuit current (Isc) and the efflux of 125I- or 36Cl- in the colonic epithelial cell line HT-29.cl19A. Neither the PMA-provoked rise in Isc nor the stimulation of 125I- efflux was affected by the cyclooxygenase inhibitor indomethacin. The PMA-induced increase in Cl- efflux was not accompanied by a rise in adenosine 3',5'-cyclic monophosphate (cAMP) levels. A prolonged incubation with PMA (3 h), however, inhibited the PMA- and the cAMP-stimulated Isc by greater than 90%, whereas the cAMP-provoked 125I- and 36Cl- efflux was not inhibited. The long-term PMA treatment was found to inhibit the basal and cAMP-provoked 86Rb+ efflux by 65 +/- 9 and 86 +/- 7%, respectively. A 3-h incubation with PMA also strongly inhibited the Ca2+ ionophore A23187-induced increase in 86Rb+ efflux, whereas the A23187-stimulated 125I- efflux was only marginally inhibited. These data suggest that phorbol esters, presumably by activation of protein kinase C, can provoke Cl- secretion in HT-29.cl19A colonocytes independently of a prostaglandin- or cAMP-mediated pathway. Prolonged exposure to PMA, however, causes an inhibition of net electrogenic Cl- secretion by downregulation of the activity of K+ transporters.

Guanosine 3',5'-cyclic monophosphate-dependent protein kinase II mediates heat-stable enterotoxin-provoked chloride secretion in rat intestine.

BACKGROUND & AIMS: Escherichia coli heat-stable enterotoxins (STa) provoke electrogenic Cl- secretion in the intestine through a guanosine 3',5'-cyclic monophosphate (cGMP)-dependent signal transduction pathway. The cGMP receptor involved in the activation of the Cl- channel is not known with certainty but may comprise either adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase (cAK) or cGMP-dependent protein kinase (cGK) type II. The aim of this study was to discriminate between these possibilities using specific kinase inhibitors. METHODS: Intestinal electrogenic Cl- secretion was determined by measuring short-circuit current (Isc) in a Ussing chamber. RESULTS: The general protein kinase inhibitors staurosporine and H-8 inhibited rat cGK II activity in vitro with 50% inhibitory concentration values of 4 nmol/L and 3 mumol/L, respectively, which are lower than those reported for cAK. Both staurosporine and H-8, when added to rat proximal colon at concentrations that did not affect the Isc response to 8-bromo-cAMPS, inhibited the STa- and 8-bromo-cGMP-provoked Isc response for more than 80%. Furthermore, the relative specific cGK inhibitor Rp isomer of 8-(chlorophenylthio)-cGMP, but not the cAK inhibitor RP isomer of (Rp) 8-bromo-cAMPS, inhibited the Isc response to submaximal levels of STa in rat proximal colon. CONCLUSIONS: These data provide further evidence for an important role of cGK II in STa-mediated Cl- secretion in native rat intestinal epithelium.