Cell surface expression of the epithelial Na channel and a mutant causing Liddle syndrome: A quantitative approach

The epithelial amiloride-sensitive sodium channel (ENaC) controls transepithelial Na⁺ movement in Na⁺-transporting epithelia and is associated with Liddle syndrome, an autosomal dominant form of salt-sensitive hypertension. Detailed analysis of ENaC channel properties and the functional consequences of mutations causing Liddle syndrome has been, so far, limited by lack of a method allowing specific and quantitative detection of cell-surface-expressed ENaC. We have developed a quantitative assay based on the binding of ¹²⁵I-labeled M₂ anti-FLAG monoclonal antibody (M₂Ab*) directed against a FLAG reporter epitope introduced in the extracellular loop of each of the α, β, and γ ENaC subunits. Insertion of the FLAG epitope into ENaC sequences did not change its functional and pharmacological properties. The binding specificity and affinity (K_d = 3 nM) allowed us to correlate in individual Xenopus oocytes the macroscopic amiloride-sensitive sodium current (I_Na) with the number of ENaC wild-type and mutant subunits expressed at the cell surface. These experiments demonstrate that: (i) only heteromultimeric channels made of α, β, and γ ENaC subunits are maximally and efficiently expressed at the cell surface; (ii) the overall ENaC open probability is one order of magnitude lower than previously observed in single-channel recordings; (iii) the mutation causing Liddle syndrome (β R564stop) enhances channel activity by two mechanisms, i.e., by increasing ENaC cell surface expression and by changing channel open probability. This quantitative approach provides new insights on the molecular mechanisms underlying one form of salt-sensitive hypertension.     

Neuronal and astrocytic damage in systemic lupus erythematosus patients with central nervous system involvement

OBJECTIVE: Symptoms originating from the central nervous system (CNS) frequently occur in patients with systemic lupus erythematosus (SLE). CNS involvement in lupus is associated with increased morbidity and mortality. Currently, reliable markers for activity in this condition are absent. The goal of this study was to determine the level of the light subunit of the neurofilament triplet protein (NFL) and that of glial fibrillary acidic protein (GFAP) in the cerebrospinal fluid of SLE patients with clinically verified CNS involvement and compare them with the levels in SLE patients without CNS involvement. METHODS: We assessed cerebrospinal fluid obtained from 99 patients with SLE and 99 age-matched controls for the presence of soluble molecules indicating neuronal destruction and astrogliosis-NFL and GFAP, respectively. Patients were evaluated clinically, with magnetic resonance imaging (MRI) of the brain, cerebrospinal fluid analyses, and neuropsychiatric tests. RESULTS: In the group of lupus patients with CNS involvement, intrathecal levels of NFL and GFAP were increased an average of 7-fold (P 相似文献   

Recombinant human butyrylcholinesterase from milk of transgenic animals to protect against organophosphate poisoning

Dangerous organophosphorus (OP) compounds have been used as insecticides in agriculture and in chemical warfare. Because exposure to OP could create a danger for humans in the future, butyrylcholinesterase (BChE) has been developed for prophylaxis to these chemicals. Because it is impractical to obtain sufficient quantities of plasma BChE to treat humans exposed to OP agents, the production of recombinant BChE (rBChE) in milk of transgenic animals was investigated. Transgenic mice and goats were generated with human BChE cDNA under control of the goat beta-casein promoter. Milk from transgenic animals contained 0.1-5 g/liter of active rBChE. The plasma half-life of PEGylated, goat-derived, purified rBChE in guinea pigs was 7-fold longer than non-PEGylated dimers. The rBChE from transgenic mice was inhibited by nerve agents at a 1:1 molar ratio. Transgenic goats produced active rBChE in milk sufficient for prophylaxis of humans at risk for exposure to OP agents.     

Comparison of versions 1.0 AND 1.5 of the UltraSensitive AMPLICOR HIV-1 MONITOR test for subjects with low viral load

We compared the performance of two UltraSensitive AMPLICOR HIV-1 MONITOR kits (version 1.5 [v1.5] versus v1.0) by retesting 404 plasma samples with low viral loads (<3,000 copies/ml) with both kits. With 292 samples that initially had <50 copies/ml by the v1.0 kit, the v1.5 assay was more sensitive than the v1.0 assay for samples with human immunodeficiency virus type 1 RNA near the 50-copy/ml cutoff (P = 0.0146). Median numbers of copies per milliliter were similar for 112 samples with 50 to 3,000 copies/ml with no difference in sensitivity with a 200-copy/ml cutoff.     

A chimeric T cell receptor with super-signaling properties

A key question yet to be resolved concerns the structure and function relationship of the TCR complex. How does antigen recognition by the TCR-alphabeta chains result in the activation of distinct signal transduction pathways by the CD3-gammadeltaepsilon/zeta complex? To investigate which part of the TCR-beta chain is involved in TCR signaling, we exchanged different domains of the constant regions of the TCR-beta chain with the corresponding TCR-gamma chain domains. We show here that hybridoma cells expressing a chimeric TCR-beta chain (betaIII) containing intracellular and transmembrane TCR-gamma amino acids, together with a wild-type TCR-alpha (alphawt) chain, were 10 times more sensitive to antigenic stimulation compared to cells expressing TCR-alphawt/betawt chains. This super-signaling phenotype of the betaIII chain was observed in two different TCRs. One specific for an alloantigen (I-A(bm12)) and one for an autoantigen (I-A(b)/MOG(35-55)). We found that this chimeric alphawt/betaIII TCR had normal association with CD3-gammadeltaepsilon and zeta chains. To investigate the effect of the chimeric betaIII chain in transgenic T cells, we made MOG(35-55)-specific TCR transgenic mice expressing either the alphawt/betawt or chimeric alphawt/betaIII TCR. Similar to what was observed in hybridoma cells, transgenic alphawt/betaIII T cells showed a super-signaling phenotype upon antigenic stimulation. Further studies may help us understand the effect of increased TCR signaling on autoimmunity and may lead to the identification of signaling molecules that can be targeted to stop the progression of autoimmune disorders such as multiple sclerosis.     

Immune responses to mosquito saliva in 14 individuals with acute systemic allergic reactions to mosquito bites

BACKGROUND: Mosquito bite-induced acute systemic allergic reactions are an increasing clinical concern and have not been optimally characterized immunologically. OBJECTIVE: We wanted to study the immunologic basis of these reactions. METHODS: Sera were received from 14 individuals with a history of acute systemic allergic reactions to mosquito bites, defined as the presence of one or more of the following: urticaria, angioedema, wheezing, dyspnea, hypotension, and decrease or loss of consciousness. Ten individuals were from the United States and one each was from Canada, Germany, Japan, and Switzerland. An indirect ELISA was developed to measure specific IgE and IgG antibodies to saliva from 5 common mosquito species with different geographic distributions: Aedes aegypti, Aedes vexans, Aedes albopictus, Anopheles sinensis, and Culex quinquefasciatus. Twenty-nine individuals with negative bite test results from laboratory-reared mosquitoes served as control subjects. RESULTS: Mosquito saliva-specific IgE levels to all 5 species were significantly increased in the individuals with systemic allergic reactions compared with the control subjects ( P < .061 for Aedes vexans and P < .008 for the remaining 4 species). By using the mean of the control subjects plus 1 SD as a cut-off level, 11 individuals had positive results to Aedes albopictus and up to 4 additional species; 3 individuals had positive results to only one species. Saliva-specific IgG levels were not significantly increased in the individuals with systemic allergic reactions compared with levels seen in the control subjects ( P > .05). CONCLUSION: Acute systemic allergic reactions to mosquito bites involve mosquito saliva-specific IgE and can be characterized immunologically. Aedes albopictus is the most common species associated with systemic allergic reactions to mosquito bites.     

Evaluation of the National Heart, Lung, and Blood Institute guidelines impairment domain for classifying asthma control and predicting asthma exacerbations

BackgroundAccurate assessment of asthma control may help predict future asthma exacerbations.ObjectiveTo evaluate asthma guidelines impairment domain components as predictors of exacerbations in severe/difficult-to-treat asthma.MethodsChildren (aged 6–11 years; n = 289) and adolescents/adults (aged ≥12 years; n = 2,094) with complete baseline and 12-month data from The Epidemiology and Natural History of Asthma Outcomes and Treatment Regimens study were included. Asthma was categorized as very poorly controlled, not well-controlled, and well-controlled using impairment domain components. Effects of omitting each component on very poorly controlled and not well controlled groups were examined. Multivariable logistic regression determined the relationship of components in predicting asthma exacerbations.ResultsOmission of individual impairment domain components led to misclassification of asthma control in 11% to 39% of patients. A baseline exacerbation was the strongest independent predictor of exacerbation at month 12 in children (odds ratio = 2.94; P < .001) and adolescents/adults (odds ratio = 2.93; P < .001). In children, very poorly controlled asthma-based short-acting β2-agonist use was associated with a 2-fold higher exacerbation risk (odds ratio = 2.03; P = .011). In adolescents/adults, not well controlled or very poorly controlled asthma based on short-acting β2-agonist use (odds ratio = 1.49), lung function (odds ratio = 1.66), and the Asthma Therapy Assessment Questionnaire (odds ratio = 1.94) were also independent predictors of exacerbations (P < .001).ConclusionsAlthough the combined use of individual components of the impairment domain increases the sensitivity of identifying patients at high risk for future asthma exacerbations, specific components may be more important than others in severe/difficult-to-treat asthma. Prior exacerbations, short-acting β2-agonist use, lung function, and (in adolescents/adults) the Asthma Therapy Assessment Questionnaire were independent predictors of exacerbations.     

脑不对称 Balb/c 小鼠血浆IL-1β、IL-6及皮质酮水平变化

目的;研究脑不对称性对细胞因子和ＨＰＡ轴的影响。方法：用伸爪取食法将小鼠分左利,右利,双利动物,ＬＰＳ分别刺激２,４ｈ后取血浆用ＥＬＩＳＡ法检测ＩＬ－１βＩＬ－６放免法测定血浆皮质酮含量。结果：左利组血浆ＩＬ－１β高于右利组,左利,右利组ＩＬ－１β均低于双利组。左利,右利组血浆皮质酮水平低于双利组。ＬＰＳ刺激后左利组ＩＬ－１β高于右利组,双利组亦高于右利组;左利,右利组血浆ＩＬ－６水平则均低于双利     

Expression of Integrin α6β1 Enhances Tumorigenesis in Glioma Cells

The integrin α6β1 and its main ligand laminin-111 are overexpressed in glioblastoma, as compared with normal brain tissue, suggesting they may be involved in glioblastoma malignancy. To address this question, we stably expressed the α6 integrin subunit in the U87 cell line via retroviral-mediated gene transfer. We show that cell surface expression of the α6β1 integrin led to dramatic changes in tumor U87 cell behavior, both in vitro and in vivo. Nude mice receiving either subcutaneous or intracerebral inoculation of α6β1-expressing cells developed substantially more voluminous tumors than mice injected with control cells. The difference in tumor growth was associated with a marked increase in vascularization in response to α6β1 integrin expression and may also be related to changes in the balance between cell proliferation and survival. Indeed, expression of α6β1 enhanced proliferation and decreased apoptosis of U87 cells both in the tumor and in vitro. Additionally, we demonstrate that α6β1 is implicated in glioblastoma cell migration and invasion and that laminin-111 might mediate dissemination of α6β1-positive cells in vivo. Our results highlight for the first time the considerable role of the integrin α6β1 in glioma progression.Malignant brain tumors have an increasing incidence in both children and adults. In adults, the most common type of primary brain tumor, malignant glioma, is considered as one of the deadliest of human cancers. Despite recent advances in both diagnostic modalities and therapeutic strategies, the 5-year survival rate of less than 3% in patients with glioblastoma is among the lowest for all cancers.¹ Patients with the most malignant histopathological subtype, glioblastoma, carry the worst prognosis, with median survival rate of less than 1 year, despite aggressive surgery associated with adjuvant radiotherapy and chemotherapy.¹ Glioblastoma are characterized by rapidly dividing cells, high degree of vascularity, invasion into normal brain tissue, and an intense resistance to death-inducing stimuli.^2,3 Since integrins, the major family of extracellular matrix (ECM) receptors, are involved in these events, they are one of the most promising molecules to consider for a targeted therapy.Integrins are cell surface transmembrane αβ heterodimers that recognize specific ECM ligands. The combination of α and β subunits, leading to the formation of at least 24 receptors, determines the ligand specificity.⁴ Glioblastoma commonly displays enhanced expression of several integrins along with their ECM ligands: αvβ3 and αvβ5 (tenascin and vitronectin receptors), α5β1 (fibronectin receptor), α2β1 (collagens receptor), and α3β1, α6β4, and α6β1 (laminins receptors).⁵ Numerous studies have focused on the αv integrin family. The integrins αvβ3 and αvβ5 are markers of glioblastoma malignancy⁶ and influence a variety of processes in glioblastoma progression in vivo, including proliferation, apoptosis, and angiogenesis.⁷ Furthermore, cilengitide, an αvβ3 and αvβ5 integrins antagonist, extends mouse survival by delaying the tumor growth^8,9 and is nowadays in clinical trial for recurrent malignant glioma. Two other integrins, α5β1 and α3β1, have been shown to be implicated in glioma cell adhesion and migration in vitro.^10,11 In addition, the use of α5β1 antagonists reduces glioma cell proliferation in vitro,¹⁰ while α3β1 antagonists inhibited glioma invasion in vivo.¹¹The α6 integrin subunit associates with β1 or β4 subunits to form functional heterodimers that selectively bind laminins. The α6β4 integrin is essential for the organization and maintenance of epithelial hemidesmosomes that link the intermediate filaments with the extracellular matrix.¹² The major ligand of α6β4 is the laminin-332, while α6β1 is a well-characterized laminin-111 receptor. Overexpression of α6β1 integrin has been associated with the progression of many epithelial tumors. In particular, induction of α6β1 expression is an early event in hepatocellular carcinogenesis.^13,14 In the same way, during prostate cancer progression α6β1 is continually expressed and found in micrometastases.¹⁵ Expression of α6β1 integrin has also been linked to metastatic potential of melanoma cells,¹⁶ and has been involved in the survival and metastatic potential of human breast carcinoma cells.^17,18 Moreover, in a recent study using the α6-blocking antibody GoH3, Lee et al¹⁹ inhibited angiogenesis and breast carcinoma growth in vivo.Several studies concerning gliomas and the α6β1 ligand laminin-111 have been reported in the literature. Using immunohistochemistry studies, Gingras et al²⁰ showed that α6 integrin was strongly expressed in glioblastoma tissue, whereas it was weakly expressed in normal brain. Previtali et al²¹ confirmed that the expression of α6 was increased in glioblastoma and in other central nervous system tumors, such as meningioma, astrocytoma, and neuroblastoma, when compared with the autologous normal tissue counterpart. In glioblastoma biopsies, laminin-111 is highly expressed on tumor blood vessels, but also within the brain tumor as punctuate deposits and at the tumor invasion front.²² In vitro, glioma cells can both secrete laminin-111 and induce its expression in normal brain tissue.^22,23,24 Moreover, laminin-111 is one of the most permissive substrates for adhesion and migration of glioma cells in vitro.^25,26,27 Additionally, over laminin-111, migrating glioma cells are protected from apoptosis.²⁸ For all these reasons, we hypothesized that laminin-111 and its main receptor α6β1 may contribute to glioblastoma progression.In the present study we investigated the role of integrin α6β1 in glioblastoma malignancy by using U87, a well-characterized glioblastoma cell line. We report that stable expression of α6β1 in this α6-negative cell line leads to enhanced tumor progression and tumor growth in vivo. We demonstrate that α6β1 is pro-angiogenic and acts on the balance between proliferation and apoptosis. Additionally, we show that α6β1 is involved in glioblastoma cell migration and invasion. Our results highlight for the first time the considerable role of integrin α6β1 in the malignant phenotype of glioblastoma cells and demonstrate that the α6β1-expressing cell is an appropriate model for the study of glioblastoma progression.     

The rate of heat storage mediates an anticipatory reduction in exercise intensity during cycling at a fixed rating of perceived exertion

The aim of the present study was to examine the regulation of exercise intensity in hot environments when exercise is performed at a predetermined, fixed subjective rating of perceived exertion (RPE). Eight cyclists performed cycling trials at 15°C (COOL), 25°C (NORM) and 35°C (HOT) (65% humidity throughout), during which they were instructed to cycle at a Borg rating of perceived exertion (RPE) of 16, increasing or decreasing their power output in order to maintain this RPE. Power output declined linearly in all three trials and the rate of decline was significantly higher in HOT than in NORM and COOL (2.35 ± 0.73 W min⁻¹, 1.63 ± 0.70 and 1.61 ± 0.80 W min⁻¹, respectively, P < 0.05). The rate of heat storage was significantly higher in HOT for the first 4 min of the trials only, as a result of increasing skin temperatures. Thereafter, no differences in heat storage were found between conditions. We conclude that the regulation of exercise intensity is controlled by an initial afferent feedback regarding the rate of heat storage, which is used to regulate exercise intensity and hence the rate of heat storage for the remainder of the anticipated exercise bout. This regulation maintains thermal homeostasis by reducing the exercise work rate and utilizing the subjective RPE specifically to ensure that excessive heat accumulation does not occur and cellular catastrophe is avoided.