Campylobacter fetus releases S-layered and immunoreactive outer membrane vesicles.

The study of outer membrane vesicles (OMVs) became relevant because of their probable important role in the transfer of virulence factors to host cells. Campylobacter fetus is mainly a mammal pathogen whose virulence characterization is still limited. The aim of this study was to evaluate and to characterize the secretion of OMVs in this bacterium. By transmission electron microscopy, we confirmed the production of OMVs in all the strains assayed. Purified OMVs showed a spherical shape and variable size, although comparable to those of other gram-negative bacteria. We also confirmed the presence of the S-layer on the surface of the OMVs of all the strains assayed with the exception of those derived from the NTCC reference strain. In addition, we demonstrated their immunoreactivity by the dot-blot assay. Hence, C. fetus OMVs could contribute to the modulation of the host response and constitute a candidate to be evaluated as an adjuvant of current vaccines used in the veterinary field. This work represents a platform to drive future studies towards the role of these subcellular structures in C. fetus-host interaction.

Bicaudal C is required for the function of the follicular epithelium during oogenesis in Rhodnius prolixus.

The morphology and physiology of the oogenesis have been well studied in the vector of Chagas disease Rhodnius prolixus. However, the molecular interactions that regulate the process of egg formation, key for the reproductive cycle of the vector, is still largely unknown. In order to understand the molecular and cellular basis of the oogenesis, we examined the function of the gene Bicaudal C (BicC) during oogenesis and early development of R. prolixus. We show that R. prolixus BicC (Rp-BicC) gene is expressed in the germarium, with cytoplasmic distribution, as well as in the follicular epithelium of the developing oocytes. RNAi silencing of Rp-BicC resulted in sterile females that lay few, small, non-viable eggs. The ovaries are reduced in size and show a disarray of the follicular epithelium. This indicates that Rp-BicC has a central role in the regulation of oogenesis. Although the follicular cells are able to form the chorion, the uptake of vitelline by the oocytes is compromised. We show evidence that the polarity of the follicular epithelium and the endocytic pathway, which are crucial for the proper yolk deposition, are affected. This study provides insights into the molecular mechanisms underlying oocyte development and show that Rp-BicC is important for de developmental of the egg and, therefore, a key player in the reproduction of this insect.

Biological and molecular characterization of Rachiplusia nu single nucleopolyhedrovirus, a promising biocontrol agent against the South American soybean pest Rachiplusia nu.

Rachiplusia nu (Lepidoptera: Noctuidae) is a key soybean pest in Argentina. Current management of this moth relies mainly on the use of synthetic insecticides and transgenic plants. In search of biological control-based alternatives, a baculovirus from R. nu (hereafter RanuNPV) was characterized and its insecticidal properties tested under laboratory conditions. RanuNPV occlusion bodies (OBs) were nearly tetrahedral, averaging 1.0 ±â€¯0.2 µm in their longest edge and containing singly enveloped nucleocapsids. Histopathology of infected late-instar larvae revealed broad tissue tropism, where fat bodies and epidermis were the most affected organs. Phylogenetic analysis of concatenated polh, lef-8 and lef-9 partial sequences classified RanuNPV as a new species that clusters with other group II alphabaculoviruses infecting larvae of Plusiinae. Bioassays performed with R. nu neonates determined the median lethal dosage to be approximately 2.5 OBs/larva; most insects died within 4-5 days post inoculation showing typical baculovirus-induced liquefaction. No effects were observed in other lepidopteran species assayed, including Spodoptera frugiperda, Cydia pomonella and Diatraea saccharalis. High pathogenicity and host specificity make RanuNPV a good candidate for controlling R. nu.

Comparative Pathogenesis of Generalist AcMNPV and Specific RanuNPV in Larvae of Rachiplusia nu (Lepidoptera: Noctuidae) Following Single and Mixed Inoculations.

The South American soybean pest, Rachiplusia nu (Guenée), is naturally infected by Autographa californica multiple nucleopolyhedrovirus (AcMNPV) and Rachiplusia nu nucleopolyhedrovirus (RanuNPV). We compared their pathogenicity to fourth-instar R. nu larvae, by evaluating time to death and virus spread throughout the tissues in single and mixed infections. Bioassays showed that generalist AcMNPV had a faster speed of kill than specific RanuNPV, while the mixed-virus treatment did not statistically differ from AcMNPV alone. Histopathology evidenced similar tissue tropism for both viruses, but co-inoculation resulted in mostly AcMNPV-infected cells. In sequential inoculations, however, the first virus administered predominated over the second one. Implications on baculovirus interactions and biocontrol potential are discussed.

Campylobacter fetus releases S-layered and immunoreactive outer membrane vesicles

Abstract The study of outer membrane vesicles (OMVs) became relevant because of theirprobable important role in the transfer of virulence factors to host cells. Campylobacter fetusis mainly a mammal pathogen whose virulence characterization is still limited. The aim of thisstudy was to evaluate and to characterize the secretion of OMVs in this bacterium. By trans-mission electron microscopy, we confirmed the production of OMVs in all the strains assayed.Purified OMVs showed a spherical shape and variable size, although comparable to those ofother gram-negative bacteria. We also confirmed the presence of the S-layer on the surface ofthe OMVs of all the strains assayed with the exception of those derived from the NTCC referencestrain. In addition, we demonstrated their immunoreactivity by the dot-blot assay. Hence, C.fetus OMVs could contribute to the modulation of the host response and constitute a candidateto be evaluated as an adjuvant of current vaccines used in the veterinary field. This work rep-resents a platform to drive future studies towards the role of these subcellular structures in C.fetus-host interaction.

Resumen El estudio de las vesículas de membrana externa (VME) tomó un rol protagónico, yaque se las ha relacionado con la transferencia de factores de virulencia a la célula hospedadora.Campylobacter fetus es, principalmente, un patógeno de mamíferos cuya virulencia solo hasido caracterizada de forma limitada. El objetivo de este trabajo fue evaluar y caracterizar la secreción de VME en esta bacteria. Mediante microscopía electrónica de transmisión confir-mamos la producción espontánea de VME en todas las cepas estudiadas. Las VME purificadasmostraron una morfología esférica y un tama˜no variable, pero compatible con el reporte deotras bacterias gram negativas. Asimismo, hemos demostrado que estas vesículas conservanla capa S en todas las cepas, menos en la cepa de referencia NCTC y hemos confirmado suinmunorreactividad por dot-blot inmunoblot. Estas VME de C. fetus podrían contribuir a la mod-ulación de la respuesta del hospedador y constituir un buen candidato como adyuvante de lasactuales vacunas empleadas en el campo veterinario. Este trabajo representa una plataformapara impulsar estudios futuros en torno al rol de estas estructuras subcelulares en la interfaseC. fetus-hospedador.