J M Cutrín

Restriction Fragment Length Polymorphisms and Sequence Analysis: an Approach for Genotyping Infectious Pancreatic Necrosis Virus Reference Strains and Other Aquabirnaviruses Isolated from Northwestern Spain

ABSTRACT Reference strains of infectious pancreatic necrosis virus resembling the 10 recognized serotypes and local isolates of aquabirnaviruses isolated in northwestern Spain from reservoirs (mollusks) and from asymptomatic and carrier cultured fish were genotyped by restriction fragment length polymorphism (RFLP) and nucleic acid sequence analyses. The RFLP analysis yielded seven genogroups, each of which was clearly correlated with a serotype. Sequence analysis of the three open reading frames provided quite similar results in terms of genogrouping. Based on the results of this study and in order to unify the two types of assays, we propose placing aquabirnaviruses into six genogroups, four of which can be subdivided into two genotypes based on a two-step restriction analysis. The genotyping corresponds with serotyping as follows: genogroup I includes two genotypes corresponding to serotypes A9 (genotype I.1) and A1 (genotype I.2); genogroup II corresponds to serotype A3; genogroup III includes genotypes III.1 (serotype A2) and III.2 (serotype B1); genogroups IV and V include two genotypes, each corresponding to serotypes A5, A6, A7, and A8 (genotypes IV.1, IV.2, V.1, and V.2, respectively);and genogroup VI corresponds to serotype A4. As expected, most local isolates belonged to genotype III.1 and genogroup II. However, a few local isolates corresponded to the American types of genogroup I. Finally, based on the results of this study and due to its simplicity, the two-step restriction analysis assay is proposed as a method for typing new isolates of aquabirnaviruses, and the results correspond to the results of conventional serotyping.

Diversity of infectious pancreatic necrosis virus strains isolated from fish, shellfish, and other reservoirs in Northwestern Spain

ABSTRACT A comparison was done of 231 strains of birnavirus isolated from fish, shellfish, and other reservoirs in a survey study that began in 1986 in Galicia (northwestern Spain). Reference strains from all of the infectious pancreatic necrosis virus serotypes were included in the comparison, which was done by neutralization tests and agarose and polyacrylamide gel electrophoresis of the viral genome. The neutralization tests with antisera against the West Buxton, Spajarup (Sp), and Abild (Ab) strains showed that most of the Galician isolates were European types Sp and Ab; however, many isolates (30%) could not be typed. Results from agarose gels did not provided information for grouping of the strains, since all were found to have genomic segments of similar sizes. Analysis of polyacrylamide gels, however, allowed six electropherogroups (EGs) to be differentiated on the basis of genome mobility and separation among segments, and a certain relationship between EGs and serotypes was observed. A wide diversity of electropherotypes was observed among the Galician isolates, and as neutralization tests showed, most of the isolates were included in EGs corresponding to European types Ab and Sp. Only 6.5% of the isolates had the electropherotype characteristic of American strains.

Presence of viruses in wild eels Anguilla anguilla L, from the Albufera Lake (Spain)

A virological analysis was conducted on wild eels from the Albufera Lake (Spain). A total of 179 individuals at different growth stages were collected in two different surveys (2004 and 2008). Presence of anguillid herpesvirus (AngHV-1), aquabirnavirus and betanodavirus was confirmed by PCR procedures in both surveys, although the number of detections was clearly higher in 2008 (83% of the eels analysed resulted positive for virus presence). AngHV-1 was the viral agent most frequently detected, followed by aquabirnaviruses. Betanodaviruses were detected by the first time in wild eels, and although the detections were only made by nested PCR, high percentage of positives were achieved. In addition, in 2008, seven aquabirnaviruses were isolated. Phylogenetic analysis performed using partial sequences of both genomic segments of aquabirnaviruses indicated that the seven isolates could be typed as WB (genogroup I) on the basis of segment A sequences, but when segment B was used six of them clustered with C1 strain (genogroup V) and one was typed as Ab (genogroup II). These results indicate natural reassortment between different strains of aquabirnaviruses in the eels. Although betanodaviruses were not isolated in cell culture, the analysis of the sequence of the nested PCR product indicated that they clustered with SJNNV genotype. The diversity of viral agents and the high level of viral detections suggest that viral infections may play a more prominent role in the decline of the European eel than initially thought.

Validation of real time RT-PCR applied to cell culture for diagnosis of any known genotype of viral haemorrhagic septicaemia virus

Viral haemorrhagic septicaemia virus (VHSV), a member of the Rhabdoviridae family, is a major viral pathogen of cultured salmonid fish, and also infects a wide range of marine fish species. In the present study, two real time PCR protocols (based on SYBR Green and TaqMan) were developed for the detection of strains belonging to all known genotypes of VHSV. Validation of the procedure, in terms of sensitivity, specificity and repeatability/reproducibility (R&R), was also performed. For this purpose, several pairs of primer amplifying regions corresponding to viral G and N genes were assayed. In the SYBR Green-based real time PCR, these primers failed to detect strains from some of the genotypes and/or showed low R&R. In order to improve the detection capacity, a multiplex procedure was designed, which enabled detection of all strains, with high R&R. The sensitivity of the procedure was measured, and a detection limit of 1 fg/microl of viral RNA or 10 copies of cloned plasmid was established. On the other hand, the TaqMan probe-based multiplex real time PCR detected all European strains, with similar levels of sensitivity and R&R, but failed to detect the American types.

Surveillance of Viruses in Wild Fish Populations in Areas around the Gulf of Cadiz (South Atlantic Iberian Peninsula)

ABSTRACT This report describes a viral epidemiological study of wild fish around the Gulf of Cadiz (southwestern Iberian Peninsula) and is focused on infectious pancreatic necrosis virus (IPNV), viral hemorrhagic septicemia virus (VHSV), and viral nervous necrosis virus (VNNV). One fish species (Chelon labrosus) was sampled inside the gulf, at the mouth of the San Pedro River. Another 29 were sampled, in three oceanographic campaigns, at sites around the Bay of Cadiz. The fish were processed individually and subjected to isolation in cell culture and molecular diagnosis. VHSV was not isolated from any species. Thirteen IPNV-type isolates were obtained from barracuda (Sphyraena sphyraena), axillary seabream (Pagellus acarne), common two-banded seabream (Diplodus vulgaris), common pandora (P. erythrinus), Senegal seabream (D. bellottii), and surmullet (Mullus surmuletus). Six VNNV isolates were obtained from axillary seabream, common pandora, black seabream (Spondyliosoma cantharus), red mullet (Mullet barbatus), Lusitanian toadfish (Halobatrachus didactylus), and tub gurnard (Chelidonichtys lucerna). In the river mouth, viruses were detected only after reamplification, obtaining prevalence percentages of IPNV and VNNV (44.4 and 63.0%, respectively) much higher than those observed in the oceanographic campaigns (25.7 and 19.6%, respectively). The opposite results were obtained in the case of VHSV after reamplification: 11.1% in the river mouth and 43.6% in the oceanic locations. Analyzing the results with respect to the proximity of the sampling sites to the coast, an anthropogenic influence on wild fish is suggested and discussed. The type of viruses and the presence of natural reassortants are also discussed.

A novel procedure of quantitation of virus based on microflow cytometry analysis

The accurate and fast titration of viruses is a critical step in research laboratories and biotechnology industries. Different approaches are commonly applied which either are time consuming (like the plaque and endpoint dilution assays) or do not ensure quantification of only infective particles (like quantitative real-time PCR). In the last decade, a methodology based on the analysis of infected cells by flow cytometry and fluorescence-activated cell sorting (FACS) has been reported as a fast and reliable test for the titration of some viruses. However, this technology needs expensive equipment and expert technicians to operate it. Recently, the “lab on a chip” integrated devices have brought about the miniaturization of this equipment, turning this technology into an affordable and easy-to-use alternative to traditional flow cytometry. In the present study, we have designed a microflow cytometry (μFC) procedure for the quantitation of viruses, using the infectious pancreatic necrosis virus (IPNV) as a model. The optimization of conditions and validation of the method are reported here.

Electrotransformation of Yersinia ruckeri

Electroporation may be used for transferring macromolecules (proteins and nucleic acids) into eukariotic and prokariotic cells. Presumably the high voltage induces the formation of transient pores at lipidic-protein junctions, allowing introduction of exogenous macromolecules into the cells. In the genus Yersinia transformation by electroporation technique was applied to species like Y. enterocolitica, Y. pestis, Y. pseudotuberculosis (Conchas and Carniel, 1990) and Y. ruckeri (Cutrin et al., 1994) One consideration must be take into account when electroporation is attempted: all the buffers must be low ionic strengh solutions because the conductivity of the sample can result in arcing in the sample chamber. Usually this conflict is avoided when bacteria is highly concentrated on the lowest ionic buffers so that they can survive (Trevors J T, 1991). The protocol presented here, and the buffers used, are optimized for Y. ruckeri strains.

Electrotransformation of Photobacterium damselae subsp piscicida

Photobacterium damselae subsp. piscicida (formerly Pasteurella piscicida) is a marine pathogenic bacterium associated with severe epizootics in cultivated and wild fish. Attempts to transform it using standard electroporation protocols (Dover et al., 1988; Cutrin et al., 1994) were not successful. In these protocols, electroporation efficiency (number of transformants per μg DNA) is normally the parameter to optimize, using high bacterial levels and low nucleic acid concentrations. With this bacterium, efficiency was limited by field strength, so when low field strengths and short pulse lengths were used, transformation efficiencies were below the detection limit, while high field strengths and long pulse lengths resulted in arcing. This problem is common in other marine or estuarine bacteria such as Caulobacter sp (Gilchrist and Smit, 1991), Vibrio spp (Smigielski et al., 1990), Vibrio vulnificus (McDougald et al., 1994) and Vibrio anguillarum (Cutrin et al., 1995). When cells were grown in standard saltwater medium and prepared for electroporation with any transformation buffer of low ionic strength, excessive cell lysis occurred. On the other hand, when the cell preparation protocol was isotonic for the bacteria, electroporation was not successful because of arcing.