Expression of the P2X(2) receptor in different classes of ileum myenteric neurons in the female obese ob/ob mouse

AIM: To examine whether the ob/ob mouse model of obesity is accompanied by enteric nervous system abnormalities such as altered motility. METHODS: The study examined the distribution of the P2X(2) receptor (P2X(2)R) in myenteric neurons of female ob/ob mice. Specifically, we used immunohistochemistry to analyze the co-expression of the P2X(2)R with neuronal nitric oxide synthase (nNOS), choline acetyltransferase (ChAT), and calretinin (CalR) in neurons of the small intestine myenteric plexus in ob/ob and control female mice. In these sections, we used scanning confocal microscopy to analyze the co-localization of these markers as well as the neuronal density (cm(2)) and area profile (mu m(2)) of P2X(2)R-positive neurons. In addition, enteric neurons were labeled using the nicotinamide adenine dinucleotide (NADH) diaphorase method and analyzed with light microscopy as an alternate means by which to analyze neuronal density and area. RESULTS: In the present study, we observed a 29.6% increase in the body weight of the ob/ob animals (OG) compared to the control group (CG). In addition, the average small intestine area was increased by approximately 29.6% in the OG compared to the CG. Immunoreactivity (IR) for the P2X(2)R, nNOS, ChAT and CaIR was detectable in the myenteric plexus, as well as in the smooth muscle, in both groups. This IR appeared to be mainly cytoplasmic and was also associated with the cell membrane of the myenteric plexus neurons, where it outlined the neuronal cell bodies and their processes. P2X(2)R-IR was observed to co-localize 100% with that for nNOS, ChAT and CaIR in neurons of both groups. In the ob/ob group, however, we observed that the neuronal density (neuron/cm(2)) of P2X(2)R-IR cells was increased by 62% compared to CG, while that of NOS-IR and ChAT-IR neurons was reduced by 49% and 57%, respectively, compared to control mice. The neuronal density of CaIR-IR neurons was not different between the groups. Morphometric studies further demonstrated that the cell body profile area (mu m(2)) of nNOS-IR, ChAT-IR and CaIR-IR neurons was increased by 34%, 20% and 55%, respectively, in the OG compared to controls. Staining for NADH diaphorase activity is widely used to detect alterations in the enteric nervous system; however, our qualitative examination of NADH-diaphorase positive neurons in the nnyenteric ganglia revealed an overall similarity between the two groups. CONCLUSION: We demonstrate increases in P2X(2)R expression and alterations in nNOS, ChAT and CaIR IR in ileal myenteric neurons of female ob/ob mice compared to wild-type controls. (c) 2012 Baishideng. All rights reserved.

Expression der pronozizeptiven Vanilloidrezeptoren TRPV1 und TRPV2 und des antinozizeptiven Cannabinoidrezeptors CB1 in Spinalganglienneuronen der Ratte

Nozizeptive Spinalganglienneurone detektieren mit einer Vielzahl liganden- und spannungsgesteuerter Ionenkanäle noxische Reize, d.h. Reize, die eine Gewebeschädigung bewirken können, wandeln sie in Aktionspotenzialentladungen um und leiten sie über das Rückenmark zum Gehirn weiter, wo eine Schmerzempfindung ausgelöst wird. Die pronozizeptiven transienten Rezeptor-Potenzial-Kanäle der Vanilloidrezeptorfamilie, TRPV1 und TRPV2, sind die klassischen Transduktionsmoleküle für noxische Hitzereize in den Spinalganglien und werden von Reiztemperaturen über 43°C bzw. 52°C aktiviert. Daneben finden sich auch antinozizeptive Membranproteine, wie z.B. der metabotrope Cannabinoidrezeptor CB1. Er koppelt an spannungsgesteuerte Kaliumkanäle, die neben Natrium- und Kalziumkanälen ebenfalls an der neuronalen Erregbarkeit beteiligt sind. Von den spannungsgesteuerten Kaliumkanälen könnte der Kv1.4, der einen schnell inaktivierenden A-Strom vermittelt, an antinozizeptiven Signalwegen beteiligt sein. Um die molekulare Physiologie der Regulation von Nozizeption und Antinozizeption zu charakterisieren, wurde die Expression bzw. Ko-Expression dieser Membranproteine auf der einen als auch die funktionelle Charakterisierung von TRPV1 auf der anderen Seite im Soma der Spinalganglienneurone und im heterologen Expressionssystem untersucht. TRPV1 wurde in je einem Drittel und TRPV2 in je einem Zehntel aller Spinalganglienneurone nachgewiesen. Das Expressionsmuster veränderte sich nicht zwischen verschiedenen Präparationsmethoden, die zur Aufarbeitung der Zellen für unterschiedliche experimentelle Ansätze notwendig sind. Somit können die aus Expressionsanalysen und funktionellen Untersuchungen gewonnenen Ergebnisse miteinander verglichen werden. Obwohl TRPV1 und TRPV2 in unterschiedlich großen Zellen exprimiert werden, überlappen dennoch ihre Größenverteilungen. Durch Ko-Expressionsanalysen konnten hier erstmalig TRPV1-TRPV2-ko-exprimierende Neurone detektiert werden. Mit dem neu entwickelten N-terminalen Antikörper gegen TRPV1 (3C11) konnte gezeigt werden, dass für TRPV1 verschiedene Splice-Varianten existieren. Neben den bereits bekannten Splice-Varianten wurde hier die neue Variante Vr.3’sv isoliert. Diese besitzt zwischen Exon 15 und 16 eine Insertion aus 104 Basen und exprimiert daher einen veränderten C-Terminus. Trotz dieser Veränderung bildeten sich im heterologen Expressionssystem funktionelle Kanäle aus, die im Gegensatz zu den anderen Varianten immer noch durch Capsaicin aktivierbar waren. Vr.3’sv könnte als Homo- oder Heterotetramer die Eigenschaften TRPV1-positiver Neurone beeinflussen. Bei der Bestimmung der Häufigkeit von TRPV1 in einem Gewebe ist somit die Wahl des Antikörpers von entscheidender Bedeutung. Für TRPV2 dagegen gibt es hier keine Hinweise auf Splice-Varianten. TRPV1 wird durch das Vanilloid Capsaicin aktiviert, wobei diese Substanz neurotoxisch ist und eine Degeneration von Neuronen und epidermalen Nervenfasern bewirkt. Hier wurde nun gezeigt, dass unabhängig von den Splice-Varianten nicht alle TRPV1-positiven Neurone bei langer Inkubationszeit absterben. Funktionelle Untersuchungen belegten, dass auch Capsaicin-sensitive Zellen unter dem Einfluss des Agonisten überleben können. Dieser Schutzmechanismus wird möglicherweise von den verschiedenen Splice-Varianten vermittelt. Ko-Expressionsanalysen zeigten, dass der spannungsgesteuerte Kaliumkanal Kv1.4 in nahezu allen TRPV1- aber nicht TRPV2-positiven Neuronen exprimiert wird. Desweiteren ko-exprimierten nahezu alle TRPV1-positiven Neurone auch den Cannabinoidrezeptor CB1. Diese fast vollständige Ko-Lokalisation von CB1 und Kv1.4 in nozizeptiven Spinalganglienneuronen spricht für eine funktionell synergistische Aktivität. Der Kaliumkanal kann unter der regulativen Kontrolle von CB1 als Vermittler von A-Typ-Kaliumströmen an der Kontrolle der repetitiven Entladungen in der Peripherie und der Transmitterausschüttung zentral beteiligt sein. Es ergeben sich daraus Ansatzpunkte für die Entwicklung neuer Medikamente. Mit Kv1.4-Aktivatoren und/oder peripher wirkenden Cannabinoiden könnten die Nebenwirkungen der Cannabinoide im zentralen Nervensystem umgangen werden.

Charakterisierung einer pflanzlichen Variante des Cytoskelettproteins gamma-Tubulin durch Strukturmodellierung, Überexpression und Analyse der Interaktionspartner

Wie alle Eukaryoten besitzen auch höhere Pflanzen ein mikrotubuläres Cytoskelett. Einige Funktionen dieses Cytoskeletts sind relativ stark konserviert, andere dagegen scheinen sehr pflanzenspezifisch zu sein. Dies betrifft insbesondere charakteristische mikrotubuläre Netzwerke, die bei der Neubildung und der Verstärkung der Zellwände wichtige Rollen übernehmen. Wie der Aufbau dieser Netzwerke kontrolliert wird, ist bisher relativ unklar. Typische Mikrotubuli organisierende Zentren (MTOC), insbesondere Centrosomen oder Spindelpolkörper, sind bei höheren Pflanzen nicht beobachtet worden. Von pilzlichen und tierischen Organismen weiß man, dass gamma-Tubulin (gTUB) mit seinen assoziierten Proteinen in den MTOC bei der Nukleation von Mikrotubuli eine Schlüsselfunktion hat. Dieses Mitglied der Tubulin-Superfamilie wird aber auch in Pflanzen gefunden, dessen genaue Funktion bisher unbekannt ist. Zu Beginn der Arbeit wurden mittels in silico Berechnungen Strukturmodelle des pflanzlichen gTUBs aus Nicotiana tabacum erarbeitet, da die Struktur, die zu einem Verständnis der pflanzlichen Wachstumsregulation beitragen könnte, bisher unbekannt ist. Auf Grundlage der bioinformatischen Daten konnte für weitere Studien eine notwendige gTUB-Deletionsmutante entwickelt werden. Für Röntgendiffraktionsstudien und gTUB-Interaktionspartneranalysen war die Verfügbarkeit verhältnismäßig großer Proteinmengen notwendig. Die Expression der gTUB-Volllängensequenz in gelöster und aktiver Form stellte einen immanent wichtigen Zwischenschritt dar. Das Escherichia coli T7/lacO-Expressionssystem lieferte, trotz vielversprechender Erfolge in der Vergangenheit, kein gelöstes rekombinantes gTUB. So wurden zwar verhältnismäßig hohe Expressionsraten erzielt, aber das rekombinante gTUB lag quantitativ als Inclusion bodies vor. Eine Variationen der Expressionsparameter sowie umfangreiche Versuche mittels verschiedenster Konstrukte sowie potentiell die Löslichkeit erhöhenden Tags gTUB in gelöster Form in E. coli zu exprimieren blieben erfolglos. Eine Denaturierung der Inclusion bodies und Rückfaltung wurde aufgrund der wohl bei der Tubulinfaltung notwendigen komplexeren Chaperone sowie thermodynamischer Überlegungen ausgeschlossen. Die höher evolvierte Chaperonausstattung war ein Hauptgrund für die Verwendung der eukaryotischen Hefe-Expressionssysteme K. lactis und des S. cerevisiae-Stammes FGY217 zur gTUB-Expression. So konnten nach der Selektion nur transgene Hefe-Zellen dokumentiert werden, die die gTUB-Expressionskassette nachweislich an der vorgesehenen Zielposition in ihrem Genom integrierten, aber keine dokumentierbare Expression zeigten. Die wahrscheinlichste Begründung hierfür ist, dass ein erhöhter intrazellulärer gTUB-Titer mit dem Zellwachstum und der Zellteilung dieser eukaryotischen Organismen interferierte und durch Rückkopplungen die rekombinante gTUB-CDS aus N. tabacum ausgeschaltet wurde. Der Versuch einer transienten gTUB-Überexpression in differenzierten Blattgeweben höherer Pflanzen war eine logische Konsequenz aus den vorherigen Ergebnissen und lieferte, wenn auch nicht die für eine Proteinkristallisation notwendigen Mengen, gelöstes gTUB. Bestrebungen einer stabilen Transfektion von A. thaliana oder BY-2-Zellkulturen mit einer gTUB-CDS lieferten keine transgenen Organismen, was starke Interferenzen der rekombinanten gTUB-CDS in den Zellen vermuten lies. Transfektionsversuche mit nur GFP tragenden Konstrukten ergaben hingegen eine hohe Anzahl an transgenen Organismen, die auch verhältnismäßig starke Expressionsraten zeigten. Die erzielten Proteinmengen bei der transienten gTUB-Überexpression in N. benthamiana Blattgeweben, in Co-Expression mit dem Posttransriptional Gene Silencing-Suppressorprotein p19, waren für einen Pull-Down sowie eine massenspektroskopische Analyse der Interaktionspartner ausreichend und ergaben Befunde. Eine abschließende Auswertung des erarbeiteten massenspektroskopischen Datensatzes wird jedoch erst dann möglich sein, wenn das Tabak-Proteom vollständig sequenziert ist. Die Erweiterung der bestehenden pflanzlichen Vergleichsdatenbanken um das bisher bekannte Tabak-Proteom vervielfachte die Anzahl der in dieser Studie identifizierten gTUB-Interaktionspartner. Interaktionen mit dem TCP1-Chaperon untermauern die Hypothese der zur Faltung pflanzlichen gTUBs notwendigen Chaperone. Beobachtete gTUB-Degradationsmuster in Verbindung mit Interaktionen des 26S-Proteasoms deuten auf eine Gegenregulationen bei erhöhtem gTUB-Titer auf Proteinebene hin. Da Blattgewebe selbst nur noch über eine sehr geringe und inhomogene Teilungsaktivität verfügen ist diese Regulation hoch spannend. Auch konnte durch Co-Expression des PTGS-Suppressorproteins p19 gezeigt werden, dass bei der gTUB-Expression eine Regulation auf RNA-Ebene erfolgt.

Comparative expression profiling of E. coli and S. aureus inoculated primary mammary gland cells sampled from cows with different genetic predispositions for somatic cell score

BACKGROUND: During the past ten years many quantitative trait loci (QTL) affecting mastitis incidence and mastitis related traits like somatic cell score (SCS) were identified in cattle. However, little is known about the molecular architecture of QTL affecting mastitis susceptibility and the underlying physiological mechanisms and genes causing mastitis susceptibility. Here, a genome-wide expression analysis was conducted to analyze molecular mechanisms of mastitis susceptibility that are affected by a specific QTL for SCS on Bos taurus autosome 18 (BTA18). Thereby, some first insights were sought into the genetically determined mechanisms of mammary gland epithelial cells influencing the course of infection. METHODS: Primary bovine mammary gland epithelial cells (pbMEC) were sampled from the udder parenchyma of cows selected for high and low mastitis susceptibility by applying a marker-assisted selection strategy considering QTL and molecular marker information of a confirmed QTL for SCS in the telomeric region of BTA18. The cells were cultured and subsequently inoculated with heat-inactivated mastitis pathogens Escherichia coli and Staphylococcus aureus, respectively. After 1, 6 and 24 h, the cells were harvested and analyzed using the microarray expression chip technology to identify differences in mRNA expression profiles attributed to genetic predisposition, inoculation and cell culture. RESULTS: Comparative analysis of co-expression profiles clearly showed a faster and stronger response after pathogen challenge in pbMEC from less susceptible animals that inherited the favorable QTL allele 'Q' than in pbMEC from more susceptible animals that inherited the unfavorable QTL allele 'q'. Furthermore, the results highlighted RELB as a functional and positional candidate gene and related non-canonical Nf-kappaB signaling as a functional mechanism affected by the QTL. However, in both groups, inoculation resulted in up-regulation of genes associated with the Ingenuity pathways 'dendritic cell maturation' and 'acute phase response signaling', whereas cell culture affected biological processes involved in 'cellular development'. CONCLUSIONS: The results indicate that the complex expression profiling of pathogen challenged pbMEC sampled from cows inheriting alternative QTL alleles is suitable to study genetically determined molecular mechanisms of mastitis susceptibility in mammary epithelial cells in vitro and to highlight the most likely functional pathways and candidate genes underlying the QTL effect.

Neuronal expression of the ubiquitin ligase Nedd4-2 in rat dorsal root ganglia: modulation in the spared nerve injury model of neuropathic pain

Neuronal hyperexcitability following peripheral nerve lesions may stem from altered activity of voltage-gated sodium channels (VGSCs), which gives rise to allodynia or hyperalgesia. In vitro, the ubiquitin ligase Nedd4-2 is a negative regulator of VGSC α-subunits (Na(v)), in particular Na(v)1.7, a key actor in nociceptor excitability. We therefore studied Nedd4-2 in rat nociceptors, its co-expression with Na(v)1.7 and Na(v)1.8, and its regulation in pathology. Adult rats were submitted to the spared nerve injury (SNI) model of neuropathic pain or injected with complete Freund's adjuvant (CFA), a model of inflammatory pain. L4 dorsal root ganglia (DRG) were analyzed in sham-operated animals, seven days after SNI and 48 h after CFA with immunofluorescence and Western blot. We observed Nedd4-2 expression in almost 50% of DRG neurons, mostly small and medium-sized. A preponderant localization is found in the non-peptidergic sub-population. Additionally, 55.7 ± 2.7% and 55.0 ± 3.6% of Nedd4-2-positive cells are co-labeled with Na(v)1.7 and Na(v)1.8 respectively. SNI significantly decreases the proportion of Nedd4-2-positive neurons from 45.9 ± 1.9% to 33.5 ± 0.7% (p<0.01) and the total Nedd4-2 protein to 44% ± 0.13% of its basal level (p<0.01, n=4 animals in each group, mean ± SEM). In contrast, no change in Nedd4-2 was found after peripheral inflammation induced by CFA. These results indicate that Nedd4-2 is present in nociceptive neurons, is downregulated after peripheral nerve injury, and might therefore contribute to the dysregulation of Na(v)s involved in the hyperexcitability associated with peripheral nerve injuries.

Expression of enterotoxigenic Escherichia coli colonization factors in Vibrio cholerae

As a first step towards a vaccine against diarrhoeal disease caused by enterotoxigenic Escherichia coli (ETEC), we have studied the expression of several ETEC antigens in the live attenuated Vibrio cholerae vaccine strain CVD 103-HgR. Colonization factors (CF) CFA/I, CS3, and CS6 were expressed at the surface of V. cholerae CVD 103-HgR. Both CFA/I and CS3 required the co-expression of a positive regulator for expression, while CS6 was expressed without regulation. Up-regulation of CF expression in V. cholerae was very efficient, so that high amounts of CFA/I and CS3 similar to those in wild-type ETEC were synthesized from chromosomally integrated CF and positive regulator loci. Increasing either the operon and/or the positive regulator gene dosage resulted in only a small increase in CFA/I and CS3 expression. In contrast, the level of expression of the non-regulated CS6 fimbriae appeared to be more dependent on gene dosage. While CF expression in wild-type ETEC is known to be tightly thermoregulated and medium dependent, it seems to be less stringent in V. cholerae. Finally, co-expression of two or three CFs in the same strain was efficient even under the control of one single regulator gene.

Effects of Forskolin on Trefoil factor 1 expression in cultured ventral mesencephalic dopaminergic neurons

Trefoil factor 1 (TFF1) belongs to a family of secreted peptides that are mainly expressed in the gastrointestinal tract. Notably, TFF1 has been suggested to operate as a neuropeptide, however, its specific cellular expression, regulation and function remain largely unknown. We have previously shown that TFF1 is expressed in developing and adult rat ventral mesencephalic tyrosine hydroxylase-immunoreactive (TH-ir) dopaminergic neurons. Here, we investigated the expression of TFF1 in rat ventral mesencephalic dopaminergic neurons (embryonic day 14) grown in culture for 5, 7 or 10 days in the absence (controls) or presence of either glial cell line-derived neurotrophic factor (GDNF), Forskolin or the combination. No TFF1-ir cells were identified at day 5 and only a few at day 7, whereas TH was markedly expressed at both time points. At day 10, several TFF1-ir cells were detected, and their numbers were significantly increased after the addition of GDNF (2.2-fold) or Forskolin (4.1-fold) compared to controls. Furthermore, the combination of GDNF and Forskolin had an additive effect and increased the number of TFF1-ir cells by 5.6-fold compared to controls. TFF1 expression was restricted to neuronal cells, and the percentage of TH/TFF1 co-expressing cells was increased to the same extent in GDNF and Forskolin-treated cultures (4-fold) as compared to controls. Interestingly, the combination of GDNF and Forskolin resulted in a significantly increased co-expression (8-fold) of TH/TFF1, which could indicate that GDNF and Forskolin targeted different subpopulations of TH/TFF1 neurons. Short-term treatment with Forskolin resulted in an increased number of TFF1-ir cells, and this effect was significantly reduced by the MEK1 inhibitor PD98059 or the protein kinase A (PKA) inhibitor H89, suggesting that Forskolin induced TFF1 expression through diverse signaling pathways. In conclusion, distinct populations of cultured dopaminergic neurons express TFF1, and their numbers can be increased by factors known to influence survival and differentiation of dopaminergic cells.

Role and regulation of c-KIT gene expression in tumor growth and metastasis of human melanoma

The purpose of this study was to investigate the role of the c-KIT receptor in the progression of human melanoma and the mechanism(s) for the regulation of c-KIT gene expression in human melanoma.^ The molecular changes associated with the transition of melanoma cells from radial growth phase (RGP) to vertical growth phase (VGP) (metastatic phenotype) are not well-defined. Expression of the tyrosine-kinase receptor c-KIT progressively decreases during local tumor growth and invasion of human melanomas. To provide direct evidence that the metastasis of human melanoma is associated with the loss of c-KIT expression, highly metastatic A375SM cells, which express very low or undetectable levels of c-KIT, were tranduced with the human c-KIT gene. We demonstrated that enforced c-KIT expression in highly metastatic human melanoma cells significantly suppressed their tumorigenicity and metastatic propensity in nude mice. In addition, we showed that the ligand for c-KIT, SCF, induces apoptosis in human melanoma cells expressing c-KIT under both in vitro and in vivo conditions. These results suggest that loss of c-KIT receptor may allow malignant melanoma cells to escape SCF/c-KIT-mediated apoptosis, thus contributing to tumor growth and eventually metastasis.^ Furthermore, we investigated the possible mechanism(s) for the down-regulation of c-KIT gene expression in malignant melanoma. Sequence analysis of the c-KIT promoter indicated that this promoter contains several consensus binding-site sequences including three putative AP2 and two Myb sites. Although Myb was shown to be associated with c-KIT expression in human hemotopoietic cells, we found no correlation between c-KIT expression and Myb expression in human melanoma cell lines. In contrast, we showed that c-KIT expression directly correlates with expression of AP2 in human melanoma cells. We found that highly metastatic cells do not express the transcription factor AP2. Expression of AP2 in A375SM cells (c-KIT-negative and AP2-negative) was enough to restore luciferase activity driven by the c-KIT promoter in a dose-dependent manner. On the other hand, co-expression of the dominant-negative form of AP2 (AP2B) in Mel-501 cells (c-KIT-positive and AP2-positive) resulted in two-fold reduction in luciferase activity. Electrophoretic mobility shift assays revealed that the c-KIT promoter contains functional AP2 binding sites which could associate with AP2 protein. Endogenous c-KIT gene expression levels were elevated in AP2 stably-transfected human melanoma A375SM cells. Expression of exogenous AP2 in A375SM cells inhibited their tumorigenicity and metastatic potential in nude mice. The c-KIT ligand, SCF, also induced apoptosis in the AP2 stably-transfected A375SM cells. The identification of AP2 as an important regulator for c-KIT expression suggests that AP2 may have tumor growth and metastasis inhibitory properties, possibly mediated through c-KIT/SCF effects on apoptosis of human melanoma cells. Since AP2 binding sites were found in the promoters of other genes involved in the progression of human melanoma, such as MMP2 (72 kDa collagenase), MCAM/MUC18 and P21/WAF-1, our findings suggest that loss of AP2 expression might be a crucial event in the development of malignant melanoma. ^

Differential Micro RNA Expression in PBMC from Multiple Sclerosis Patients

Differences in gene expression patterns have been documented not only in Multiple Sclerosis patients versus healthy controls but also in the relapse of the disease. Recently a new gene expression modulator has been identified: the microRNA or miRNA. The aim of this work is to analyze the possible role of miRNAs in multiple sclerosis, focusing on the relapse stage. We have analyzed the expression patterns of 364 miRNAs in PBMC obtained from multiple sclerosis patients in relapse status, in remission status and healthy controls. The expression patterns of the miRNAs with significantly different expression were validated in an independent set of samples. In order to determine the effect of the miRNAs, the expression of some predicted target genes of these were studied by qPCR. Gene interaction networks were constructed in order to obtain a co-expression and multivariate view of the experimental data. The data analysis and later validation reveal that two miRNAs (hsa-miR-18b and hsa-miR-599) may be relevant at the time of relapse and that another miRNA (hsa-miR-96) may be involved in remission. The genes targeted by hsa-miR-96 are involved in immunological pathways as Interleukin signaling and in other pathways as wnt signaling. This work highlights the importance of miRNA expression in the molecular mechanisms implicated in the disease. Moreover, the proposed involvement of these small molecules in multiple sclerosis opens up a new therapeutic approach to explore and highlight some candidate biomarker targets in MS

Expression of human beta-amyloid peptide in transgenic Caenorhabditis elegans.

Transgenic Caenorhabditis elegans nematodes have been engineered to express potentially amyloidic human proteins. These animals contain constructs in which the muscle-specific unc-54 promoter/enhancer of C. elegans drives the expression of the appropriate coding regions derived from human cDNA clones. Animals containing constructs expressing the 42-amino acid beta-amyloid peptide (derived from human amyloid precursor protein cDNA) produce muscle-specific deposits immunoreactive with anti-beta-amyloid polyclonal and monoclonal antibodies. A subset of these deposits also bind the amyloid-specific dye thioflavin S, indicating that these deposits have the tinctural characteristics of classic amyloid. Co-expression of beta-peptide and transthyretin, a protein implicated in preventing the formation of insoluble beta-amyloid, leads to a dramatic reduction in the number of dye-reactive deposits. These results suggest that this invertebrate model may be useful for in vivo investigation of factors that modulate amyloid formation.

Co-authorship Networks in Swiss Political Research

Co-authorship is an important indicator of scientific collaboration. Co-authorship networks are composed of sub-communities, and researchers can gain visibility by connecting these insulated subgroups. This article presents a comprehensive co-authorship network analysis of Swiss political science. Three levels are addressed: disciplinary cohesion and structure at large, communities, and the integrative capacity of individual researchers. The results suggest that collaboration exists across geographical and language borders even though different regions focus on complementary publication strategies. The subfield of public policy and administration has the highest integrative capacity. Co-authorship is a function of several factors, most importantly being in the same subfield. At the individual level, the analysis identifies researchers who belong to the “inner circle” of Swiss political science and who link different communities. In contrast to previous research, the analysis is based on the full set of publications of all political researchers employed in Switzerland in 2013, including past publications.

Effect of naloxone-precipitated morphine withdrawal on c-fos expression in rat corticotropin-releasing hormone neurons in the paraventricular hypothalamus and extended amygdala

Morphine withdrawal is characterized by physical symptoms and a negative affective state. The 41 amino acid polypeptide corticotropin-releasing, hormone (CRH) is hypothesized to mediate, in part, both the negative affective state and the physical withdrawal syndrome. Here, by means of dual-immunohistochemical methodology, we examined the co-expression of the c-Fos protein and CRH following naloxone-precipitated morphine withdrawal. Rats were treated with slow-release morphine 50 mg/kg (subcutaneous, s.c.) or vehicle every 48 It for 5 days, then withdrawn with naloxone 5 mg/kg (s.c.) or saline 48 h after the final morphine injection. Two hours after withdrawal rats were perfused transcardially and their brains were removed and processed for immunohistochemistry. We found that naloxone-precipitated withdrawal of morphine-dependent rats increased c-Fos immunoreactivity (IR) in CRH positive neurons in the paraventricular hypothalamus. Withdrawal of morphine-dependent rats also increased c-Fos-IR in the central amygdala and bed nucleus of the stria terminalis. however these were in CRH negative neurons. (C) 2004 Published by Elsevier Ireland Ltd.

Eukaryotic expression:Developments for structural proteomics

The production of sufficient quantities of protein is an essential prelude to a structure determination, but for many viral and human proteins this cannot be achieved using prokaryotic expression systems. Groups in the Structural Proteomics In Europe (SPINE) consortium have developed and implemented high-throughput (HTP) methodologies for cloning, expression screening and protein production in eukaryotic systems. Studies focused on three systems: yeast (Pichia pastoris and Saccharomyces cerevisiae), baculovirus-infected insect cells and transient expression in mammalian cells. Suitable vectors for HTP cloning are described and results from their use in expression screening and protein-production pipelines are reported. Strategies for co-expression, selenomethionine labelling (in all three eukaryotic systems) and control of glycosylation (for secreted proteins in mammalian cells) are assessed. © International Union of Crystallography, 2006.

Expression of tumor-related Rac1b antagonizes B-Raf-induced senescence in colorectal cells

Mutations in the BRAF oncogene have been identified as a tumor-initiating genetic event in mainly melanoma, thyroid and colon cancer, resulting in an initial proliferative stimulus that is followed by a growth arrest period known as oncogene-induced senescence (OIS). It remains unknown what triggers subsequent escape from OIS to allow further tumor progression. A previous analysis revealed that overexpression of splice variant Rac1b occurs in around 80% of colorectal tumors carrying a mutation in BRAF. Using both BRaf-V600E-directed RNAi and overexpression we demonstrate that this mutation does not directly lead to Rac1b overexpression, indicating the latter as an independent event during tumor progression. Nonetheless, we observed that expression of oncogenic BRaf-V600E in non-transformed colonocytes (NCM460 cell line) increased both the transcript and protein levels of p14ARF, p15INK4b and p21CIP1 and led to increased expression of β-galactosidase, all indicators of OIS induction. Interestingly, whereas the protein levels of these markers were reduced upon Rac1b overexpression, the levels of their respective transcripts remained unchanged. Importantly, the co-expression of Rac1b with B-Raf-V600E reverted the OIS phenotype, reducing the expression levels of the cell-cycle inhibitors and β-galactosidase to those of control cells. These data identify increased Rac1b expression as one potential mechanism by which colorectal tumor cells can escape from B-Raf-induced OIS.

Recombinant expression of Aryl Hydrocarbon Receptor for quantitative ligand-binding analysis

Recombinant expression of the Aryl Hydrocarbon Receptor (AhR) yields small amounts of ligand- binding competent AhR. Therefore, Spodoptera frugiperda (Sf9) cells and baculovirus have been evaluated for high level and functional expression of AhR. Rat and human AhR were expressed as soluble protein in significant amounts. Expression of ligand-binding competent AhR was sensitive to the protein concentration of Sf9 extract, and co-expression of the chaperone p23 failed to affect the yield of functional ligand-binding AhR. The expression system yielded high levels of functional protein, with the ligand-binding capacity (Bmax) typically 20- fold higher than that obtained with rat liver cytosol. Quantitative estimates of the ligand-binding affinity of human and rat AhR were obtained; the Kd for recombinant rat AhR was indistinguishable from that of native rat AhR, thereby validating the expression system as a faithful model for native AhR. The human AhR bound TCDD with significantly lower affinity than the rat AhR. These findings demonstrate high-level expression of ligand-binding competent AhR, and sufficient AhR for quantitative analysis of ligand-binding.