P35-sensitive caspases, MAP kinases and Rho modulate beta-adrenergic induction of apoptosis in mollusc immune cells.
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Apoptosis is an important mechanism for the preservation of a healthy and balanced immune system in vertebrates. Little is known, however, about how apoptotic processes regulate invertebrate immune defenses. In the present study, we show that noradrenaline, a catecholamine produced by the neuroendocrine system and by immune cells in molluscs, is able to induce apoptosis of oyster Crassostrea gigas hemocytes. The apoptosis-inducing effect of noradrenaline was mimicked by isoproterenol and blocked by propranolol, which indicates that noradrenaline triggers apoptosis via a beta-adrenergic signaling pathway. Exposure to the pan-caspase inhibitor Z-VAD-FMK or expression of the caspase inhibitor P35 under the transcriptional control of a mollusc hsp70 gene promoter reduced the number of apoptotic cells among noradrenaline-treated hemocytes. These results suggest that P35-sensitive caspases are involved in the apoptotic process triggered by beta-adrenergic signaling. Complementary experiments suggest that mitogen-activated protein kinases and Rho, a member of the Ras GTPase family, may be involved in antiapoptotic mechanisms that modulate the apoptotic effect of noradrenaline. Taken together, these results provide a first insight into apoptotic processes in mollusc immune cells. (+info)
Developmental control of blood cell migration by the Drosophila VEGF pathway.
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We show that a vascular endothelial growth factor (VEGF) pathway controls embryonic migrations of blood cells (hemocytes) in Drosophila. The VEGF receptor homolog is expressed in hemocytes, and three VEGF homologs are expressed along hemocyte migration routes. A receptor mutation arrests progression of blood cell movement. Mutations in Vegf17E or Vegf27Cb have no effect, but simultaneous inactivation of all three Vegf genes phenocopied the receptor mutant, and ectopic expression of Vegf27Cb redirected migration. Genetic experiments indicate that the VEGF pathway functions independently of pathways governing hemocyte homing on apoptotic cells. The results suggest that the Drosophila VEGF pathway guides developmental migrations of blood cells, and we speculate that the ancestral function of VEGF pathways was to guide blood cell movement. (+info)
Evidence for apoptosis correlated with mortality in the giant black tiger shrimp Penaeus monodon infected with yellow head virus.
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Histological, cytochemical and ultrastructural changes in giant black tiger shrimp Penaeus monodon were investigated at various time intervals after injection with yellow head virus (YHV). Hemocytes, lymphoid organs (LO) and gills were the main focus of the study. After injection with YHV, onset of mortality varied from 36 h onward. By normal hematoxylin and eosin staining, the 3 tissues showed clear and increasing prevalence of nuclear condensation, pyknosis and karyorrhexis from approximately 36 h post-injection (p.i.) until death, although pathology was evident in the LO as early as 12 h p.i. in some shrimp. By nuclear DNA staining with 4',6-diamidino-2-phenylindole (DAPI) and by specific labeling of 3'-OH ends of nuclear DNA using a technique called terminal deoxynucleotidyl transferase-mediated deoxy-UTP nick-end labeling (TUNEL), cells of the 3 tissues showed evidence of chromatin condensation and DNA fragmentation, respectively. Both are generally considered to be characteristic of apoptosis. In addition to TUNEL labeling, evidence for DNA fragmentation was supported by the appearance of approximately 200 base pair DNA ladders at approximately 48 h p.i. in hemocytes of YHV-infected but not uninfected shrimp. Transmission electron microscopy (TEM) of LO tissue revealed features of apoptosis in tissues of YHV-infected shrimp only. These included marginated, condensed and fragmented chromatin without concurrent cytoplasmic damage. Histological, cytochemical, ultrastructural and biochemical data were consistent with the hypothesis that widespread and progressive apoptosis occurred in susceptible shrimp infected with YHV. Although no specific tests were carried out to determine whether this purported apoptosis was the cause of mortality, moribund shrimp had extensive deterioration of vital tissues such as the hemolymph, gills, heart and LO, suggesting that many essential bodily functions had been severely compromised. This probably resulted in the gross signs of lethargy and weakness seen, and it is reasonable to suggest that further, progressive deterioration could have led to the collapse of vital functions followed by death. (+info)
Clearing mechanisms of Vibrio vulnificus biotype I in the black tiger shrimp Penaeus monodon.
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Vibrio species' infections are a common sequelae to environmental stress or other disease processes in shrimp, but the mechanism by which the shrimp eliminate the bacteria is poorly understood. In this study, the penetration, fate and the clearing of V. vulnificus were investigated in Penaeus monodon. A bacterial disease isolate from a shrimp farm was identified as V. vulnificus biotype I. Polyclonal antiserum was raised in rabbits against the bacterium and the specificity was verified by ELISA and immunoblot against a range of Vibrio spp. and other gram-negative bacteria. The bacteria were then administered to P. monodon juveniles by injection, immersion and oral intubation. An indirect immunoperoxidase technique was employed in a time course study to follow the bacteria and bacterial antigens in the tissue of the shrimp. Bacteria were cleared by a common route, regardless of the method of administration. Observations in immersion challenge were similar to a combination of those for oral and injection challenges. With immersion, bacteria entered the shrimp through damaged cuticle or via insertion points of cuticular setae. Shortly after entry, whole bacterial cells were observed in the haemolymph and connective tissue. They were either phagocytosed by haemocytes, or broken down outside host cells. Haemocytes containing bacterial cells or antigens (HCB) were observed in the connective tissue and haemolymph. HCB accumulated around the hepatopancreas, midgut, midgut-caecum, gills, heart and lymphoid organ. Free bacterial antigens also accumulated in the heart and lymphoid organ. Bacteria entering through the mouth by oral intubation or immersion were broken down so that only soluble or very fine particles entered the hepatopancreas. Bacterial antigens passed through the hepatopancreas into the haemolymph. Antigens were initially observed in the haemolymph sinuses and subsequently accumulated in the heart and lymphoid organ. Bacterial antigens were released from the shrimp, initially through the gills and subsequently through hepatopancreatic B-cells, branchial podocytes and sub-cuticular podocytes. (+info)
Pathogenicity of Vibrio tapetis, the etiological agent of brown ring disease in clams.
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Brown ring disease (BRD) causes high mortalities in the introduced Manila clam Ruditapes philippinarum cultured in western Europe. The etiological agent of BRD, Vibrio tapetis, adheres to and disrupts the production of the periostracal lamina, causing the anomalous deposition of periostracum around the inner shell. Because the primary sign of BRD is found outside the soft tissues, the processes leading to death are not as obvious as those for internal pathogens. This study was designed to evaluate the pathogenicity of V. tapetis, in an attempt to help explain the mechanisms of mortality. We found high mortalities (up to 100%) for clams following the inoculation of V. tapetis into the extrapallial space (between mantle and inner shell) or the posterior adductor muscle of healthy R. philippinarum. Microscopy and immunological detection methods showed that the pathogen was rapidly eliminated from tissues and hemolymph of animals that survived the inoculation. In clams that died, the bacteria were found to have proliferated, resulting in severe tissue disruption. Bacteria were able to penetrate into tissues from the extrapallial space through the external epithelium of the mantle. In contrast, no mortalities were observed following injection of V. tapetis in the native European clam Ruditapes decussatus, which is resistant to BRD. This clam rapidly eliminated the bacterium from hemolymph and soft tissues. Clam mortality associated with BRD in the field is likely to result from the penetration of V. tapetis into the clam's extrapallial space through the disrupted periostracal lamina and from there into the soft tissues through the irritated mantle epithelium. Some bacteria also penetrate through the digestive epithelia. In either case, bacteria proliferate rapidly in the soft tissues, causing severe damage and subsequent death. (+info)
Expression and distribution of penaeidin antimicrobial peptides are regulated by haemocyte reactions in microbial challenged shrimp.
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Penaeidins are a family of antimicrobial peptides constitutively produced and stored in the haemocytes of penaeid shrimp. In response to microbial stimulation, they are released into the blood circulation and they further attach to shrimp cuticle surfaces through a chitin-binding property. In the present paper, we have analysed their expression, regulation and distribution in shrimp tissues in response to experimental microbial challenge. We have shown that penaeidin mRNA and protein are restricted to granular haemocytes and that their expression and distribution are regulated through dramatic changes in haemocyte populations, both circulating and infiltrating shrimp tissues. Two distinct phases in the immune reactions were evidenced: (a) a migration of haemocytes towards the infection site within the first 12 h following microbial injection, with a local and massive release of peptides; (b) the appearance into the blood circulation and tissues of a haemocyte population displaying increased penaeidin-transcriptional activity, which may correspond to a systemic reaction involving haemocyte proliferation process. Finally, in vitro confrontation of haemocytes and bacteria revealed that penaeidins are released from granular haemocytes by a novel phenomenon of intracellular degranulation, probably followed by the lysis of the cells. Furthermore, penaeidins were shown covering bacterial surfaces suggesting that the peptides could be involved in opsonic activity. Penaeidin-positive bacteria were observed to be phagocytosed mainly by hyaline cells, a population that does not express penaeidins. (+info)
Halocidin: a new antimicrobial peptide from hemocytes of the solitary tunicate, Halocynthia aurantium.
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From hemocytes of the tunicate Halocynthia aurantium we purified a new antimicrobial peptide named halocidin. The native peptide had a mass of 3443 Da and comprised two different subunits containing 18 amino acid residues (WLNALLHHGLNCAKGVLA) and 15 residues (ALLHHGLNCAKGVLA), which were linked covalently by a single cystine disulfide bond. Two different monomers were separately synthesized and used to make three additional isoforms (15 residue homodimer, 18 residue homodimer, heterodimer). In antimicrobial assays performed with synthetic peptides of halocidin, it was confirmed that congeners of the 18 residue monomer were more active than those of the 15 residue monomer against methicillin-resistant Staphylococcus aureus and multidrug-resistant Pseudomonas aeruginosa. (+info)
Lack of involvement of haemocytes in the establishment and spread of infection in Spodoptera frugiperda larvae infected with the baculovirus Autographa californica M nucleopolyhedrovirus by intrahaemocoelic injection.
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It is thought that insect haemocytes, or blood cells, play an important role in baculovirus pathogenesis by amplifying and helping to spread the infection within the insect. Here, infection is described of the lepidopteran noctuid species Spodoptera frugiperda with the baculovirus Autographa californica M nucleopolyhedrovirus (AcMNPV). Late instar S. frugiperda larvae were infected by intrahaemocoelic injection using a recombinant of AcMNPV expressing the enhanced green fluorescent protein gene to visualize infected cells. Approximately 1000-fold higher doses of injected virus were required to initiate infection in S. frugiperda larvae than in another permissive noctuid species, Trichoplusia ni. Infected S. frugiperda larvae survived twice as long as T. ni larvae and exhibited a slower build-up of virus in the haemolymph. In S. frugiperda, infection of fat body and epithelium was observed prior to significant infection of haemocytes, even though the virus was delivered by intrahaemocoelic injection. Expression of eGFP was first detected 12-18 h post-injection within the fat body and, by 24 h, infection had spread to the tracheal and body wall epithelium. In contrast, only 5% of haemocytes were infected at 24 h and the proportion of infected haemocytes increased slowly to only around 50% at 5 days post-infection, when most larval death occurred. Thus, in S. frugiperda, haemocytes do not appear to have a primary role in AcMNPV pathogenesis. This relative lack of infection of haemocytes may in part explain why S. frugiperda larvae are more resistant to AcMNPV infection than T. ni larvae. (+info)