Claudin-2-mediated cation and water transport share a common pore.

AIM: Claudin-2 is a tight junction protein typically located in 'leaky' epithelia exhibiting large paracellular permeabilities like small intestine and proximal kidney tubule. Former studies revealed that claudin-2 forms paracellular channels for small cations like sodium and potassium and also paracellular channels for water. This study analyses whether the diffusive transport of sodium and water occurs through a common pore of the claudin-2 channel. METHODS: Wild-type claudin-2 and different claudin-2 mutants were expressed in MDCK I kidney tubule cells using an inducible system. Ion and water permeability and the effect of blocking reagents on both were investigated on different clones of the mutants. RESULTS: Neutralization of a negatively charged cation interaction site in the pore with the mutation, D65N, decreased both sodium permeability and water permeability. Claudin-2 mutants (I66C and S68C) with substitution of the pore-lining amino acids with cysteine were used to test the effect of steric blocking of the claudin-2 pore by thiol-reactive reagents. Addition of thiol-reactive reagents to these mutants simultaneously decreased conductance and water permeability. Remarkably, all experimental perturbations caused parallel changes in ion conductance and water permeability, disproving different or independent passage pathways. CONCLUSION: Our results indicate that claudin-2-mediated cation and water transport are frictionally coupled and share a common pore. This pore is lined and determined in permeability by amino acid residues of the first extracellular loop of claudin-2.

Response to tenofovir monotherapy in chronic hepatitis B patients with prior suboptimal response to entecavir.

Both entecavir (ETV) and tenofovir (TDF) are potent antiviral agents for hepatitis B virus (HBV). Suboptimal response (SOR) following antiviral therapy is associated with an increased risk of subsequent treatment failure and viral resistance. It remains unclear whether switching to TDF is a reasonable approach in patients with SOR to ETV treatment. This study was aimed to determine how HBV patients with SOR to ETV respond to TDF monotherapy. Data of patients with SOR to ETV (failure to achieve >1 log(10) HBV-DNA reduction during the last 24 weeks of ETV treatment) who were switched to TDF monotherapy during 2005 and 2010 were reviewed. Treatment adherence was assessed by pill-count. Fourteen patients (2.9%) were identified from a total cohort of 482 ETV-treated patients. All 14 patients were Chinese and were infected with HBV genotype C (71%) or B (29%). Nine patients were men, and the median age was 41.5 years (19-64). Twelve were treatment naïve (one lamivudine- and one peginterferon-experienced patient); 85.7% were HBeAg positive. The median baseline HBV-DNA was 7.55 (5.30-9.40) log(10) copies/mL, and 57% had abnormal serum alanine aminotransferase (ALT) levels. Precore and/or basal core promoter mutations were detected in four patients, whereas no genotypic resistance was detected at baseline and before switching to TDF. The median duration of ETV treatment was 64.5 (26-126) weeks. The median HBV-DNA at the time of switching to TDF was 3.69 (3.00-4.90) log(10) copies/mL. The median HBV-DNA reduction from baseline and during the last 6-month observation period prior to switching to TDF was 4.04 (0.51-6.06) log(10) and 0.43 (-0.09-1.13) log(10) copies/mL, respectively. After the switching to TDF, all 14 patients (100%) achieved undetectable HBV-DNA and ALT normalization within a median duration of 30 weeks. In 12 patients who were HBeAg positive, HBeAg seroconversion was observed in two patients after TDF treatment of 75- and 84-weeks duration. There was no virological breakthrough observed after switching to TDF with a median follow-up period of 50 (24-160) weeks. TDF treatment was safe and well tolerated. In conclusion, suboptimal response to ETV is rare (approximately 3%). TDF monotherapy is safe and very effective in the management of HBV patients with SOR to ETV.

Functional characterization and localization of a gill-specific claudin isoform in Atlantic salmon.

Claudins are the major determinants of paracellular epithelial permeability in multicellular organisms. In Atlantic salmon (Salmo salar L.), we previously found that mRNA expression of the abundant gill-specific claudin 30 decreases during seawater (SW) acclimation, suggesting that this claudin is associated with remodeling of the epithelium during salinity change. This study investigated localization, protein expression, and function of claudin 30. Confocal microscopy showed that claudin 30 protein was located at cell-cell interfaces in the gill filament in SW- and fresh water (FW)-acclimated salmon, with the same distribution, overall, as the tight junction protein ZO-1. Claudin 30 was located at the apical tight junction interface and in cell membranes deeper in the epithelia. Colocalization with the α-subunit of the Na(+)-K(+)-ATPase was negligible, suggesting limited association with mitochondria-rich cells. Immunoblotting of gill samples showed lower claudin 30 protein expression in SW than FW fish. Retroviral transduction of claudin 30 into Madin-Darby canine kidney cells resulted in a decreased conductance of 19%. The decreased conductance correlated with a decreased permeability of the cell monolayer to monovalent cations, whereas permeability to chloride was unaffected. Confocal microscopy revealed that claudin 30 was expressed in the lateral membrane, as well as in tight junctions of Madin-Darby canine kidney cells, thereby paralleling the findings in the native gill. This study suggests that claudin 30 functions as a cation barrier between pavement cells in the gill and also has a general role in cell-cell adhesion in deeper layers of the epithelium.

Tight junction composition is altered in the epithelium of polycystic kidneys.

Kidney cysts in autosomal dominant polycystic kidney disease (ADPKD) undergo progressive enlargement together with luminal fluid secretion. This involves active, uphill transcellular Cl(-) transport which drives passive Na(+) and water secretion. Implicit in this mechanism is the assumption that the paracellular permeability of the cyst epithelium to Cl(-) must be very low. Claudins are tight junction (TJ) transmembrane proteins that determine the ion selectivity of paracellular barriers. The aim of this study was to determine the expression and localization of claudins within renal cysts in a mouse hypomorphic model of ADPKD and in human patients. We found that the majority of cysts were of collecting duct origin. Claudins normally expressed in collecting duct (3, 4, 7, 8, and 10) were found in small cysts. However, only claudin-7 persisted at substantive levels in the dedifferentiated epithelium of large, presumably late-stage cysts, where it was localized both at the TJ and basolaterally. The constitutively expressed TJ proteins, ZO-1 and occludin, were also abundantly expressed and correctly localized, suggesting that the basic infrastructure of the TJ is preserved. A previous study suggested that claudin-7 may function as a paracellular Cl(-) barrier. We postulate that the role of claudin-7 in ADPKD is to seal the paracellular route in Cl(-)-secreting cyst epithelium, preventing backleak of Cl(-), and that it thereby plays a permissive role in fluid secretion and cyst growth.

Patient selection criteria for liver transplantation.

The demand for liver transplantation has progressively increased in the setting of a relatively fixed cadaveric organ supply over the past 5 years. An increasing percentage of listed patients are dying waiting for an organ, with additional listed candidates being disqualified as they became too sick for transplantation. This disparity between organ demand and supply has led to continued reassessment of selection and listing criteria for transplantation as well as periodic revisions of allocation and distribution policies for cadaveric livers. The minimal listing criteria adopted in the United States in the late 1990s initially served to prevent inappropriate organ allocation to patients who had risen to high priority for a donor organ simply because they had been listed early and had a longer total waiting time. Many of these patients had lesser disease severity and immediate need for transplantation than other patients competing for the same donor organ but listed later in the natural history of their end-stage liver disease. The United Network for Organ Sharing has continuously revised organ allocation and distribution policies in an attempt to balance the ethical principles of medical justice and utility, which potentially conflict with one another. The principle of justice advocates for the sickest patient who has been waiting for the longest time, whereas that of utility favors the patient with the highest likelihood of achieving successful outcome. Throughout all of the changes in organ allocation rules, patients with fulminant hepatic failure have continued to receive the highest priority for organs. The Model for End-Stage Liver Disease (MELD) has replaced the Child-Turcotte- Pugh system for assessing disease severity and predicted mortality in patients with chronic liver failure. However, the use of MELD has favored listed candidates who have the worst post-transplant survivals. Other options that are being explored to expand the donor pool include the use of marginal donors, split liver transplants, living donors, and domino transplants, with xenotransplantation still remaining experimental.

Oxidant and antioxidant modulation of chloride channels expressed in human retinal pigment epithelium.

Retinal pigment epithelium (RPE) possesses regulated chloride channels that are crucial for transepithelial fluid and ion transport. At present, little is known about the molecular nature of chloride channels in human adult RPE (haRPE) or the effects of oxidative stress on membrane conductance properties. In the present study, we assessed ClC channel and cystic fibrosis transmembrane conductance regulator (CFTR) expression and membrane chloride conductance properties in haRPE cells. ClC-5, ClC-3, ClC-2, and CFTR mRNA expression was confirmed with RT-PCR analysis, and protein expression was detected with Western blot analysis and immunofluorescence microscopy. Whole cell recordings of primary cultures of haRPE showed an outwardly rectifying chloride current that was inhibited by the oxidant H(2)O(2). The inhibitory effects of H(2)O(2) were reduced in cultured human RPE cells that were incubated with precursors of glutathione synthesis or that were stably transfected to overexpress glutathione S-transferase. These findings indicate a possible role for ClC channels in haRPE cells and suggest possible redox modulation of human RPE chloride conductances.

Liver transplantation: evolving patient selection criteria.

The widespread recognition of the success of liver transplantation as a treatment for most types of acute and chronic liver failure has led to increased referrals for transplantation in the setting of a relatively fixed supply of cadaver donor organs. These events have led to a marked lengthening of the waiting time for liver transplantation, resulting in increased deaths of those on the waiting list and sicker patients undergoing transplantation. Nearly 5000 liver transplantations were performed in the United States in 2000, while the waiting list grew to over 17,000 patients. The mounting disparity between the number of liver transplant candidates and the limited supply of donor organs has led to reassessment of the selection and listing criteria for liver transplantation, as well as revision of organ allocation and distribution policies for cadaver livers. The development of minimal listing criteria for patients with chronic liver disease based on a specific definition for decompensation of cirrhosis has facilitated the more uniform listing of patients at individual centres across the United States. The United Network for Organ Sharing, under pressure from transplant professionals, patient advocacy groups and the federal government, has continuously revised allocation and distribution policies based on the ethical principles of justice for the individual patient versus optimal utility of the limited organ supply available annually. Beginning in 2002, it is likely that the Model for End-stage Liver Disease (MELD) score will be implemented to determine disease severity and direct donor organs to the sickest patients rather than to those with the longest waiting times.

Claudin-2 is selectively expressed in proximal nephron in mouse kidney.

The proximal nephron possesses a leaky epithelium with unique paracellular permeability properties that underlie its high rate of passive NaCl and water reabsorption, but the molecular basis is unknown. The claudins are a large family of transmembrane proteins that are part of the tight junction complex and likely form structural components of a paracellular pore. To localize claudin-2 in the mouse kidney, we performed in situ hybridization using an isoform-specific riboprobe and immunohistochemistry using a polyclonal antibody directed against a COOH-terminal peptide. Claudin-2 mRNA and protein were found throughout the proximal tubule and in the contiguous early segment of the thin descending limb of long-looped nephrons. The level of expression demonstrated an axial increase from proximal to distal segments. In confocal images, the subcellular localization of claudin-2 protein coincided with that of the tight junction protein ZO-1. Our findings suggest that claudin-2 is a component of the paracellular pathway of the most proximal segments of the nephron and that it may be responsible for their uniquely leaky permeability properties.

Evolving concepts in epithelial magnesium transport.

Magnesium is an important, predominantly intracellular cation that is required for a wide variety of cellular processes. The mammalian kidney plays a key role in whole-body magnesium homeostasis, but the molecular and cellular mechanisms that underlie renal epithelial magnesium reabsorption are poorly understood. Traditional physiologic approaches have been severely hampered by the lack of a useful radioisotope of magnesium that can be used for tracer flux studies. The present review discusses physiologic insights gained from recent reverse-genetic studies that have identified a plethora of genes involved in inherited renal magnesium wasting syndromes.

An anti-CD11/CD18 monoclonal antibody in patients with acute myocardial infarction having percutaneous transluminal coronary angioplasty (the FESTIVAL study).

Maximal benefits of coronary reperfusion after acute myocardial infarction (AMI) with ST-segment elevation may be attenuated by neutrophil-mediated reperfusion injury. Inflammatory mediators released from potentially viable myocytes cause activation of neutrophils, which traverse the endothelium and enter the myocardium. This process involves interaction between the neutrophil-expressed CD11/CD18 and endothelial-expressed intercellular adhesion molecule-1 (ICAM-1). Preclinical studies have shown that monoclonal antibodies (MAb) to CD18 can limit infarct size and preserve left ventricular function. We sought to determine the initial clinical safety and tolerability of Hu23F2G (LeukArrest), a humanized MAb to CD11/CD18, in patients with AMI who underwent percutaneous transluminal coronary angioplasty (PTCA). Sixty patients with AMI were randomized to low- (0.3 mg/kg) or high-dose (1.0 mg/kg) Hu23F2G or to placebo immediately before PTCA. We found no clinically significant differences in vital signs, physical examination, laboratory evaluation, or need for subsequent cardiac interventions. In Hu23F2G treatment groups, serum concentration of Hu23F2G increased rapidly to 3,234 +/- 1,298 microg/L (low-dose group) and 15,558 +/- 4409 microg/L (high-dose group) between 5 and 60 minutes, then declined over 72 hours to near-baseline values. Myocardial single-photon emission computed tomographic imaging 120 to 260 hours after PTCA showed no statistically significant differences in final left ventricular defect size. Hu23F2G was well tolerated, with no increase in adverse events, including infections. Thus, Hu23F2G appears safe and well tolerated in patients undergoing PTCA for AMI.

Transmission of hepatitis B infection from hepatitis B core antibody--positive liver allografts is prevented by lamivudine therapy.

Donor shortage has led to the use of hepatitis B core antibody (anti-HBc)--positive (anti-HBc(+)) liver allografts for patients in need of relatively urgent orthotopic liver transplantation (OLT). Because anti-HBc(+) allografts transmit hepatitis B virus (HBV) infection at a high rate, effective prophylaxis is required. We assessed the effectiveness of lamivudine in preventing HBV transmission by anti-HBc(+) allografts. Between March 1996 and March 2000 at Cedars-Sinai Medical Center (Los Angeles, CA), 15 of 169 patients (8.9%) received liver allografts from anti-HBc(+) donors. Six patients were hepatitis B surface antigen (HBsAg)(+) (group 1), and 9 patients were HBsAg negative (HBsAg(-); group 2) before OLT. All patients were administered lamivudine, 100 or 150 mg/d, orally after OLT. Patients who were HBsAg(+) before OLT also were administered hepatitis B immunoglobulin (HBIG) prophylaxis. Hepatitis B serological tests were performed on all patients, and HBV DNA was determined in liver tissues in 10 patients. All 15 patients remained HBsAg(-) at their last follow-up 2 to 40 months (mean, 17 months) post-OLT. All patients in group 1 had antibody to HBsAg (anti-HBs) titers greater than 250 mIU/mL post-OLT (mean follow-up, 20 months; range, 7 to 40 months). Of the 2 patients in group 1 who underwent liver biopsy after OLT, 1 patient had detectable hepatic HBV DNA despite being anti-HBs(+) and HBsAg(-). Among the patients in group 2, none acquired anti-HBc or HBsAg. Hepatic HBV DNA was undetectable in the 7 patients in group 2 who underwent liver biopsy after OLT. Anti-HBc(+) allografts can be safely used in patients who undergo OLT for chronic hepatitis B and susceptible transplant recipients if prophylaxis with combination HBIG and lamivudine or lamividine alone is administered after OLT, respectively. However, more data are needed to determine the efficacy of lamivudine monotherapy in preventing transmission of HBV infection from anti-HBc(+) liver allografts to susceptible recipients.

Management of ascites.

The evaluation of ascites includes a directed history, focused physical examination, and diagnostic paracentesis with ascitic fluid analysis. Dietary sodium restriction and oral diuretics are the mainstay of therapy for the majority of patients with cirrhotic ascites. Transjugular intrahepatic portocaval shunt has emerged as the treatment of choice for selected patients with refractory ascites, although serial large-volume paracenteses should be attempted first. Early diagnosis, broad-spectrum antibiotics, and albumin infusion contribute to the successful management of spontaneous bacterial peritonitis (SBP). Referral for liver transplant evaluation should be considered at the first sign of decompensation and should not be delayed until development of ominous clinical features, such as refractory ascites and SBP.

Role of ClC-5 in the pathogenesis of hypercalciuria: recent insights from transgenic mouse models.

Dent's disease is an inherited disorder characterized by hypercalciuria, low molecular weight proteinuria, and Fanconi syndrome, which is caused by inactivating mutations in ClC-5, a chloride channel expressed in endosomes of the proximal renal tubule. The role of ClC-5 in the pathogenesis of the hypercalciuria and other myriad manifestations of this disease, however, is largely unknown. New insights from three new transgenic mouse models of Dent's disease, reported in the past year, are discussed.

Expression and regulation of ClC-5 chloride channels: effects of antisense and oxidants.

Genetic mutations of the Cl(-) channel ClC-5 cause Dent's disease in humans. We recently cloned an amphibian ortholog of Xenopus ClC-5 (xClC-5) from the A6 cell line. We now compare the properties and regulation of ClC-5 currents expressed in mammalian (COS-7) cells and Xenopus oocytes. Whole cell currents in COS-7 cells transfected with xClC-5 cDNA had strong outward rectification, Cl(-) > I(-) anion sensitivity, and were inhibited at low pH, similar to previous results in oocytes. In oocytes, antisense xClC-5 cRNA injection had no effect on endogenous membrane currents or the heterologous expression of human ClC-5. Activators of cAMP and protein kinase C inhibitors had no significant effects on ClC-5 currents expressed in either COS-7 cells or oocytes, whereas H-89, a cAMP-dependent protein kinase (PKA) inhibitor, and hydrogen peroxide decreased the currents. We conclude that the basic properties of ClC-5 currents were independent of the host cell type used for expression. In addition, ClC-5 channels may be modulated by PKA and reactive oxygen species.

Hyperfibrinolytic activity in hospitalized cirrhotic patients in a referral liver unit.

OBJECTIVE: Increased frequency of hyperfibrinolytic activity was reported in patients with cirrhosis. However, the incidence, clinical presentation, and the parameters related to hyperfibrinolysis remain largely unknown in these patients. By utilizing euglobulin lysis time (ELT) and other clinical coagulation tests, the present study investigated the incidence of and clinical parameters related to hyperfibrinolytic activity, and assessed predicting factors to epsilon-aminocaproic acid (EACA) treatment in cirrhotic patients with hyperfibrinolysis in a liver unit. METHODS: The study included 86 consecutive patients who were referred and admitted to a referral liver unit for various liver diseases. The mean age was 50.0 yr, with a male: female ratio of 60:26. Sixty-six patients (76.7%) were Hispanic and 75 (87.2%) were cirrhotic. The etiologies of liver diseases included alcoholic liver disease (n = 68, 79.1%), hepatitis B (n = 2, 2.3%), hepatitis C (n = 6, 7.0%), autoimmune hepatitis (n = 3, 3.5%), cryptogenic liver disease (n = 4, 4.7%), and hepatocellular carcinoma (n = 3, 3.5%). Coagulation studies included ELT, PT, PTT, fibrinogen, D-dimer, and fibrin degradation product levels. RESULTS: Hyperfibrinolytic activity as reflected by shortened ELT was present in 27/75 cirrhotic (31.3%) but 0/11 noncirrhotic patients, which was significantly correlated with higher Child-Pugh (C-P) class, abnormal levels of PT, PTT, fibrinogen, platelet count, and total bilirubin. Shortened ELT was more frequently seen in patients with hepatic decompensation and mucocutaneous bleeding, although these relationships were not statistically significant. In 27 patients with hyperfibrinolysis, five (18.5%) required EACA treatment for progressive mucocutaneous bleeding and/or hematoma. EACA treatment was significantly associated with higher C-P scores; greatly shortened ELT (< or =50% of normal value); and abnormal levels of fibrinogen, total bilirubin, and PT, indicating that these factors may serve as predictors for EACA treatment. CONCLUSION: Hyperfibrinolytic activity was seen in 31.3% of patients with cirrhosis, which is correlated with higher C-P scores; abnormal PT, PTT, fibrinogen level, and platelet count; and hyperbilirubinemia. Patients who received EACA treatment usually have a more severe hyperfibrinolytic activity as indicated by shortened ELT and low level of fibrinogen, and more severe liver disease as indicated by higher C-P scores and hyperbilirubinemia.

Molecular cloning and characterization of an intracellular chloride channel in the proximal tubule cell line, LLC-PK1.

CLC5 is an intracellular chloride channel of unknown function, expressed in the renal proximal tubule. The subcellular localization and function of CLC5 were investigated in the LLC-PK1 porcine proximal tubule cell line. We cloned a cDNA for the porcine CLC5 ortholog (pCLC5) that is predicted to encode an 83-kDa protein with 97% amino acid sequence identity to rat and human CLC5. By immunofluorescence, pCLC5 was localized to early endosomes of the apical membrane fluid-phase endocytotic pathway and to the Golgi complex. Xenopus oocytes injected with pCLC5 cRNA exhibited outwardly rectifying whole cell currents with a relative conductance profile (nitrate Cl(-) approximately Br(-) > I(-) > acetate > gluconate) different from that of control oocytes. Acidification of the extracellular medium reversibly inhibited this outward current with a pK(a) of 6.0 and a Hill coefficient of 1. Overexpression of CLC5 in LLC-PK1 cells resulted in morphological changes, including loss of cell-cell contacts and the appearance of multiple prominent vesicles. These findings are consistent with a potential role for CLC5 in the acidification of membrane compartments of both the endocytic and the exocytic pathway and suggest that its function may be important for normal intercellular adhesion and vesicular trafficking.

Effect of recombinant human platelet-activating factor-acetylhydrolase on allergen-induced asthmatic responses.

Platelet-activating factor (PAF) is a potent lipid mediator associated with key features of asthma such as airway constriction, eosinophil infiltration, edema, and mucus accumulation. Regulation of PAF occurs primarily through degradation to biologically inactive lyso-PAF by cellular and secreted PAF-acetylhydrolase (PAF-AH). We evaluated the effect of human recombinant PAF-AH (rPAF-AH) on the dual phase asthmatic response in atopic subjects with mild asthma. Effects on induced sputum cell counts and differentials, eosinophilic cationic protein (ECP), and tryptase were evaluated. Enrolled subjects demonstrated a positive skin test and a dual asthmatic response to allergen inhalation challenge. Fourteen subjects received rPAF-AH (1 mg/kg) or placebo intravenously in a randomized, double blind, placebo-controlled, two-period crossover study. Treatment with rPAF-AH did not significantly reduce either the early- or late-asthmatic response. Sputum eosinophil cell counts were not affected by treatment, but there was a trend toward a reduction in sputum neutrophils. No significant change in sputum ECP and tryptase was observed between rPAF-AH and placebo. Thus, at the dose studied, the unique anti-PAF agent rPAF-AH demonstrated no significant effect on the allergen-induced dual-phase asthmatic response.

Developmentally regulated expression of organic ion transporters NKT (OAT1), OCT1, NLT (OAT2), and Roct.

Several xenobiotic (organic cation and anion) transporters have recently been identified, although their endogenous substrates, if such exist, remain unknown. When we initially identified NKT, also known as OAT1, the first member of the organic anion transporter (OAT) family (Lopez-Nieto CE, You G, Bush KT, Barros EJ, Beier DR, and Nigam SK. J Biol Chem 272: 6471-6478, 1997), we noted its expression in the embryonic kidney. We have now demonstrated its transporter function and more fully examined the spatiotemporal expression patterns of representative organic ion transporters, [NKT (OAT1), Roct, OCT1, and NLT, also known as OAT2] during murine development. In the kidney, NKT (OAT1), OCT1, and Roct transcripts appeared at midgestation, coinciding with proximal tubule differentiation, and gradually increased during nephron maturation. A similar pattern was observed for NLT (OAT2) in the liver and kidney, although, in the kidney, NLT (OAT2) transcription did not increase as dramatically. The roughly cotemporal expression of these related transporters in the developing proximal tubule may indicate common transcriptional regulation. Expression during embryogenesis in extrarenal sites could suggest a role in the formation and maintenance of nonrenal tissues. Importantly, all four genes were expressed in unexpected places during nonrenal organogenesis: Roct in the fetal liver (temporally coinciding with the onset of hematopoiesis) and neural tissue; NKT (OAT1) in the fetal brain; OCT1 in the ascending aorta and atrium; and NLT (OAT2) in the fetal lung, intestine, skin, and developing bone. Because these gene products mediate the transport of a broad range of metabolites and toxins, it seems likely that, apart from their known functions, these transporters play a role in transport of organic molecules, perhaps including those with morphogenetic activity. These genes could also play important developmental roles independent of transport function.