Lucille Rainbow

Activation of Mitogen-Activated Protein Kinase and NF-κB Pathways by a Kaposi's Sarcoma-Associated Herpesvirus K15 Membrane Protein

ABSTRACT The K15 gene of Kaposis sarcoma-associated herpesvirus (also known as human herpesvirus 8) consists of eight alternatively spliced exons and has been predicted to encode membrane proteins with a variable number of transmembrane regions and a common C-terminal cytoplasmic domain with putative binding sites for SH2 and SH3 domains, as well as for tumor necrosis factor receptor-associated factors. These features are reminiscent of the latent membrane proteins LMP-1 and LMP2A of Epstein-Barr virus and, more distantly, of the STP, Tip, and Tio proteins of the related γ2-herpesviruses herpesvirus saimiri and herpesvirus ateles. These viral membrane proteins can activate a number of intracellular signaling pathways. We have therefore examined the abilities of different K15-encoded proteins to initiate intracellular signaling. We found that a 45-kDa K15 protein derived from all eight K15 exons and containing 12 predicted transmembrane domains in addition to the cytoplasmic domain activated the Ras/mitogen-activated protein kinase (MAPK) and NF-κB pathways, as well as (more weakly) the c-Jun N-terminal kinase/SAPK pathway. Activation of the MAPK and NF-κB pathways required phosphorylation of tyrosine residue 481 within a putative SH2-binding site (YEEVL). This motif was phosphorylated by the tyrosine kinases Src, Lck, Yes, Hck, and Fyn. The region containing the YEEVL motif interacted with tumor necrosis factor receptor-associated factor 2 (TRAF-2), and a dominant negative TRAF-2 mutant inhibited the K15-mediated activation of the Ras/MAPK pathway, suggesting the involvement of TRAF-2 in the initiation of these signaling routes. In contrast, several smaller K15 protein isoforms activated these pathways only weakly. All of the K15 isoforms tested were, however, localized in lipid rafts, suggesting that incorporation into lipid rafts is not sufficient to initiate signaling. Additional regions of K15, located presumably in exons 2 to 5, may therefore contribute to the activation of these pathways. These findings illustrate that the 45-kDa K15 protein engages pathways similar to LMP1, LMP2A, STP, Tip, and Tio but combines functional features that are separated between LMP1 and LMP2A or STP and Tip.

Distribution of type III secretion gene clusters in Burkholderia pseudomallei, B. thailandensis and B. mallei

Burkholderia pseudomallei, the causative agent of melioidosis, carries a cluster of genes closely related in organisation to the type III secretion (TTS) system gene clusters of the plant pathogens Ralstonia solanacearum and Xanthomonas spp. The TTS gene cluster (TTS1) is present only in B. pseudomallei and not in avirulent B. thailandensis. Adjacent to the gene cluster encoding putative secreton structural proteins lie a number of open reading frames (ORFs) encoding putative proteins with little or no homology to known proteins, with the exception of one predicted protein with homology to Pseudomonas syringae HrpK. In both R. solanacearum and Xanthomonas spp., genes in this location encode secreted effector proteins. RT-PCR analysis indicated that TTS genes, including two of these ORFs, are expressed in broth at 37 degrees C. Analysis of genome sequence data identified a second cluster of TTS genes (TTS2) present in both B. pseudomallei and B. mallei (99% identity). However, B. mallei appears to lack the TTS1 gene cluster. PCR assays indicated that TTS2 was also present in B. thailandensis. TTS1 and TTS2 are similar in gene organisation, but nucleotide sequences are sufficiently divergent to suggest that the two TTS systems may have different roles.

Analysis of gene expression from the Wolbachia genome of a filarial nematode supports both metabolic and defensive roles within the symbiosis

The α-proteobacterium Wolbachia is probably the most prevalent, vertically transmitted symbiont on Earth. In contrast with its wide distribution in arthropods, Wolbachia is restricted to one family of animal-parasitic nematodes, the Onchocercidae. This includes filarial pathogens such as Onchocerca volvulus, the cause of human onchocerciasis, or river blindness. The symbiosis between filariae and Wolbachia is obligate, although the basis of this dependency is not fully understood. Previous studies suggested that Wolbachia may provision metabolites (e.g., haem, riboflavin, and nucleotides) and/or contribute to immune defense. Importantly, Wolbachia is restricted to somatic tissues in adult male worms, whereas females also harbor bacteria in the germline. We sought to characterize the nature of the symbiosis between Wolbachia and O. ochengi, a bovine parasite representing the closest relative of O. volvulus. First, we sequenced the complete genome of Wolbachia strain wOo, which revealed an inability to synthesize riboflavin de novo. Using RNA-seq, we also generated endobacterial transcriptomes from male soma and female germline. In the soma, transcripts for membrane transport and respiration were up-regulated, while the gonad exhibited enrichment for DNA replication and translation. The most abundant Wolbachia proteins, as determined by geLC-MS, included ligands for mammalian Toll-like receptors. Enzymes involved in nucleotide synthesis were dominant among metabolism-related proteins, whereas the haem biosynthetic pathway was poorly represented. We conclude that Wolbachia may have a mitochondrion-like function in the soma, generating ATP for its host. Moreover, the abundance of immunogenic proteins in wOo suggests a role in diverting the immune system toward an ineffective antibacterial response.

Gastrin stimulates expression of plasminogen activator inhibitor-1 in gastric epithelial cells

Plasminogen activator inhibitor (PAI)-1 is associated with cancer progression, fibrosis and thrombosis. It is expressed in the stomach but the mechanisms controlling its expression there, and its biological role, are uncertain. We sought to define the role of gastrin in regulating PAI-1 expression and to determine the relevance for gastrin-stimulated cell migration and invasion. In gastric biopsies from subjects with elevated plasma gastrin, the abundances of PAI-1, urokinase plasminogen activator (uPA), and uPA receptor (uPAR) mRNAs measured by quantitative PCR were increased compared with subjects with plasma concentrations in the reference range. In patients with hypergastrinemia due to autoimmune chronic atrophic gastritis, there was increased abundance of PAI-1, uPA, and uPAR mRNAs that was reduced by octreotide or antrectomy. Immunohistochemistry revealed localization of PAI-1 to parietal cells and enterochromaffin-like cells in micronodular neuroendocrine tumors in hypergastrinemic subjects. Transcriptional mechanisms were studied by using a PAI-1-luciferase promoter-reporter construct transfected into AGS-G(R) cells. There was time- and concentration-dependent increase of PAI-1-luciferase expression in response to gastrin that was reversed by inhibitors of the PKC and MAPK pathways. In Boyden chamber assays, recombinant PAI-1 inhibited gastrin-stimulated AGS-G(R) cell migration and invasion, and small interfering RNA treatment increased responses to gastrin. We conclude that elevated plasma gastrin concentrations are associated with increased expression of gastric PAI-1, which may act to restrain gastrin-stimulated cell migration and invasion.

Suppression-subtractive hybridisation reveals variations in gene distribution amongst the Burkholderia cepacia complex, including the presence in some strains of a genomic island containing putative polysaccharide production genes

Some strains of the Burkholderia cepacia complex, including the ET12 lineage, have been implicated in epidemic spread amongst cystic fibrosis (CF) patients. Suppression-subtractive hybridisation was used to identify genomic regions within strain J2315 (ET12 lineage; genomovar IIIA) that were absent from a non-transmissible genomovar IIIB strain. Sequence data from 15 subtracted clones were used to interrogate the genome sequence of strain J2315 and identify genomic regions incorporating the subtracted sequences. Many of the genomic regions displayed abnormally low GC content and similarity to sequences implicated in gene transfer. The distribution of three subtracted regions amongst members of the B. cepacia complex varied. A large cluster of genes with strong sequence similarity to capsular production genes from Burkholderia mallei and other bacterial pathogens was identified. This genomic island was detected in some but not all representatives of genomovar IIIA, two out of four genomovar I strains, and one of two strains of Burkholderia multivorans, but was not detected in Burkholderia stabilis, Burkholderia vietnamiensis, genomovar VI or Burkholderia. ambifaria. The polysaccharide production gene cluster of strain J2315 carries an IS407-like sequence within the gene similar to B. mallei wcbO that is lacking in other ET12 isolates. Genes from this cluster are expressed during exponential growth in broth.

The neuroendocrine phenotype of gastric myofibroblasts and its loss with cancer progression

Stromal cells influence cancer progression. Myofibroblasts are an important stromal cell type, which influence the tumour microenvironment by release of extracellular matrix (ECM) proteins, proteases, cytokines and chemokines. The mechanisms of secretion are poorly understood. Here, we describe the secretion of marker proteins in gastric cancer and control myofibroblasts in response to insulin-like growth factor (IGF) stimulation and, using functional genomic approaches, we identify proteins influencing the secretory response. IGF rapidly increased myofibroblast secretion of an ECM protein, TGFβig-h3. The secretory response was not blocked by inhibition of protein synthesis and was partially mediated by increased intracellular calcium (Ca(2+)). The capacity for evoked secretion was associated with the presence of dense-core secretory vesicles and was lost in cells from patients with advanced gastric cancer. In cells responding to IGF-II, the expression of neuroendocrine marker proteins, including secretogranin-II and proenkephalin, was identified by gene array and LC-MS/MS respectively, and verified experimentally. The expression of proenkephalin was decreased in cancers from patients with advanced disease. Inhibition of secretogranin-II expression decreased the secretory response to IGF, and its over-expression recovered the secretory response consistent with a role in secretory vesicle biogenesis. We conclude that normal and some gastric cancer myofibroblasts have a neuroendocrine-like phenotype characterized by Ca(2+)-dependent regulated secretion, dense-core secretory vesicles and expression of neuroendocrine marker proteins; loss of the phenotype is associated with advanced cancer. A failure to regulate myofibroblast protein secretion may contribute to cancer progression.

From a single whole exome read to notions of clinical screening: primary ciliary dyskinesia and RSPH9 p.Lys268del in the Arabian Peninsula

Primary ciliary dyskinesia (PCD) is a genetic disorder, usually autosomal recessive, causing early respiratory disease and later subfertility. Whole exome sequencing may enable efficient analysis for locus heterogeneous disorders such as PCD. We whole‐exome‐sequenced one consanguineous Saudi Arabian with clinically diagnosed PCD and normal laterality, to attempt ab initio molecular diagnosis.

From a single whole exome read to notions of clinical screening

Primary ciliary dyskinesia (PCD) is a genetic disorder, usually autosomal recessive, causing early respiratory disease and later subfertility. Whole exome sequencing may enable efficient analysis for locus heterogeneous disorders such as PCD. We whole‐exome‐sequenced one consanguineous Saudi Arabian with clinically diagnosed PCD and normal laterality, to attempt ab initio molecular diagnosis.

Identification and expression of a Burkholderia pseudomallei collagenase in Escherichia coli.

Extracellular protein profiles were compared for broth-grown cultures of Burkholderia pseudomallei and its avirulent close relative Burkholderia thailandensis. A number of protein bands were present in the B. pseudomallei profile but absent or less abundant in the B. thailandensis profile. Four such prominent secreted proteins were identified by using N-terminal sequencing coupled to searches of the B. pseudomallei genome sequence database. The genes for two proteins with similarity to carbohydrate-binding proteins, and a further protein homologous to known bacterial collagenases, were present in both B. pseudomallei and B. thailandensis. The putative collagenase gene was cloned and expressed as a fusion protein in Escherichia coli. Cell lysates from Escherichia coli containing the recombinant protein exhibited detectable gelatinase and collagenase activities.

Seasonal and dietary influences on adipose tissue and systemic gene expression in control and previously laminitic ponies

&NA; The aims of the study were to determine whether adipose tissue global gene expression (1) differs between never laminitic (NL) and previously laminitic (PL) ponies, (2) is influenced by season and/or a diet designed to simulate spring grass, and (3) differences seen also occur systemically in peripheral blood mononuclear cells (PBMCs). Subcutaneous adipose tissue and PBMCs were obtained from six NL and six PL ponies on three occasions; summer, winter (season study), and in winter after consuming a diet simulating spring grass for 7 days (diet study). Adipose tissue global gene expression was determined using a 44K equine‐specific microarray, validated using multiplex quantitative real time polymerase chain reaction (qRT‐PCR), and analyzed using GeneSpring software and Ingenuity Pathway Analysis. PBMC gene expression was quantified using qRT‐PCR. The total number of genes whose expression differed (≥2‐fold change, P ≤ .01) between PL and NL ponies was greater in summer (192 genes) compared to winter (58 genes); 40/192 genes influenced by disease in the summer were also seasonally regulated and were predominantly associated with inflammation. The genes modified by dietary intervention and PBMC gene expression did not follow the same pattern as the season study. Thus, adipose tissue global gene expression differed between NL and PL ponies most in summer compared to winter, and these differentially expressed genes predominantly related to inflammation. HighlightsAdipose tissue global gene expression differs between normal and previously laminitic ponies.The differences are greater in summer compared to winter.The differences are not reproduced by feeding a diet mimicking spring grass in winter.Similar changes are not detected in peripheral blood mononuclear cells.