Neonatal maternal separation of rat pups results in abnormal cholinergic regulation of epithelial permeability

Neonatal maternal separation (MS) predisposes adult rats to develop stress-induced mucosal barrier dysfunction/visceral hypersensitivity and rat pups to develop colonic epithelial dysfunction. Our aim was to examine if enhanced epithelial permeability in such pups resulted from abnormal regulation by enteric nerves. Pups were separated from the dam for 3 h/day (days 4-20); nonseparated (NS) pups served as controls. On day 20, colonic tissues were removed and mounted in Ussing chambers. Horseradish peroxidase (HRP) flux was used to measure macromolecular permeability. HRP flux was increased in MS versus NS pups. The enhanced flux was inhibited by the cholinergic muscarinic antagonist atropine and the nicotinic antagonist hexamethonium. The cholinergic component was greater in tissues from MS versus NS pups, suggesting that increased cholinergic activity was responsible for the MS elevated permeability. Western blots and immunohistochemistry of colonic tissues demonstrated increased expression of choline acetyltransferase (ChAT) in MS pups, indicating greater synthesis of acetylcholine. Since a previous study indicated that corticotrophin-releasing factor (CRF) mediates barrier dysfunction in MS pups, we examined if the two pathways were linked. In MS tissues, nonselective CRF receptor antagonism inhibited the enhanced flux, and the addition of atropine did not produce further inhibition. Using selective receptor antagonists, we identified that CRF receptor 2 was involved in mediating this effect. These findings suggest that CRF, via CRF receptor 2, acts on cholinergic nerves to induce epithelial barrier dysfunction. Our study provides evidence that MS stimulates synthesis of acetylcholine, which, together with released CRF, creates a condition conducive to the development of epithelial barrier defects.     

Lipid rafts in T cell signalling and disease

Lipid rafts is a blanket term used to describe distinct areas in the plasma membrane rich in certain lipids and proteins and which are thought to perform diverse functions. A large number of studies report on lipid rafts having a key role in receptor signalling and activation of lymphocytes. In T cells, lipid raft involvement was demonstrated in the early steps during T cell receptor (TCR) stimulation. Interestingly, recent evidence has shown that signalling in these domains differs in T cells isolated from patients with autoimmune diseases such as systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA). Here, we discuss these findings and explore the potential of lipid rafts as targets for the development of a new class of agents to downmodulate immune responses and for the treatment of autoimmune diseases.     

Enhancing cell survival of atrazine degrading Rhodococcus erythropolis NI86/21 cells encapsulated in alginate beads

AIMS: To develop a method to produce beads with encapsulated Rhodococcus erythropolis NI86/21 with high cell density, extended shelf life, ease of handling and good atrazine degradation capabilities in both liquid and in agricultural soil. METHODS AND RESULTS: Our findings show that the supplementary recovery step in nutrient broth media shortly after cell encapsulation facilitates cell survival in both wet and dry beads upon extended storage at 4 degrees C. Air drying has little or no impact on encapsulated R. erythropolis cell's ability to degrade atrazine in liquid or soil. Bead storage for periods extending up to 12 months at 4 degrees C did not affect the capacity of R. erythropolis encapsulated cells to degrade atrazine in either BMN or nonsterile soil extracts. Bentonite-amended beads formulated with 1% skim milk and exposed to the supplementary growth step, outperformed all other bead formats. These beads provided adequate numbers of vigorous R. erythropolis cells in either liquid or soil media to degrade atrazine. CONCLUSIONS: Supplementary growth in nutrient broth media immediately following cell encapsulation greatly enhances R. erythropolis cells survival in both wet and dry beads upon extended storage at 4 degrees C. Wet and dried beads have similar capacity for atrazine degradation, and their usefulness and appeal in agronomic practise will only be known after bioassay evaluation and successful demonstration at field scale using incurred residues. SIGNIFICANCE AND IMPACT OF THE STUDY: R. erythropolis NI86/21 encapsulated cells have the potential to reduce residual atrazine in soil, thereby minimizing the likelihood of off-site transport to ground or river water and reduce the loss of crops because of phytotoxicity of residual herbicide. Owing to their ease of handling, storage and possible compatibilities with pre-existing mechanical equipment, dried bead formats are ideally suited for agricultural and remediational applications.     

Genetic flows in a structured one-dimensional population: simulation and real data on Baikalian polychaetes M. godlewskii

In this work, we apply population dynamic approach enhanced with simulation of the fate of neutrally evolving "DNA sequences" included into each individual in the computer experiment to the case of the Baikalian endemic polychaetes Manavunkia. These animals inhabit a narrow littoral zone around whole the lake perimeter and are of very limited mobility. Accordingly, the general model was modified by addition of a "geographic barrier" of different isolating power and length of existence. Using this model, we simulated the process of genetic differentiation of groups in this organism taking into account isolation by distance and geographical barriers. Wright's F(st) test was used in order to estimate of genetic flow. Relevant sample sizes were estimated, which would produce most important population parameters of the precision required to describe micro-evolutionary processes in Manayunkia.     

Distinct Phenotypic Differences Associated with Differential Amplification of Receptor Tyrosine Kinase Genes at 4q12 in Glioblastoma

Gene amplification at chromosome 4q12 is a common alteration in human high grade gliomas including glioblastoma, a CNS tumour with consistently poor prognosis. This locus harbours the known oncogenes encoding the receptor tyrosine kinases PDGFRA, KIT, and VEGFR2. These receptors are potential targets for novel therapeutic intervention in these diseases, with expression noted in tumour cells and/or associated vasculature. Despite this, a detailed assessment of their relative contributions to different high grade glioma histologies and the underlying heterogeneity within glioblastoma has been lacking. We studied 342 primary high grade gliomas for individual gene amplification using specific FISH probes, as well as receptor expression in the tumour and endothelial cells by immunohistochemistry, and correlated our findings with specific tumour cell morphological types and patterns of vasculature. We identified amplicons which encompassed PDGFRA only, PDGFRA/KIT, and PDGFRA/KIT/VEGFR2, with distinct phenotypic correlates. Within glioblastoma specimens, PDGFRA amplification alone was linked to oligodendroglial, small cell and sarcomatous tumour cell morphologies, and rare MGMT promoter methylation. A younger age at diagnosis and better clinical outcome in glioblastoma patients is only seen when PDGFRA and KIT are co-amplified. IDH1 mutation was only found when all three genes are amplified; this is a subgroup which also harbours extensive MGMT promoter methylation. Whilst PDGFRA amplification was tightly linked to tumour expression of the receptor, this was not the case for KIT or VEGFR2. Thus we have identified differential patterns of gene amplification and expression of RTKs at the 4q12 locus to be associated with specific phenotypes which may reflect their distinct underlying mechanisms.     

Molecular markers in Viola L. subsect. Viola: Application and taxonomic implications for the identification of dubious herbarium specimens

Abstract

The authors report the use of nuclear [internal transcribed spacer (ITS) sequences 1 and 2] and chloroplast DNA (trnS-trnG intergenic spacer sequences) in Viola subsect. Viola for separate tracking of maternal lineages and detecting dubious herbarium specimens. A phylogenetic investigation carried out on ITS data after removal of all material with possible hybrid origin showed that V. hirta is a monophyletic unit, whereas V. odorata includes at least V. collina and V. jaubertiana, as well as three sequences of V. alba subsp. dehnhardtii from literature. In some, among the sampled individuals, the morphological attribution to one species is contradicted by nuclear DNA, which indicated a wide distance from other non-specific individuals from different locations and closer proximity to a different species. Chloroplast DNA data for the same individuals, on the contrary concurred with morphological evidence. These findings confirm document univocal correlation between our chosen chloroplast sequences and the studied taxa at species or subspecies level; these sequences have the appropriate variability range to be employed for detection of the maternal lineage of unknown Viola samples.     

Sensitization to gliadin induces moderate enteropathy and insulitis in nonobese diabetic-DQ8 mice

Celiac disease (CD) is frequently diagnosed in patients with type 1 diabetes (T1D), and T1D patients can exhibit Abs against tissue transglutaminase, the auto-antigen in CD. Thus, gliadin, the trigger in CD, has been suggested to have a role in T1D pathogenesis. The objective of this study was to investigate whether gliadin contributes to enteropathy and insulitis in NOD-DQ8 mice, an animal model that does not spontaneously develop T1D. Gliadin-sensitized NOD-DQ8 mice developed moderate enteropathy, intraepithelial lymphocytosis, and barrier dysfunction, but not insulitis. Administration of anti-CD25 mAbs before gliadin-sensitization induced partial depletion of CD25(+)Foxp3(+) T cells and led to severe insulitis, but did not exacerbate mucosal dysfunction. CD4(+) T cells isolated from pancreatic lymph nodes of mice that developed insulitis showed increased proliferation and proinflammatory cytokines after incubation with gliadin but not with BSA. CD4(+) T cells isolated from nonsensitized controls did not response to gliadin or BSA. In conclusion, gliadin sensitization induced moderate enteropathy in NOD-DQ8 mice. However, insulitis development required gliadin-sensitization and partial systemic depletion of CD25(+)Foxp3(+) T cells. This humanized murine model provides a mechanistic link to explain how the mucosal intolerance to a dietary protein can lead to insulitis in the presence of partial regulatory T cell deficiency.     

BL-7010 Demonstrates Specific Binding to Gliadin and Reduces Gluten-Associated Pathology in a Chronic Mouse Model of Gliadin Sensitivity

Celiac disease (CD) is an autoimmune disorder in individuals that carry DQ2 or DQ8 MHC class II haplotypes, triggered by the ingestion of gluten. There is no current treatment other than a gluten-free diet (GFD). We have previously shown that the BL-7010 copolymer poly(hydroxyethyl methacrylate-co-styrene sulfonate) (P(HEMA-co-SS)) binds with higher efficiency to gliadin than to other proteins present in the small intestine, ameliorating gliadin-induced pathology in the HLA-HCD4/DQ8 model of gluten sensitivity. The aim of this study was to investigate the efficiency of two batches of BL-7010 to interact with gliadin, essential vitamins and digestive enzymes not previously tested, and to assess the ability of the copolymer to reduce gluten-associated pathology using the NOD-DQ8 mouse model, which exhibits more significant small intestinal damage when challenged with gluten than HCD4/DQ8 mice. In addition, the safety and systemic exposure of BL-7010 was evaluated in vivo (in rats) and in vitro (genetic toxicity studies). In vitro binding data showed that BL-7010 interacted with high affinity with gliadin and that BL-7010 had no interaction with the tested vitamins and digestive enzymes. BL-7010 was effective at preventing gluten-induced decreases in villus-to-crypt ratios, intraepithelial lymphocytosis and alterations in paracellular permeability and putative anion transporter-1 mRNA expression in the small intestine. In rats, BL-7010 was well-tolerated and safe following 14 days of daily repeated administration of 3000 mg/kg. BL-7010 did not exhibit any mutagenic effect in the genetic toxicity studies. Using complementary animal models and chronic gluten exposure the results demonstrate that administration of BL-7010 is effective and safe and that it is able to decrease pathology associated with gliadin sensitization warranting the progression to Phase I trials in humans.     

Enrichment of c-Met+ tumorigenic stromal cells of giant cell tumor of bone and targeting by cabozantinib

Giant cell tumor of bone (GCTB) is a very rare tumor entity, which is little examined owing to the lack of established cell lines and mouse models and the restriction of available primary cell lines. The stromal cells of GCTB have been made responsible for the aggressive growth and metastasis, emphasizing the presence of a cancer stem cell population. To identify and target such tumor-initiating cells, stromal cells were isolated from eight freshly resected GCTB tissues. Tumorigenic properties were examined by colony and spheroid formation, differentiation, migration, MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) assay, immunohistochemistry, antibody protein array, Alu in situ hybridization, FACS analysis and xenotransplantation into fertilized chicken eggs and mice. A sub-population of the neoplastic stromal cells formed spheroids and colonies, differentiated to osteoblasts, migrated to wounded regions and expressed the metastasis marker CXC-chemokine receptor type 4, indicating self-renewal, invasion and differentiation potential. Compared with adherent-growing cells, markers for pluripotency, stemness and cancer progression, including the CSC surface marker c-Met, were enhanced in spheroidal cells. This c-Met-enriched sub-population formed xenograft tumors in fertilized chicken eggs and mice. Cabozantinib, an inhibitor of c-Met in phase II trials, eliminated CSC features with a higher therapeutic effect than standard chemotherapy. This study identifies a c-Met⁺ tumorigenic sub-population within stromal GCTB cells and suggests the c-Met inhibitor cabozantinib as a new therapeutic option for targeted elimination of unresectable or recurrent GCTB.Giant cell tumor of bone (GCTB) is a very rare, osteolytic neoplasm deemed histologically benign, but it is locally aggressive and destroys bone and overlying soft tissue.^1,2 Surgery has been the preferred treatment for GCTB; however, the lesion tends to recur locally. In ~6% of cases, the development of lung metastases has been observed.^{3, 4, 5} GCTB has a predilection for the epiphyseal/metaphyseal region of long bones and the spine and thus can cause substantial morbidity.⁶ For patients with unresectable GCTB, the use of chemotherapeutics, bisphosphonates, radiation, radiofrequency thermal ablation and arterial embolization are palliative options with limited effects on tumor control.^{7, 8, 9} Recently, denosumab, a RANKL inhibitor, has been approved for GCTB, and it targets, especially the neoplastic stromal cells, which express high concentrations of RANKL.^9,10GCTB is composed of three different cell types: multinucleated, osteoclast-like giant cells, CD68⁺ phagocytic histiocytes and fibroblast-like stromal cells. The stromal cells have been identified as the neoplastic cell population,^{11, 12, 13} and it is believed that they develop from mesenchymal stem cells (MSCs).^14,15 The latter notion is supported by studies that demonstrate involvement of MSCs in tumor development—for example, in the development of sarcoma.¹⁶According to the hypothesis, cancer stem cells (CSCs) are responsible for growth, invasion, metastasis and therapy resistance of cancer, because this small sub-population within the tumor mass is thought to survive conventional cytotoxic therapy because of activated defense and survival mechanisms.¹⁷ CSCs are characterized by self-renewal potential and the ability to differentiate, thereby generating a heterogeneous cell population of the originating tumor.^{18, 19, 20} In addition, CSCs are proposed to mediate uncontrolled growth, therapy resistance, invasion and metastasis.²¹ Markers for CSCs have been identified in various tumor entities, and the selected marker-positive fractions can reconstitute the original tumor in immunodeficient mice.²² There are several surface markers for CSCs of different tumor entities and the c-Met marker represents such a typical CSC sub-population.^{23, 24, 25}c-Met belongs to the group of receptor tyrosine kinases and has a key role in cell survival, growth, angiogenesis and metastasis.²⁶ c-Met and its physiologic ligand hepatocyte growth factor (HGF) are required for normal mammalian development and have an important role in epithelial–mesenchymal interactions during organ morphogenesis.²⁶ The intracellular signaling cascades activated by c-Met include the RAS-MAPK and PI3K-AKT pathways, as well as NF-κB and Wnt/GSK-3β/β-catenin signaling.²⁶ Many carcinomas overexpress c-Met, and the surrounding stroma overexpresses HGF. Currently, the therapeutic potential of the c-Met inhibitor cabozantinib (XL184) is intensively investigated. Cabozantinib is a potent dual inhibitor of c-Met and VEGFR-2 signaling.^25,27 The clinical efficacy of cabozantinib in several progressed tumor entities is under investigation in randomized phase II studies.²⁸ At the end of 2012, cabozantinib (Cometriq) was approved by the FDA for the treatment of patients with progressive medullary thyroid carcinoma.²⁹ Cabozantinib shows promise in preventing prostate cancer spread to bone because tumors were reduced on bone scans, and bone pain decreased after patients received cabozantinib.³⁰ These data may be of importance for GCTB, but until now, cabozantinib has not been investigated for the treatment of primary bone tumors.In the present study, we demonstrate that a c-Met⁺ sub-population of low-passage stromal cells isolated from eight freshly resected GCTB specimens possess self-renewal, differentiation and migratory potential, as well as the ability to form tumors in vivo. By comparing attached-growing c-Met^low and spheroidal c-Met^high cultures, we identified enhanced pluripotency, stemness and progression, as well as the enrichment of a c-Met⁺ population. Most importantly, cabozantinib strongly inhibited the self-renewal potential and in vivo growth of GCTB stromal cells. Thus, cabozantinib may be considered an effective future therapeutic option for the targeted elimination of a tumorigenic stromal sub-population in non-resectable or recurrent GCTB.