976 resultados para infective parasitic larvae
Resumo:
Wound healing is a conserved survival response whose function is to restore the integrity of the tissue after physical trauma. Despite numerous studies in the wound healing field, the signals and pathways that orchestrate and control the wound healing program are still not entirely known. To identify additional signals and pathways that regulate epidermal wound repair in Drosophila larvae, we performed a pilot in vivo RNAi screen using a live reporter for epidermal morphology and a wounding assay. From our pilot screen we identified Pvr, the Drosophila homolog of the vertebrate PDGF/VEGF receptors, and six other genes as epidermal wound healing genes. Morphological analysis of wound-edge cells lacking Pvr or the Drosophila Jun N-terminal Kinase (JNK), previously implicated in larval wound closure, suggest that Pvr signaling leads to cell process extension into the wound site while JNK mediates transient dedifferentiation of wound-edge epidermal cells. Furthermore, we found that one of the three known Pvr ligands, Pvf1, is also required for epidermal wound closure. Through tissue-specific knock down and rescue experiments, we propose a model in which epidermally-produced Pvf1 may be sequestered into the hemolymph (blood) and that tissue damage locally exposes blood-borne Pvf1 to Pvr receptors on epidermal cells at the wound edge, thus initiating epidermal cell process extension and migration into the wound gap. Together, our data suggest that the Pvr and JNK signaling pathways act in parallel to control different aspects of wound closure and that PDGF/VEGF ligands and receptors may have a conserved autocrine role in epidermal wound closure. ^
Resumo:
The hypothesis tested was that rapid rejection of Trichinella spiralis infective larvae from immunized rats following a challenge infection is associated with a local anaphylactic reaction, and this response should be reflected in altered small intestinal motility. The objective was to determine if altered gut smooth muscle function accompanies worm rejection based on the assumption that anaphylaxis in vivo could be detected by changes in intestinal smooth muscle contractile activity (ie. an equivalent of the Schultz-Dale reaction or in vitro anaphylaxis). The aims were to (1) characterize motility changes by monitoring intestinal myoelectric activity in conscious rats during the enteric phase of T. spiralis infection in immunized hosts, (2) detect the onset and magnitude of myoelectric changes caused by challenge infection in immunized rats, (3) determine the parasite stimulus causing changes, and (4) determine the specificity of host response to stimulation. Electrical slow wave frequency, spiking activity, normal interdigestive migrating myoelectric complexes and abnormal migrating action potential complexes were measured. Changes in myoelectric parameters induced by larvae inoculated into the duodenum of immune hosts differed from those associated with primary infection with respect to time of onset, magnitude and duration. Myoelectric changes elicited by live larvae could not be reproduced by inoculation of hosts with dead larvae, larval excretory-secretory products, or by challenge with a heterologous parasite, Eimeria nieschulzi. These results indicate that (1) local anaphylaxis is a component of the initial response to T. spiralis in immune hosts, since the rapid onset of altered smooth muscle function parallels in time the expression of rapid rejection of infective larvae, and (2) an active mucosal penetration attempt by the worm is necessary to elicit this host response. These findings provide evidence that worm rejection is a consequence of, or sequel to, an immediate hypersensitivity reaction elicited when parasites attempt to invade the gut mucosa of immunized hosts. ^
Resumo:
Nematodes of the Meloidogyne genus affect to most of crops of an economic importance in Argentina. Researches related to new control strategies are needed to reduce the damage produced by these organisms. The objective of this work was to compare the effects of Galleria mellonella cadavers infected with the Argentine isolates Heterorhabditis bacteriophora Rama Caída and Steinernema rarum NOE, cadaver macerates and dead infective juveniles (IJs) on M. javanica suppression. Experiments were performed using 24-well plates and pepper plants grown in a growth chamber. The entomopathogenic nematodes-infected G. mellonella cadavers, their cadaver macerates and dead IJs were effective in suppressing M. javanica second-stage juveniles under laboratory conditions. The use of H. bacteriophora-infected cadavers caused a significant decrease in the number of galls and egg masses on pepper plants parasitized by M. javanica, in a growth-chamber.
Resumo:
The data show the survival data of Atlantic cod larvae from two different stocks, which were measured in two separate experiments in Kristineberg, Sweden in 2013 on the Western Baltic stock and in Tromsö, Norway in 2014 on the Barents Sea stock. Survival was measured as a response to ocean acidification, control tanks were kept at ambient CO2 concentrations. CO2 concentrations and feeding concentrations are also provided.