Functional differential immune responses of Mytilus galloprovincialis to bacterial challenge

Bivalves are filter-feeders that can accumulate large numbers of bacteria, in particular Vibrio species; these can persist within bivalve tissues largely depending on their sensitivity to the hemolymph bactericidal activity. In this work, functional parameters of the hemolymph of Mytilus galloprovincialis were evaluated in response to in vivo challenge with different bacteria (Gram(−) Vibrio anguillarum and V. splendidus, Gram(+) Micrococcus lysodeikticus). Mussels were injected with heat-killed bacteria or PBS-NaCl (controls) and hemolymph sampled from 3 to 48 h post-injection (p.i.). In hemocytes, all bacteria induced significant lysosomal membrane destabilisation (LMS) from 3 h p.i. with V. splendidus > V. anguillarum > M. lysodeikticus. LMS showed recovery for both M. lysodeikticus and V. anguillarum, whereas a further time-dependent decrease was observed for V. splendidus. Bacterial challenge also induced a rapid (from 3 h p.i.) and significant increase in serum lysozyme activity; the effect was persistent with M. lysodeikticus and transient for the two Vibrio species. In order to evaluate whether in vivo challenge may affect the subsequent capacity of hemolymph to kill bacteria, the bactericidal activity was tested in an in vitro assay towards E. coli. At 48 h. p.i. hemolymph samples from V. anguillarum-injected mussels showed a significant increase in E. coli killing (+ 35% with respect to controls); a smaller effect was observed with V. splendidus-injected mussels (+ 16%), whereas M. lysodeikticus was ineffective. Moreover, hemolymph from V. anguillarum-injected mussels showed an in vitro bactericidal activity towards V. anguillarum 2-folds higher than that of controls. Changes in total hemocyte counts (THC) and in hemocyte populations were evaluated by Flow cytometry at 6 and 48 h p.i., indicating a decrease in THC followed by recovery with all bacteria. Moreover, at 6 h p.i. a general decrease in the percentage of granulocytes was observed (V. splendidus > V. anguillarum > M. lysodeikticus), followed by complete and partial recovery with M. lysodeikticus and V. anguillarum, respectively, but not with V. splendidus. The results demonstrate the existence of differential functional immune responses in M. galloprovincialis to different bacteria.     

Field and laboratory investigations of the thermal influence on tissue-specific Hsp70 levels in common carp (Cyprinus carpio)

Thermal discharge from power stations can affect normal environmental conditions and change in heat shock proteins expression of native fish with increasing temperature. In this study, we investigated levels of Hsp70 in the heart, kidney, brain and gill of the common carp Cyprinus carpio both in long-term heat discharge environment and after 24 h acute heat shock exposure. In laboratory exposure experiments, fish acclimated at 10 °C were exposed to various elevated temperatures (20, 24 and 28 °C). Hsp70 concentrations were determined in tissues by Western blotting analysis after one dimensional SDS-PAGE separation. In the field study, the level of Hsp70 in the gill of the carp remained at control values, and Hsp70 expression in the heart, kidney and brain underwent a 2.8 to 3.7-fold increase. A lower thermal sensitivity of the Hsp70 response of the brain, compared with the heart, kidney and gill, was observed in the laboratory experiments. Our data show that these tissues had different levels of Hsp70 responses to thermal influence both in acute exposure and long-term acclimation. The pattern of tissue Hsp70 expression may have a close relationship with the thermal tolerance of the carp and allows the fish to survive long-term thermal pollution.     

Atlantic salmon bath challenged with Moritella viscosa – Pathogen invasion and host response

The Gram-negative bacterium Moritella viscosa is considered to be the main causative agent of winter ulcer, a disease that primarily affects salmonid fish in sea water during cold periods. The disease is initially characterised by localised swelling of the skin followed by development of lesions. To gain more knowledge of the role of M. viscosa in the pathogenesis of winter ulcer, 159 Atlantic salmon (80–110 g) were exposed to a bath challenge dose of 7 × 10⁵ cfu ml^-1 for 1 h at 8.9 °C. The first mortalities were registered two days post-challenge and the mortality rate increased rapidly. Multi-organ samples were taken throughout the challenge for culture, immunohistochemistry and PCR analysis.Using real-time PCR, M. viscosa DNA was first detected in the gills of all fish examined 2, 6 and 12 h after challenge. From day 2, the bacterium was detected in the muscle/skin, head kidney, spleen and liver. This was in correlation with positive cultured samples and confirmed systemic infection. The early and consistent detection of M. viscosa DNA in gill samples, and less or not in muscle/skin or intestine, could suggest gills as a port of entry for the bacterium. Immunohistochemical analysis using a polyclonal antiserum against M. viscosa demonstrated generalised staining in the lumen of blood vessels and some positive mononuclear cells. The antigens recognised by the antiserum may have originated from extracellular bacterial products and be part of a bacterial invasion strategy. To better understand the immune response in salmon to M. viscosa infection, the expression profiles of the immune genes IL1β, C3, ISG15 and CD83 were studied. Increased expression of IL1β and C3 was not induced until day 7, which may suggest that M. viscosa might utilize escape mechanisms to evade the host's immune system by suppressing relevant immune responses.     

Components of the cellular defense and detoxification system of the common cuttlefish Sepia officinalis (Mollusca, Cephalopoda)

Endocytotic-active cells in the branchial heart complex of Sepia officinalis were studied by in situ injection of different types of xenobiotics and by in vitro perfusion of the organ complex with a bacterial suspension. The rhogocytes (ovoid cells) ingest particles of all tested sizes by endocytosis and phagocytosis. The hemocytes of the circulating blood and the adhesive hemocytes in the wall of the branchial heart incorporate all tested kinds of foreign materials, including bacterial cells due to phagocytosis achieved by the triangular mesenchymatic cells. The ultrastructural findings also give strong evidence that the triangular mesenchymatic cells are fixed hemocytes that have migrated into the branchial heart tissue. The ingestion and digestion of allogeneic substances and bacteria or their debris by rhogocytes and/or all (forms of) hemocytes suggests the involvement of these either fixed or mobile endocytotic-active cells in the defense and detoxification system of cephalopods.     

Molecular characterization of the sarcoplasmic calcium-binding protein (SCP) from crayfish Procambarus clarkii

Sarcoplasmic Calcium-binding Protein (SCP) is believed to function as the invertebrate equivalent of vertebrate parvalbumin, namely to “buffer” cytosolic Ca²⁺. We have cloned and characterized a novel SCP from axial abdominal muscle of crayfish Procambarus clarkii (referred to as pcSCP1), and have examined tissue specific distribution and expression as a function of molting stage in non-epithelial and epithelial tissues. The complete sequence of pcSCP1 consists of 1052 bp with a 579 bp open reading frame, coding for 193 amino acid residues (molecular mass of 21.8 kDa). There is a 387 bp 3′ terminal non-coding region with a poly (A) tail. The deduced pcSCP1 protein sequence matched most closely with published SCP sequences from another crayfish Astacus leptodactylus (92.8%) and from shrimp (78.6–81.2%) and fruit fly (53%). Real-time PCR analysis confirmed that pcSCP1 is ubiquitously expressed in all tissues tested (gill, hepatopancreas, intestine, antennal gland, muscle); however it is most abundant in muscle particularly in the axial abdominal muscle. The real-time PCR analysis revealed that pcSCP1 expression is downregulated in pre- and postmolt stages compared with intermolt. Epithelial (hepatopancreas and antennal gland) SCP expression exhibited a more dramatic decrease than that observed in muscle. Expression trends for pcSCP1 paralleled published trends for sarco/endoplasmic reticular calcium ATPase (SERCA), suggesting that their cellular function in regulating intracellular Ca²⁺ is linked.     

Differential responses in gills of euryhaline tilapia, Oreochromis mossambicus, to various hyperosmotic shocks

Euryhaline tilapia (Oreochromis mossambicus) survived in brackish water (BW; 20‰) but died in seawater (SW; 35‰) within 6 h when transferred directly from fresh water (FW). The purpose of this study was to clarify responses in gills of FW tilapia to various hyperosmotic shocks induced by BW or SW. In FW-acclimated tilapia, scanning electron micrographs of gills revealed three subtypes of MR cell apical surfaces: wavy-convex (subtype I), shallow-basin (subtype II), and deep-hole (subtype III). Density of apical surfaces of mitochondrion-rich (MR) cell in gills of the BW-transfer tilapia decreased significantly within 3 h post-transfer due to disappearance of subtype I cells, but increased from 48 h post-transfer because of increasing density of subtype III cells. SW-transfer individuals, however, showed decreased density of MR cell openings after 1 h post-transfer because subtype I MR cell disappeared. On the other hand, relative branchial Na⁺/K⁺-ATPase (NKA) α1-subunit mRNA levels, protein abundance, and NKA activity of the BW-transfer group increased significantly at 6, 12, and 12 h post-transfer, respectively. In the SW-transfer group, relative mRNA and protein abundance of gill NKA α1-subunit did not change while NKA activity declined before dying in 5 h. Upon SW transfer, dramatic increases (nearly 2-fold) of plasma osmolality, [Na⁺], and [Cl⁻] were found prior to death. For the BW-transfer group, plasma osmolality was eventually controlled by 96 h post-transfer by enhancement of NKA expression and subtype III MR cell. The success or failure of NKA activation from gene to functional protein as well as the development of specific SW subtype in gills were crucial for the survival of euryhaline tilapia to various hyperosmotic shocks.     

Simultaneous exposure of Xenopus A6 kidney epithelial cells to concurrent mild sodium arsenite and heat stress results in enhanced hsp30 and hsp70 gene expression and the acquisition of thermotolerance

In this study, we examined the effect of concurrent low concentrations of sodium arsenite and mild heat shock temperatures on hsp30 and hsp70 gene expression in Xenopus A6 kidney epithelial cells. RNA blot hybridization and immunoblot analysis revealed that exposure of A6 cells to 1–10 µM sodium arsenite at a mild heat shock temperature of 30 °C enhanced hsp30 and hsp70 gene expression to a much greater extent than found with either stress individually. In cells treated simultaneously with 10 µM sodium arsenite and different heat shock temperatures, enhanced accumulation of HSP30 and HSP70 protein was first detected at 26 °C with larger responses at 28 and 30 °C. HSF1 activity was involved in combined stress-induced hsp gene expression since the HSF1 activation inhibitor, KNK437, inhibited HSP30 and HSP70 accumulation. Immunocytochemical analysis revealed that HSP30 was present in a granular pattern primarily in the cytoplasm in cells treated simultaneously with both stresses. Finally, prior exposure of A6 cells to concurrent sodium arsenite (10 µM) and heat shock (30 °C) treatment conferred thermotolerance since it protected them against a subsequent thermal challenge (37 °C). Acquired thermotolerance was not observed with cells treated with the two mild stresses individually.