Effects of NV gene knock-out recombinant viral hemorrhagic septicemia virus (VHSV) on Mx gene expression in Epithelioma papulosum cyprini (EPC) cells and olive flounder (Paralichthys olivaceus)

To determine whether the NV gene of viral hemorrhagic septicemia virus (VHSV) is related to the type I interferon response of hosts, expression of Mx gene in Epithelioma papulosum cyprini (EPC) cells and in olive flounder (Paralichthys olivaceus) in response to infection with either wild-type VHSV or recombinant VHSVs (rVHSV-ΔNV-EGFP and rVHSV-wild) was investigated. A reporter vector was constructed for measuring Mx gene expression using olive flounder Mx promoter, in which the reporter Metridia luciferase was designed to be excreted to culture medium to facilitate measurement. The highest increase of luciferase activity was detected from supernatant of cells infected with rVHSV-ΔNV-EGFP. In contrast cells infected with wild-type VHSV showed a slight increase of the luciferase activity. Interestingly, cells infected with rVHSV-wild that has artificially changed nucleotides just before and after the NV gene ORF, also showed highly increased luciferase activity, but the increased amplitude was lower than that by rVHSV-ΔNV-EGFP. These results strongly suggest that the NV protein of VHSV plays an important role in suppressing interferon response in host cells, which provides a condition for the viruses to efficiently proliferate in host cells. In an in vivo experiment, the Mx gene expression in olive flounder challenged with the rVHSV-ΔNV-EGFP was clearly higher than fish challenged with rVHSV-wild or wild-type VHSV, suggesting that lacking of the NV gene in the genome of rVHSV-ΔNV-EGFP brought to strong interferon response that subsequently inhibit viral replication in fish.     

Optimization of the bioprocessing conditions for scale‐up of transient production of a heterologous protein in plants using a chemically inducible viral amplicon expression system

Use of transient expression for the rapid, large‐scale production of recombinant proteins in plants requires optimization of existing methods to facilitate scale‐up of the process. We have demonstrated that the techniques used for agroinfiltration and induction greatly impact transient production levels of heterologous protein. A Cucumber mosaic virus inducible viral amplicon (CMViva) expression system was used to transiently produce recombinant alpha‐1‐antitrypsin (rAAT) by co‐infiltrating harvested Nicotiana benthamiana leaves with two Agrobacterium tumefaciens strains, one containing the CMViva expression cassette carrying the AAT gene and the other containing a binary vector carrying the gene silencing suppressor p19. Harvested leaves were both infiltrated and induced by either pressure or vacuum infiltration. Using the vacuum technique for both processes, maximum levels of functional and total rAAT were elevated by (190 ± 8.7)% and (290 ± 7.5)%, respectively, over levels achieved when using the pressure technique for both processes. The bioprocessing conditions for vacuum infiltration and induction were optimized and resulted in maximum rAAT production when using an A. tumefaciens concentration at OD₆₀₀ of 0.5 and a 0.25‐min vacuum infiltration, and multiple 1‐min vacuum inductions further increased production 25% and resulted in maximum levels of functional and total rAAT at (2.6 ± 0.09)% and (4.1 ± 0.29)% of the total soluble protein, respectively, or (90 ± 1.7) and (140 ± 10) mg per kg fresh weight leaf tissue at 6 days post‐induction. Use of harvested plant tissue with vacuum infiltration and induction demonstrates a bioprocessing route that is fully amenable to scale‐up. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Identification of an amino acid residue required for differential recognition of a viral movement protein by the Tomato mosaic virus resistance gene Tm-2(2)

The Tm-2 gene of tomato and its allelic gene, Tm-2², confer resistance to Tomato mosaic virus (ToMV) and encode a member of the coiled-coil/nucleotide binding-ARC/leucine-rich repeat (LRR) protein class of plant resistance (R) genes. Despite exhibiting only four amino acid differences between the products of Tm-2 and Tm-2², Tm-2² confers resistance to ToMV mutant B7, whereas Tm-2 is broken by ToMV-B7. An Agrobacterium-mediated transient expression system was used to study the mechanism of differential recognition of the movement proteins (MPs), an avirulence factor for ToMV resistance, of ToMV-B7 by Tm-2 and Tm-2². Although resistance induced by Tm-2 and Tm-2² is not usually accompanied by hypersensitive response (HR), Tm-2 and Tm-2² induced HR-like cell death by co-expression with MP of a wild-type ToMV, a strain that causes resistance for these R genes, and Tm-2² but not Tm-2 induced cell death with B7-MP in this system. Site-directed amino acid mutagenesis revealed that Tyr-767 in the LRR of Tm-2² is required for the specific recognition of the B7-MP. These results suggest that the Tyr residue in LRR contributes to the recognition of B7-MP, and that Tm-2 and Tm-2² are involved in HR cell death.     

Typing of Listeria monocytogenes strains isolated in Italy by inlA gene characterization and evaluation of a new cost‐effective approach to antisera selection for serotyping

Aims: In this study, 105 Listeria monocytogenes strains isolated from humans, foods and environmental samples were characterized using several typing methods. Moreover, serotyping procedure was evaluated, and a cost‐effective methodological approach based on preliminary PCRs screening was proposed. Methods and Results: The isolates were analysed by conventional serotyping, multiplex‐PCRs for serogroup and lineage identification and PCR–RFLP of inlA gene to identify potentially noninvasive L. monocytogenes. Among the strains, only the serotypes 1/2a, 1/2c, 1/2b, 4b and 3a were identified. The isolates were classified into serogroups I (58·10%), II (22·85%), III (12·38%) and IV (6·67%). Among clinical strains, lineage I was more represented (68·75%) than lineage II; whereas, lineage II was more associated with food (90·24%) and environmental (85·72%) isolates. Most of food (89·02%) and environmental (85·71%) isolates were classified into truncated InlA profiles, whereas the 93·75% of clinical strains were associated with a complete form of the protein. Conclusion: Molecular techniques were sensitive and specific for classifying strains into serogroup and lineage and in agreement with the serotyping. Moreover, a preliminary PCRs‐based screening was proposed to select only the necessary antisera by a flow chart; this methodological approach allows cost saving up to 42%. Our results further suggest the role of InlA protein in human listeriosis, particularly in immunocompetent individuals, and a correlation between truncated protein and serotype. Significance and Impact of the Study: This study further validates molecular methods for L. monocytogenes analysis and proposed a new cost‐effective approach for serotyping. It could help to improve a national surveillance network for L. monocytogenes infections in Italy.     

An apparent progressive and recurrent evolutionary restriction in tissue expression of a gene,the lactate dehydrogenase-C gene,within a family of bony fish (Salmoniformes: Umbridae)

Summary Unexpectedly large differences in the tissue patterns of lactate dehydrogenase-C (Ldh-C) gene regulation were observed among species of fish within the family Umbridae (Salmoniformes). Normally, all the species within a family or order of advanced fishes exhibit the same, tissue-restricted pattern ofl-latate dehydrogenase C₄ isozyme synthesis—either eye- or liver-restricted expression, but not both. However, within the Umbridae the more anciently derived species had a more generalized (primitive) tissue expression, whereas the more recently derived species had a more tissue-restricted expression, predominating in the eye. Given the relative divergence times among the species estimated by genetic distance (using 51 protein-coding loci), divergence from the presumed primitive expression of the Ldh-C gene appears to have been proceeding more rapidly in some species lineages than others. This narrowing of Ldh-C gene tissue regulatory specificity within the family Umbridae is similar to the general trend observed over much greater evolutionary times within the class of bony fishes. The results support the hypothesis of repeated evolutionary canalizations of Ldh-C gene regulation from the generalized tissue expression in more primitive species to a predictable tissue-restricted expression (in either eye or liver) in advanced species. Furthermore, in the Umbridae, this progressive restriction of tissue expression of isozymes has taken place during the evolution of both the Ldh-C and Ldh-B genes. These evolutionary trends in the regulation of isozyme-locus tissue expression in the bony fishes are consistent with either an intrinsically conditioned trend of change in gene regulation or with a response to natural selection.     

Single‐nucleotide polymorphism (A118G) in exon 1 of OPRM1 gene causes alteration in downstream signaling by mu‐opioid receptor and may contribute to the genetic risk for addiction

The opioid receptor mu1 (OPRM1) mediates the action of morphine. Although genetic background plays an important role in the susceptibility toward abuse of drugs as evident from familial, adoption and twin studies, association of specific single‐nucleotide polymorphisms of OPRM1 gene with narcotic addiction is to be established. Here, we demonstrate the involvement of A118G polymorphism of exon1 of human OPRM1 gene (hOPRM1), with heroin and alcohol addiction, in a population in eastern India. Statistical analysis exhibited a significant association of G allele with both heroin and alcohol addiction with a risk factor of P_trend < 0.05. The functional significance of G allele in A118G single‐nucleotide polymorphisms was evaluated by studying the regulation of protein kinase A (PKA), pCREB, and pERK1/2 by morphine in Neuro 2A cells, stably transfected with either wild type or A118G mutant hOPRM1. Unlike acute morphine treatment, both chronic morphine exposure and withdrawal precipitated by naloxone were differentially regulated by A118 and G118 receptor isoforms when both PKA and pERK1/2 activities were compared. Results suggest that the association of A118G polymorphism to heroin and alcohol addiction may be because of the altered regulation of PKA and pERK1/2 during opioid and alcohol exposures.     

Morphological analysis of circulating tumour cells in patients undergoing surgery for non‐small cell lung carcinoma using the isolation by size of epithelial tumour cell (ISET) method

V. Hofman, E. Long, M. Ilie, C. Bonnetaud, J. M. Vignaud, J. F. Fléjou, S. Lantuejoul, E. Piaton, N. Mourad, C. Butori, E. Selva, C. H. Marquette, M. Poudenx, S. Sibon, S. Kelhef, N. Vénissac, J. P. Jais, J. Mouroux, T. J. Molina, P. Vielh and P. Hofman
Morphological analysis of circulating tumour cells in patients undergoing surgery for non‐small cell lung carcinoma using the isolation by size of epithelial tumour cell (ISET) method Background and objective: Recurrence rates after surgery for non‐small cell lung cancer (NSCLC) range from 25 to 50% and 5‐year survival is only 60–70%. Because no biomarkers are predictive of recurrence or the onset of metastasis, pathological TNM (pTNM) staging is currently the best prognostic factor. Consequently, the preoperative detection of circulating tumour cells (CTCs) might be useful in tailoring therapy. The aim of this study was to characterize morphologically any circulating non‐haematological cells (CNHCs) in patients undergoing surgery for NSCLC using the isolation by size of epithelial tumour cell (ISET) method. Methods: Of 299 blood samples tested, 250 were from patients with resectable NSCLC and 59 from healthy controls. The presence of CNHCs was assessed blindly and independently by 10 cytopathologists on May‐Grünwald–Giemsa stained filters and the cells classified into three groups: (i) malignant cells, (ii) uncertain malignant cells, and (iii) benign cells. We assessed interobserver agreement using Kappa (κ) analysis as the measure of agreement. Results: A total of 123 out of 250 (49%) patients showed CNHCs corresponding to malignant, uncertain malignant and benign cells, in 102/250 (41%), 15/250 (6%) and 6/250 (2%) cases, respectively. No CNHCs were detected in the blood of healthy subjects. Interobserver diagnostic variability was absent for CNHCs, low for malignant cells and limited for uncertain malignant and benign cells. Conclusion: Identification of CTCs in resectable NSCLC patients, using ISET technology and according to cytopathological criteria of malignancy, appears to be a new and promising field of cytopathology with potential relevance to lung oncology.