Nonspecific cytotoxic cells in fish (Ictalurus punctatus). I. Optimum requirements for target cell lysis

A leukocyte immune-type receptor specific polyclonal antibody recognizes goldfish kidney leukocytes and activates the MAPK pathway in isolated goldfish kidney neutrophil-like cells

Leukocyte immune-type receptors (LITRs) belong to a large family of teleost immunoregulatory receptors that share phylogenetic and syntenic relationships with mammalian Fc receptor-like molecules (FCRLs). Recently, several putative stimulatory Carassius auratus (Ca)-LITR transcripts, including CaLITR3, have been identified in goldfish. CaLITR3 has four extracellular immunoglobulin-like (Ig-like) domains, a transmembrane domain containing a positively charged histidine residue, and a short cytoplasmic tail region. Additionally, the calitr3 transcript is highly expressed by goldfish primary kidney neutrophils (PKNs) and macrophages (PKMs). To further investigate the immunoregulatory potential of CaLITR3 in goldfish myeloid cells, we developed and characterized a CaLITR3-epitope-specific polyclonal antibody (anti-CaL3.D1 pAb). We show that the anti-CaL3.D1 pAb stains various hematopoietic cell types within the goldfish kidney, as well as in PKNs and PKMs. Moreover, cross-linking of the anti-CaL3.D1-pAb on PKN membranes induces phosphorylation of p38 and ERK1/2, critical components of the MAPK pathway involved in controlling a wide variety of innate immune effector responses such as NETosis, respiratory burst, and cytokine release. These findings support the stimulatory potential of CaLITR3 proteins as activators of fish granulocytes and pave the way for a more in-depth examination of the immunoregulatory functions of CaLITRs in goldfish myeloid cells.

Molecular characterization and gene expression of pattern recognition receptors in brown-marbled grouper (Epinephelus fuscoguttatus) fingerlings responding to vibriosis infection

The pathogen recognition system involves receptors and genes that play a crucial role in activating innate immune response in brown-marbled grouper (Epinephelus fuscoguttatus) as a control agent against various infections including vibriosis. Here, we report the molecular cloning of partial open reading frames, sequences characterization, and expression profiles of Pattern Recognition Receptors (PRRs) in brown-marbled grouper. The PRRs, namely pglyrp5, tlr5, ctlD, and ctlE in brown-marbled grouper, possess conserved domains and showed shared evolutionary relationships with other fishes, humans, mammals, birds, reptilians, amphibians, and insects. In infection experiments, up to 50% mortality was found in brown-marbled grouper fingerlings infected with Vibrio alginolyticus compared to 27% mortality infected Vibrio parahaemolyticus and 100% survival of control groups. It is also demonstrated that all four PRRs had higher expression in samples infected with V. alginolyticus compared to V. parahaemolyticus. This PRRs gene expression analysis revealed that all four PRRs expressed rapidly at 4-h post-inoculation even though the Vibrio count was only detected earliest at 12-h post-inoculation in samples. The highest expression recorded was from V. alginolyticus inoculated fish spleen with up to 73-fold change for pglyrp5 gene, followed by 14 to 38-fold expression for the same treatment in spleen, head kidney, and blood samples for other PRRs, namely tlr5, ctlD, and ctlE genes. Meanwhile less than a 10% increase in expression of all four genes was detected in spleen, head kidney, and blood samples inoculated with V. parahaemolyticus. These findings indicated that pglyrp5, tlr5, ctlD, and ctlE play important roles in the early immune response to vibriosis infected, brown-marbled grouper fingerlings.

Molecular characteristics and functional analysis of non-specific cytotoxic cell receptor (NCCRP1) in golden pompano (Trachinotus ovatus)

Non-specific cytotoxic cells (NCCs) are cytotoxic cell population found in innate immune system of teleost, playing crucial role in immune defense. Non-specific cytotoxic cell receptor protein 1 (NCCRP1) is responsible for recognizing target cells and activating NCCs. That said, since the studies regarding NCCs' role in fish during pathogen infection are few, it is necessary to conduct more comprehensive studies. In this study, we identified NCCRP1 from Trachinotus ovatus (ToNCCRP1). The open reading frame of ToNCCRP1 was found to be 702 bp, encoding a protein of 233 amino acids. Additionally, ToNCCRP1 contained a conserved F-box-associated domain and exhibited more than 61 % similarity to NCCRP1 in other fish species. Quantitative real-time PCR analysis showed that ToNCCRP1 mRNA was generally expressed in all tissues, with the highest level expressed in the liver. Furthermore, the expression of ToNCCRP1 was significantly upregulated following infection with Streptococcus iniae. In vitro experiments demonstrated that recombinant ToNCCRP1 possessed bacterial agglutination and binding capabilities, suggesting its antibacterial function. Additionally, we investigated the immune response of head kidney leukocytes (HKLs) to ToNCCRP1. The challenge experiments revealed that ToNCCRP1 played a role in the immune response by influencing the inflammatory response, regulating signaling pathways and apoptosis in HKLs. These findings suggest that NCCRP1 is involved in the immune defense against pathogenic infections in golden pompano, providing insights into the immune mechanisms of teleost.

Structure and regulation of the NK-lysin (1-4) and NK-lysin like (a and b) antimicrobial genes in rainbow trout (Oncorhynchus mykiss)

Nk-lysin (Nkl), an antimicrobial peptide (AMP) product of natural killer cells and cytotoxic T cells in mammals, has recently been characterized in a number of finfish species. In this study, we identified six genes with sequence homology to Nkl and characterized their patterns of mRNA expression and abundances in rainbow trout (Oncorhynchus mykiss). The cDNA sequences for the six Nkls encoded precursor peptides of 128-133 aa in length, and mature peptides of 109-111 aa in length. Genomic DNA of the nkl1-4 genes consisted of five exons and four introns, whereas the nkl-like a & b genes consisted of four exons and three introns. Chromosomal locations of these peptides show that nkl1 was located on chromosome arm 25q, whereas the other five nkl genes were clustered on chromosome arm 19q. Phylogenetic analysis revealed a conserved structure of Nkls among the teleosts and further protein sequence analyses suggests that all six nkl genes fall within the Nkl sub-family of the Saposin family of proteins. Patterns of tissue-specific mRNA expression were asymmetric among the six trout Nkl homologues, with nkl1, nkl3, and nkl-like a & b occurring in immune competent organs such as spleen, gill, intestine and kidney, as well as pineal gland, brain and oocytes. However, nkl2 and nkl4, showed primary abundances in brain, pineal gland and oocyte tissues. Using mRNA sequencing, in whole-body pools of juvenile trout fry (1 g bw) exposed to Flavobacterium psychrophilum infection, we observed modest up-regulation (2-3 fold) of five (nkl 2-4 and nkl-like a & b) of the six nkl mRNAs over the five-day post-challenge time-course. However, no upregulation could be recorded in spleen tissue measured by qPCR in juvenile trout (270 g bw). Using mRNA sequencing again, mRNA abundances were determined in gill of juvenile trout (~57.7 g bw) exposed to various aquaculture stressors. The results indicated that all six nkls (nkl1-4 and nkl-like a and nkl-like b) were downregulated when exposed to high temperature, and that nkl1 was significantly downregulated following salinity challenge. Overall, these newly characterized AMPs may contribute to host innate immunity as they are modulated following pathogen challenge and by physiological stressors.

NK-lysin from Oreochromis niloticus improves antimicrobial defence against bacterial pathogens

NK-lysin, an effector of cytotoxic T cells and natural killer cells, is a potent antimicrobial peptide widely distributed in mammals. Homologues of NK-lysin have been discovered in several teleost species, but only several of their natural functions was recorded so far. Here we identified an NK-lysin from Nile tilapia (Oreochromis niloticus), On-NKL, and analysed its expression model and biological effects on pathogen infection. The open reading frame of On-NKL sequence spans 432 bp, codes for 143 amino acids and shares 27%-62% overall sequence identities with NK-lysin of other species. The deduced mature peptide of On-NKL possesses a saposin B domain and six well-conserved cysteine residues that essential for antimicrobial activity by forming three intrachain disulphide bonds. The results of qRT-PCR showed that On-NKL expression was observed in multiple tissues and head kidney leucocytes and nonspecific cytotoxic cells (NCCs) and is most abundant in gills. After bacterial challenge, On-NKL expression significantly varied in different tissues and NCCs. Following bacterial infection, On-NKL-overexpressing fish featured significantly lower pathogen loads in tissues than control fish. On-NKL-overexpressing fish also exhibited 33.3% relative percent survival compare with control groups. Findings suggested that On-NKL could be the potential effector of NCCs and act as immune-related gene that enhances antimicrobial defence.

T cell immunity in the teleost digestive tract

Fish (along with cyclostomes) constitute the most ancient animal group in which an acquired immune system is present. As in higher vertebrates, both B and T lymphocytes cooperate in implementing an adequate response. Although there is still a debate on whether fish possess a true gut associated lymphoid tissue (GALT), the presence of diffuse B and T lymphocytes throughout all mucosal surfaces has been demonstrated in a wide variety of fish species. The lack of antibodies against T lymphocyte markers has hampered the performance of functional assays in both systemic and mucosal compartments. However, most components associated with T lymphocyte function have been identified in fish through extensive genomic research, suggesting similar functionalities for fish and mammalian T lymphocytes. Thus, the aim of this review is to briefly summarize what is known in teleost concerning the characteristics and functionalities of the different T cell subsets, to then focus on what is known to date regarding their presence and role in the gastrointestinal tract, through either direct functional assays or indirectly by conclusions drawn from transcriptomic analysis.

A Leukocyte Immune-Type Receptor Subset Is a Marker of Antiviral Cytotoxic Cells in Channel Catfish, Ictalurus punctatus

Channel catfish, Ictalurus punctatus, leukocyte immune type receptors (LITRs) represent a multigene family that encodes Ig superfamily proteins that mediate activating or inhibitory signaling. In this study, we demonstrate the use of mAb CC41 to monitor viral cytotoxic responses in catfish and determine that CC41 binds to a subset of LITRs on the surface of catfish clonal CTLs. Homozygous gynogenetic catfish were immunized with channel catfish virus (CCV)-infected MHC-matched clonal T cells (G14D-CCV), and PBL were collected at various times after immunization for flow cytometric analyses. The percentage of CC41(+) cells was significantly increased 5 d after primary immunization with G14D-CCV and at 3 d after a booster immunization as compared with control fish only injected with G14D. Moreover, CC41(+) cells magnetically isolated from the PBL specifically killed CCV-infected targets as measured by (51)Cr release assays and expressed messages for CD3γδ, perforin, and at least one of the CD4-like receptors as analyzed by RNA flow cytometry. When MLC effector cells derived from a G14D-CCV-immunized fish were preincubated with CC41 mAb, killing of G14D-CCV targets was reduced by ∼40%, suggesting that at least some LITRs have a role in target cell recognition and/or cytotoxicity. The availability of a LITR-specific mAb has allowed, to our knowledge for the first time, functional characterization of LITRs in an autologous system. In addition, the identification of an LITR subset as a cytotoxic cell marker will allow for more effective monitoring of catfish immune responses to pathogens.

Ovarian cavity fluid of the viviparous surfperch Neoditrema ransonnetii suppresses the spontaneous cytotoxic activity of head-kidney leucocytes against xenogeneic targets

In this study, the effect of ovarian cavity fluid (OCF) from a surfperch Neoditrema ransonnetii on the cytotoxic activity of leucocytes was investigated. In an assay targeting RTG-2, a cell line derived from rainbow trout Oncorhynchus mykiss gonads, leucocytes from both the spleen and head kidney showed spontaneous killing activity. Pre-incubation with OCF significantly suppressed the cytotoxic activity of head-kidney leucocytes towards RTG-2. This suppressive activity was due to the presence of low molecular-mass materials. These results suggest that OCF plays significant roles in pregnancy by its ability to modulate cytotoxicity with maternal leucocytes.

Molecular cloning of NCCRP-1 gene from orange-spotted grouper (Epinephelus coioides) and characterization of NCCRP-1(+) cells post Cryptocaryon irritans infection

Nonspecific cytotoxic cells (NCCs) are an important cytotoxic cell population in the innate teleost immune system. The receptor designated "NCC receptor protein 1" (NCCRP-1) has been reported to be involved in the recognition and activation of NCCs. In this study, the full-length cDNA of Epinephelus coioides NCCRP-1 (ecnccrp-1) was cloned. The open reading frame (ORF) of ecnccrp-1 is 699 bp, encoding a 232 amino acid protein that includes proline-rich motifs at the N-terminus and is related to the F-box associated family. Although a bioinformatics analysis showed that EcNCCRP-1 had no signal peptide or transmembrane helices, a polyclonal antibody directed against recombinant EcNCCRP-1 efficiently labeled a membrane protein in the head kidney, detected with Western blot analysis, which indicated that the protein localized to the cell surface. RT-PCR showed that the constitutive expression of ecnccrp-1 was higher in the lymphoid organs, such as the trunk kidney, spleen, head kidney, and thymus, and lower in brain, heart, fat, liver, muscle, and skin. After infection with Cryptocaryon irritans, the transcription of ecnccrp-1 was analyzed at the infected sites (skin and gills) and in the systemic immune organs (head kidney and spleen). At the infected sites, especially the skin, ecnccrp-1 expression was upregulated at 6h post infection, reaching peak expression on day 3 post the primary infection. However, the expression patterns differed in the systemic immune organs. In the spleen, ecnccrp-1 was gradually increased in the early infection period and decreased sharply on day 3 post the primary infection, whereas in the head kidney, the transcription of ecnccrp-1 was depressed during almost the whole course of infection. An immunohistochemical analysis showed that EcNCCRP-1(+) cells accumulated at the sites of infection with C. irritans. These results suggested that NCCs were involved in the process of C. irritans infection in E. coioides.

A short history of research on immunity to infectious diseases in fish

This review describes the history of research on immunity to infectious diseases of fish in the period between 1965 and today. Special attention is paid to those studies, which are dealing with the interaction between immune system and invading pathogens in bony fish. Moreover, additional biographic information will be provided of people involved. In the 1960s and 1970s the focus of most studies was on humoral (Ig, B-cell) responses. Thorough studies on specific cellular (T-cell) responses and innate immunity (lectins, lysozyme, interferon, phagocytic cells) became available later. In the period between 1980 and today an overwhelming amount of data on regulation (e.g. cell cooperation, cytokines) and cell surface receptors (e.g. T-cell receptor; MHC) was published. It became also clear, that innate responses were often interacting with the acquired immune responses. Fish turned out to be vertebrates like all others with a sophisticated immune system showing specificity and memory. These basic data on the immune system could be applied in vaccination or in selection of disease resistant fish. Successful vaccines against bacterial diseases became available in the 1970s and 1980s. Effective anti-viral vaccines appeared from the 1980s onwards. There is no doubt, that Fish Immunology has become a flourishing science by the end of the 20th century and has contributed to our understanding of fish diseases as well as the success of aquaculture.

Teleost T and NK cell immunity

The main function of the immune system is to maintain the organism's homeostasis when invaded by foreign material or organisms. Prior to successful elimination of the invader it is crucial to distinguish self from non-self. Most pathogens and altered cells can be recognized by immune cells through expressed pathogen- or danger-associated molecular patterns (PAMPS or DAMPS, respectively), through non-self (e.g. allogenic or xenogenic cells) or missing major histocompatibility (MHC) class I molecules (some virus-infected target cells), and by presenting foreign non-self peptides of intracellular (through MHC class I-e.g. virus-infected target cells) or extracellular (through MHC class II-e.g. from bacteria) origin. In order to eliminate invaders directly or by destroying their ability to replicate (e.g. virus-infected cells) specialized immune cells of the innate and adaptive responses appeared during evolution. The first line of defence is represented by the evolutionarily ancient macrophages and natural killer (NK) cells. These innate mechanisms are well developed in bony fish. Two types of NK cell homologues have been described in fish: non-specific cytotoxic cells and NK-like cells. Adaptive cell-mediated cytotoxicity (CMC) requires key molecules expressed on cytotoxic T lymphocytes (CTLs) and target cells. CTLs kill host cells harbouring intracellular pathogens by binding of their T cell receptor (TCR) and its co-receptor CD8 to a complex of MHC class I and bound peptide on the infected host cell. Alternatively, extracellular antigens are taken up by professional antigen presenting cells such as macrophages, dendritic cells and B cells to process those antigens and present the resulting peptides in association with MHC class II to CD4(+) T helper cells. During recent years, genes encoding MHC class I and II, TCR and its co-receptors CD8 and CD4 have been cloned in several fish species and antibodies have been developed to study protein expression in morphological and functional contexts. Functional assays for innate and adaptive lymphocyte responses have been developed in only a few fish species. This review summarizes and discusses recent results and developments in the field of T and NK cell responses with focus on economically important and experimental model fish species in the context of vaccination.

Identification of phagocytic cells, NK-like cytotoxic cell activity and the production of cellular exudates in the coelomic cavity of adult zebrafish

Coelomic cavity (CC) cells of mature zebrafish harvested by lavage with media or trypsin-EDTA contained 0.80-1.20 x 10(5) and 2.0-3.5 x 10(5) cells, respectively. Media lavage was composed of granulocytes (60-80%), lymphocytes (10-20%), and NCC (4-10%). Granulocytes had large electron dense cytoplasmic paracrystalline granules and a segmented nucleus; they expressed plastin-1, myeloid specific peroxidase and MCSF mRNA; and they were NCAMP-1(+). Lymphocytes had B- and T-cell specific mRNA and were NCAMP-1(-) and NCCRP-1(-). NCC were 3 microm, NCAMP-1(+) and NCCRP-1(+) and did not express B- and T-cell specific mRNA. Additionally, trypsin lavage contained monocytes (marginated chromatin, low nuclear:cytoplasm ratio, sparse cytosolic granules) and macrophages (non-segmented nuclei, no margination of chromatin, abundant electron dense granules). E. coli injected into the CC were phagocytosed in a dose and time dependent fashion by granulocytes, monocytes and macrophages. NCC lysed mammalian target cells and NCAMP-1 expressing hybridoma cells in redirected lysis assays.

Alloantigen-specific killing is mediated by CD8-positive T cells in fish

CD8-positive (CD8(+)) cytotoxic T lymphocytes (CTL) have antigen-specific cytotoxic activity. In fish, however, CTL expressing CD8 on their cell surface have not been identified. In order to characterize the cells involved in specific cell-mediated cytotoxicity in teleosts, we separated and sorted ginbuna kidney leucocytes into CD8alpha(+), CD4(+) and surface IgM (sIgM)(+) cells by magnetic activated cell sorting using monoclonal antibodies and examined their cytotoxic activities. Effector donor ginbuna (OB1 clone) were sensitized by allografting scales from S3N clone fish followed by injection of an allogeneic cell line (CFS) derived from S3N fish. In cytotoxic assays, target cells were labeled with CFSE and cytotoxicity was calculated based on the number of viable target cells using flow cytometry. CD8alpha(+) cells from sensitized OB1 fish showed relatively high cytotoxicity against CFS cells (immunogen) but not against allogeneic CFK cells (third party) nor isogeneic CFO cells. Pre-sensitized sIgM(+) cells exhibited cytotoxicity against not only CFS cells but also CFK cells. However, CD4(+) or CD8alpha(-) CD4(-)sIgM(-) cells as well as cells from non-sensitized fish did not show any significant cytotoxic activity. These results suggest that CD8alpha(+) cells in fish have characteristics similar to those of CTL in mammals, and that the sIgM(+) cells include NK-like cells which non-specifically killed the target cells.

The gene structure and expression of the non-specific cytotoxic cell receptor protein (NCCRP-1) in Atlantic cod (Gadus morhua L.)

The non-specific cell receptor protein (NCCRP-1) serves an important function in target cell recognition and activation of non-specific cytotoxic cells in teleosts. Atlantic cod NCCRP-1 was identified in a suppression-subtractive cDNA library and NCCRP-1 from Atlantic salmon, rainbow trout, Japanese medaka and fathead minnow was found deposited in the GenBank as EST sequences. The predicted amino acid sequences of these receptors contain the characteristic functional domains representing NCCRP-1, and phylogenetic analyses support the identification of five NCCRP-1 orthologues. Cod NCCRP-1 is shorter and has a different intron/exon organization from the common carp and channel catfish counterparts, but shows high extent of conservation in NCCRP-1 signature motives. Quantitative real-time PCR analyses showed that the gene expression of cod NCCRP-1 was higher in the lymphoid organs, head kidney (90-fold) and spleen (30-fold), compared to the organ with lowest expression. NCCRP-1 gene expression was not induced by in vitro treatment of head kidney cells with polyinosinic polycytidylic acid (poly I:C) or lipopolysaccharide (LPS), or by in vivo injections with poly I:C or formalin killed Vibrio anguillarum. These results show that the cod NCCRP-1 gene is differentially expressed in organs, and that gene expression is not induced by the tested treatments.

Systemic priming of alloreactive cytotoxic cells in carp, following anal administration of allogeneic cell antigens

In the present study, we confirmed that cellular immune responses, especially specific cell-mediated cytotoxicity, could be induced in systemic carp leucocytes, following anal administration of antigens. Effector cells isolated from systemic lymphoid tissues (head kidney, spleen and peripheral blood) of carp that were immunised anally with allogeneic cells (EPC or KG cell line) efficiently lysed immunogenic target cells. The lytic activity was increased as a result of secondary sensitisation and peaked around 7 days after the final immunisation. In some aspects, the alloantigen-specific cell-mediated cytotoxicity induced by anal sensitisation was different from that induced by intraperitoneal (i.p.) injection. First, the activity induced by anal immunisation was higher than that resulting from i.p. immunisation when fish were immunised twice with a 7-day interval, whereas similar kinetics of the cytotoxicity were observed after the final immunisation. Second, repeated anal administrations tended to decrease the cytotoxic activity, although repeated i.p. injections increased the activity. These findings indicate that the anal administration of antigens in fish can elicit and modulate cellular immune responses.

Calcein AM release-based cytotoxic cell assay for fish leucocytes

A non-specific cytotoxic cell assay for fish is presented that is based on the release of the activated fluorochrome calcein AM from lysed carp epithelioma papulosum cyprini (EPC) cells. To establish the suitability of treating EPC cells with calcein AM the uptake and spontaneous release of the calcein AM by the EPC cells was evaluated. Incubation of 5 microM calcein AM in culture medium with 1x10(5)EPC cells well(-1)for a minimum of 3 h provided sufficient labelling. Spontaneous release of fluorescence from the labelled EPC cells during 10 h of post labelling incubation ranged from 30 to 39% of the total observed fluorescence. Cytotoxic activity of trout leucocytes was evaluated at three leucocyte to target cell ratios (10:1, 2:1 and 1:1) following incubation (4, 6, 8, and 10 h) with calcein AM-labelled EPC cells at 15 degrees C. In some instances, the monoclonal antibody specific for the NCC surface receptor NCCRP-1 (MAb5C.6) was included in the cultures. The activity of NCC cells was significantly inhibited in the presence of 0.25 microg well(-1)of MAb5C.6 relative to no antibody (P</=0.013) or an equal amount of an unrelated antibody (P</=0.001). Average maximum observed percent cytotoxic cell activity of approximately 18% was observed following 8 h of incubation at the 2:1 and 1:1 leucocyte to target cell ratios. Percent cytotoxic cell activity using calcein AM was similar to values reported for rainbow trout leucocytes using the 51Cr-release assay.

Effects of different stressor agents on gilthead seabream natural cytotoxic activity

Several common situations in gilthead seabream (Sparus aurata L.) farming, such as air exposure, crowding and the use of anaesthetics, have been demonstrated to be stressful. In the present study, these conditions were simulated in the laboratory, after which head-kidney natural cytotoxic cell (NCC) activity was evaluated. For this, several specimens were air exposed for 2 min, returned to the aquarium and sampled from 0 to 4 days after exposure. NCC activity was significantly lower on the day following air-exposure compared with the control (rested fish) but not at any other time studied. Other fish were crowded (100 kg biomass m(-3), 2 h), returned to an aquarium with the same density as the control group (9 kg m(-3)) and sampled from 0 to 4 days after treatment. Head-kidney NCC activity was statistically increased compared with the control (resting) fish, 1 day after crowding. Anaesthesis for 1 h with 60 or 200 microl 2-phenoxyethanol l(-1)had no significant effect on NCC activity, while the use of 50 mg MS222 l(-1)for 1 h reduced such activity (by about 40%) compared with the control. In other experiments, fish were consecutively treated with crowding and anaesthetics. When treated with the lowest 2-phenoxyethanol concentration after crowding, the NCC activity inhibition was abolished compared with the activity in fish treated either with crowding or anaesthetic alone, while the use of the highest concentration increased such inhibition. The use of MS222 after crowding did not produce any differential effect compared with the fish treated with only one of the factors. In conclusion, NCC activity is affected differently according to the stress factor applied (hypoxia, crowding and/or anaesthetics). Differences in the effects provoked by these stressors on other seabream innate immune parameters are discussed.

Channel catfish NK-like cells are armed with IgM via a putative FcmicroR

Two-color flow cytometry demonstrated that 4-8% of channel catfish PBL are positive for both F and G IgL chain isotypes, suggesting that they passively acquire serum IgM via a putative FcmicroR. These cells show spontaneous killing toward allogeneic targets, and in vitro stimulation of PBL with allogeneic cells results in an increase of double IgL chain positive cells with a concomitant increase in nonspecific cytotoxicity. Long-term cultures of alloantigen-stimulated PBL contain both sIgM(+) and sIgM(-) cytotoxic cells that transcribe message for the catfish homolog of the FcepsilonR gamma chain, but not for Igmicro and TCR-alpha,-beta, or -gamma chains. Immunoprecipitation of lysates from sIgM(+) NK-like cells with anti-IgM co-immunoprecipitated a putative FcmicroR of approximately 64 kDa. Finally, removal of IgM from sIgM(+) NK-like cells and replacement with anti-hapten antibody enabled antibody-armed effectors to kill haptenated targets that were refractory to killing by effectors armed with normal IgM. This is the first report suggesting that teleost NK-like cells express a putative FcmicroR which participates in antibody-dependent cell-mediated cytotoxicity.

In vitro effect of chitin particles on the innate cellular immune system of gilthead seabream (Sparus aurata L.)

The interaction between chitin particles and gilthead seabream (Sparus aurata L.) head-kidney leucocytes, as well as their effects on the main innate cellular immune responses were studied. Three different chitin particle-sizes were tested: unfiltered, <10 microM and >10 microM. Leucocytes were able to phagocytose only the chitin particles of <10 microM but not the >10 microM ones. Leucocytes were incubated with different concentrations (0 to 1000 microg ml(-1)) of the above chitin particles for 1, 4, 24 or 48 h and their effects on leucocyte viability and the innate cellular immune system were evaluated. Leucocytes incubated with chitin for 48 h maintained their viability as determined by the MTT viability test. Leucocyte phagocytosis of bacteria after chitin incubation for 1 or 4 h was enhanced by the highest chitin concentration tested of each of the chitin fractions studied, while the respiratory burst activity was unaffected. As regards leucocyte natural cytotoxic activity against tumour cells, prior incubation of leucocytes with chitin particles for 1 or 4 h increased while incubation for 24 or 48 h reduced the cytotoxic activity in a dose dependent manner. Statistically significant differences between the different chitin concentrations and between the three chitin particle-size fractions were detected. To conclude, gilthead seabream head-kidney leucocytes were able to phagocytose chitin particles smaller than 10 microM, and the main cellular innate immune activities were enhanced as a consequence of prior incubation with chitin particles.

Tumouricidal activity of gilthead seabream (Sparus aurata L.) natural cytotoxic cells: the role played in vitro and in vivo by retinol acetate

The natural cytotoxic activity of gilthead seabream head-kidney leucocytes was evaluated after in vitro incubation with retinol acetate as vitamin A source, and in samples taken from specimens receiving an intraperitoneal injection or a diet supplemented with this vitamin. Isolated leucocytes were incubated with 0 to 10(-10)m all-trans-retinol acetate-supplemented culture medium for 0, 6 or 24h and assayed for their tumouricidal activity which was found to increase for all the assayed concentrations and incubation times. Seabream specimens were intraperitoneally injected with 0 (control), 1.75 or 5.25 micro g retinol acetate 100 g(-1) biomass and sampled 1, 3 or 5 days post-injection. Leucocyte natural cytotoxic activity increased in a dose-dependent manner 1 and 3 days post-injection. When fish were fed a commercial diet supplemented with 0 (control), 50, 150 or 300 mg retinol acetate kg(-1) diet for 1, 2, 4 or 6 weeks, only fish which had been fed the highest supplement for 2 weeks showed any increase in head-kidney leucocyte cytotoxic activity. Serum was isolated and analysed for all-trans-retinol concentration by reverse-phase high-pressure-liquid-chromatography. The normal level was about 0.4 micro g ml(-1) serum, while treatment for 1 to 4 weeks with vitamin A increased this level. In conclusion, retinol acetate increases gilthead seabream head-kidney leucocyte cytotoxic activity both in vitro and in vivo.

Natural cytotoxic activity in seabream (Sparus aurata L.) and its modulation by vitamin C

Isolated gilthead seabream head-kidney leucocytes were incubated in a culture medium supplemented with vitamin C (from 0-control-to 2 mg ml(-1)) or with a combination of different amounts of vitamin C (0.002 to 2 mg ml(-1)) and vitamin E (0.01 to 10 microg ml(-1)) for 6, 24 or 48 h. Afterwards, the cellular ascorbic acid content and the natural cytotoxic activity of leucocytes were evaluated. Leucocyte ascorbic acid levels were enhanced after incubation for 6-24 h with 0-2 mg of vitamin C ml(-1) and above. The natural cytotoxic activity of leucocytes after incubation with vitamin C was also increased for all the assayed concentrations and incubation times except in the case of the highest vitamin C concentration (2 mg ml(-1)) and the longest incubation time (48 h). No statistically significant differences in leucocyte cytotoxic activity were observed when vitamin E was added to the vitamin C, compared with the results of vitamin C alone. For the in vivo study, fish were fed diets supplemented with vitamin C (2.9 g kg(-1) diet) without or with vitamin E (1.2 g of vitamin E kg(-1) diet) for 2, 4 or 6 weeks. Serum lysozyme activity was enhanced to a statistically significant degree when fish were fed with the vitamin C + E supplemented diet for 2 weeks and with the vitamin C and vitamin C + E supplemented diets for 4 weeks. Both groups of fish showed a statistically significant increase in the natural cytotoxic activity of head-kidney leucocytes after 6 weeks of treatment although no differences were observed between treatments incorporating vitamin C alone or vitamin C combined with vitamin E.

Mechanisms of nonspecific cytotoxic cell regulation of apoptosis: cytokine-like activity of Fas ligand

The role of FasL/FasR pathways of immunoregulation of programmed cell death in teleost cytotoxic innate immunity has not been previously examined. In the present study, constitutive cytosolic soluble FasL (sFasL) was detected in anterior kidney (AK), peripheral blood (PBL) and liver NCC obtained from tilapia. Ligation of NCC by tumour cells caused the release of sFasL that was associated with lysis of HL-60 targets in 14 h killing assays. Evidence that sFasL mediated this activity was that anti-(human) FasL inhibited tilapia and catfish (cf.) NCC lysis of FasR+ HL-60 tumour cells. Inhibition was concentration dependent. Lysis of IM-9 targets (12% positive for FasR) by (cf.) anterior kidney and PBL NCC was only partially inhibited by anti-FasL mab. Activated NCC from both species were negative for the expression of membrane FasL and FasR. These data confirmed that NCC lyse sensitive tumour cells by multiple effector pathways. Pretreatment of (FasR+) HL-60 cells with anti-FasR mab completely inhibited cf. cytotoxicity at low (100:1) E:T ratios. Anti-FasR mab did not inhibit the lysis of IM-9 targets by cf. NCC. This study demonstrated that for catfish and tilapia, initial target cell conjugate formation was required; however, the terminal killing mechanism depended on at least two different pathways of cytotoxicity. One pathway depended on the release of preformed soluble FasL by activated NCC in the presence of FasR positive target cells. A second pathway has yet to be determined.

Phylogeny of natural cytotoxicity: cytotoxic activity of coelomocytes of the purple sea urchin, Arbacia punctulata

Coelomocyte-mediated nonspecific cell cytotoxic activity against human and murine target cells by the purple sea urchin Arbacia punctulata was investigated in vitro. Cytotoxic activity toward target cells was shown to be mediated by different coelomocyte populations isolated by discontinuous density gradient centrifugation. The population of phagocytic amebocytes showed the strongest cytotoxic activity and the highest binding to human NK markers by cytometry analysis. Our immunophenotypic studies showed that A. punctulata phagocytic amebocytes are CD14(+), CD56(+), CD158b(+), CD3(-), CD4(-), CD8(-), and CD16(-). The cytotoxic activity was independent of experimental incubation temperatures, required viable effector cells, and required cell-cell contact between the effector and target cells. Sodium azide significantly decreased coelomocyte cytotoxicity, indicating that cytotoxicity is metabolically dependent, and EDTA reduction of cytotoxic activity is consistent with the involvement of divalent cations in the cytotoxic process. These data describe a population of sea urchin coelomocytes (the phagocytic amebocyte) that are CD14(+), CD56(+), and CD158b(+), with cytotoxic activities.

Nonspecific cytotoxic cells and innate immunity: regulation by programmed cell death

Although programmed cell death (PCD) and the cellular pathology of apoptosis have been extensively studied in mammals and invertebrates, little is known regarding these important regulatory processes in cold blooded vertebrates, especially teleost fish. In the present review, select immunoregulatory properties of PCD/apoptosis in nonspecific cytotoxic cells (NCC) from catfish and tilapia were identified. The techniques used to define the characteristics of PCD in NCC were DNA ploidy, Annexin-V binding and cellular morphology. Using these procedures, we determined that the biochemical/genetic changes that NCC undergo during PCD are similar to those described in mammalian cells. We hypothesize that one immediate response of NCC to acute stress in teleost fish is the release of apoptosis regulatory factors (ARF) or stress activated serum factors (SASF) into the peripheral blood. These cytokine-like factors activate NCC by protecting them from initiation of: "activation induced cell death" (AICD); from "receptor induced apoptosis"; and from initiation of dexamethasone induced DNA hypoploidy. We predict that the mechanism of these actions is enhanced NCC recycling capacity and initiation of migration of NCC into sites of inflammation. In this review, studies were also summarized regarding the expression and release of "death and survival proteins" by NCC. Although the survey was not exhaustive, we showed that tilapia NCC that were activated in vitro with SASF contained increased levels of two adaptor proteins (i.e. CAS, FADD) and soluble FasL. At present the relevance of expression of the adaptor proteins by NCC is not known, however, additional evidence for the role of FasL in NCC innate immune responses was presented. Interestingly, NCC contained constitutive cytosolic FasL, and activation with tumor cells caused a significant decrease in the cytoplasmic levels of this "death protein". This indicated that FasL in NCC may function as a secretory cytokine-like molecule. Unlike mammalian NK cells and T-cells, activated NCC do not express membrane FasL. A level of phosphatase regulation of NCC apoptosis was indicated by demonstrating a reduced camptothecin induce DNA hypoploidy by pretreatment of NCC with the tyrosine phosphatase inhibitor sodium orthovanadate. This review emphasized the important regulatory functions of PCD/apoptosis for NCC in innate immune responses.

Spontaneous cytotoxic activity of eosinophilic granule cells separated from the normal peritoneal cavity of Dicentrarchus labrax

In this study the spontaneous in vitro cytotoxic activity to tumour cell lines, (K562), by unstimulated sea bass (Dicentrarchus labrax) leukocytes was examined by trypan blue exclusion test and lactate dehydrogenase release assay. A high anti-tumour cell line activity of resident peritoneal leukocytes was found at an effector to target ratio (E:T) of 25:1 after incubation for 2 h at 18 degrees C. Rabbit and sheep erythrocytes were not lysed. A low activity was displayed by head kidney and spleen cell populations whereas blood leukocytes revealed no significant activity. The effect of E:T ratio on cytotoxicity as well as microscopy observations suggested that the cytotoxic reaction required effector-target cell contact. Eosinophilic granule cells, isolated on a Percoll density gradient from a peritoneal wash, appeared to be responsible for the in vitro cytotoxic activity.

Regulation of innate immunity in tilapia: activation of nonspecific cytotoxic cells by cytokine-like factors

Exposure of tilapia (Oreochromis niloticus) to water temperatures of 10-15 degrees C for 3-5 min produces physiological stress responses characterized by immediate phenotypic and immunological changes. In the present study, this general stress response was utilized as a model system to study innate immunity mediated by soluble factors and cytotoxic cells. Acute innate cytotoxic responses of nonspecific cytotoxic cells (NCC) in the peripheral blood (PBL), anterior kidney (AK) and spleen (SPL) were measured. Following temperature stress, the levels of NCC activity depended on the presence of soluble factors and on the cell compartments from which the NCC were obtained. NCC from PBL of stressed tilapia had 30x or greater cytotoxic activity compared to nonstressed PBLs from controls. NCC activity from the AK and SPL of stressed tilapia was lower than controls. Flow cytometric analysis of NCC in each tissue showed that increased cytotoxicity was not produced by increased numbers of NCC. To determine the mechanism of amplification of cytotoxicity, NCC from nonstressed tilapia were passively treated with serum from temperature stressed tilapia. Serum containing the "stress activated serum factor" (SASF) passively increased naive NCC cytotoxicity (from PBL) 3-4 fold. The cytotoxic cell response was inhibited by addition of anti-NCC monoclonal antibody 5C6. These data indicated that NCC are (at least one of) the target cells for SASF. SASF required only 15 min pre-incubation with naive NCC to activate cytotoxicity. Activation was nonreversible and concentration dependent. Pretreatment of NCC with SASF reduced the assay time required to amplify target cell cytotoxicity from 12-24 h to 6 h. SASF amplification of NCC cytotoxicity was not restricted by different histological types of target cells. Determination of select physical/chemical properties of SASF revealed: complete heat inactivation of cytotoxicity amplification following 55 degrees C and 65 degrees C pretreatment; SASF was thermostable at room temperature to 45 degrees C for 15 min; and freeze-thaw treatment reduced but did not completely remove amplification activity. The molecular weight range of SASF activity was identified in a 50-100 kDa fraction obtained by differential dialysis. SASF appears to be a protein sensitive to trypsin digestion.

Natural cytotoxic activity of gilthead seabream (Sparus aurata L.) leucocytes. Assessment by flow cytometry and microscopy

This paper describes an easy and sensitive flow cytometric assay for assessing the non-specific cytotoxic activity of gilthead seabream (Sparus aurata L.) head-kidney leucocytes against tumor target cells. Concomitantly, the cytotoxic process and the cell types involved were microscopically studied. The assay was based on the consecutive use of two fluorochromes. The targets were preincubated with 3,3'-dioctadecyloxacarbocyanine perchlorate (DiO) and then mixed with effectors. At the end of incubation time propidium iodide (PI) was added. While live effectors were non-fluorescent, live and dead targets retained the DiO (green) fluorescence and non-viable targets and effectors showed PI (red) fluorescence staining. The kinetics of the cytotoxic activity was studied from 10 to 240 min. Lymphocytes, monocyte-macrophages and granulocytes showed non-specific cytotoxic activity, as demonstrated by light and electron microscopy. In conclusion, the technique presented validates the effectiveness of a dual-color flow cytometric assay for assessing the activity of non-specific cytotoxic cells in fish.

The graft-versus-host reaction (GVHR) in the ginbuna crucian carp, Carassius auratus langsdorfii

A model system of clonal triploid ginbuna and tetraploid ginbuna-goldfish hybrids was employed to demonstrate the presence of graft-versus-host reaction (GVHR) in a teleost fish. Tetraploid scale grafts on triploid clone members evoked an acute rejection, whereas the reverse transplants were accepted. When sensitized triploid cells were injected into tetraploid recipients, a typical GVHR was induced, leading to death of the recipients within one month. The onset of illness appeared about one week after cell injection as a loss of appetite and constipation, followed by a scale protrusion, severe haemorrhage, local destruction of the ventral skin and prominent splenomegaly. GVHR was most effectively induced by head-kidney cells and peripheral blood leukocytes (PBL), followed by spleen and thymus cells. Donors had to be sensitized at least twice by scale grafting to induce the reaction. A considerable number of recipients injected with cells from donors which had been sensitized by allogenetically different tetraploids died, suggesting a limited polymorphism or heavy cross-reactions between the alleles of the histocompatibility antigens. Ploidy analyses revealed that donor cells greatly increased in the host liver and spleen, constituting approximately 30% of total cells after 2 3 weeks. Most of these features of acute GVHR observed in this fish system are quite similar to those found in mammals and birds. thereby suggesting the presence of allo-reactive cytotoxic T lymphocytes in teleosts.

Mechanisms of cellular cytotoxic innate resistance in tilapia (Oreochromis nilotica)

Mechanisms of innate cytotoxic immunity in tilapia (O. nilotica) were measured by characterization of the activity, distribution and functions of nonspecific cytotoxic cells (NCC). Active cytotoxic cells were obtained from anterior kidney. spleen and peripheral blood whereas nonlytic but anti-NCC monoclonal antibody 5C6 positive cells were obtained from tilapia liver. Thymocytes were not cytotoxic and were mab 5C6+. Unfractionated anterior kidney cells were 6% mab 5C6+ and had very low cytotoxicity of HL-60 target cells. Percoll (45.5%) purified NCC were 44% mab 5C6+ and had 35% HL-60 cytotoxicity (160:1 E:T ratio). Transformed mouse and human target cells were tested for sensitivity to NCC lysis. HL-60, U937, K562, IM-9 and NC-37 human targets were lysed by NCC. YAC-1 targets were insensitive to lysis. The killing of HL-60 targets by tilapia NCC was inhibited by mab 5C6. Experiments to determine optimal conditions for the cytotoxicity assay revealed that tilapia required 15-20h for optimum lysis of targets. Incubation at 37 C produced the highest cytotoxicity. The proliferative competence of Percoll purified anterior kidney cells was determined. A significant increase in in vitro uptake of tritiated thymidine by anterior kidney cells occurred following stimulation by mab 5C6, Con-A, PMA and calcium ionophore A23187. Purified spleen cells also produced significant increased uptake of tritiated thymidine following in vitro activation with PMA and mab 5C6, but not Con-A. These studies indicated that NCC may provide innate cytotoxic immunity similar to that provided by the NCC of catfish.

In vitro cell-mediated cytotoxicity against allogeneic erythrocytes in ginbuna crucian carp and goldfish using a non-radioactive assay

Cell-mediated cytotoxicity of clonal ginbuna crucian carp leukocytes against allogeneic erythrocytes is described using a sensitive non-radioactive in vitro assay. Hemoglobin released from target erythrocytes after cell-mediated erythrolysis was detected by tetramethylbenzidine (TMB). TMB assay showed clear correlation with a 51Cr-release assay and even exhibited higher cytotoxicity. The use of erythrocytes as target cells has several advantages over a conventional 51Cr-release assay. Erythrocytes do not have cytotoxic activity, are relatively homogeneous, are available in large numbers and erythrocyte donors need not be killed. Leukocytes from fish sensitized by erythrocyte injection or scale grafting efficiently lysed allogeneic erythrocytes, but did not kill isogeneic or autologous erythrocytes. In contrast, leukocytes from unsensitized fish did not lyse allogeneic erythrocytes and repeated sensitizations by allogeneic grafts were necessary to induce cytotoxic cells. Effector cells isolated from peripheral blood showed a higher cytotoxic effect toward allogeneic target cells than effector cells isolated from kidney. These studies support the hypothesis that fish are capable of a genetically restricted specific cell-mediated cytotoxicity.

Cytotoxic activity generated from channel catfish peripheral blood leukocytes in mixed leukocyte cultures

In previous work, lysis of allotargets was routinely observed with PBL from nonimmune channel catfish. In the work reported here, greatly increased (approximately 100-fold) cytotoxic responses were generated by stimulation of channel catfish PBL with irradiated cells of allogeneic cloned B cell lines in mixed leukocyte cultures (MLC). This increased cytotoxicity did not appear to be simply a consequence of cell proliferation since stimulation of catfish PBL proliferative responses with polyclonal mitogens did not result in increased lysis. Somewhat surprisingly, the MLC-generated cytotoxicity did not exhibit allospecificity; i.e., allogeneic targets from other fish were as susceptible to lysis as were the cells used as stimulators. This apparent lack of allospecificity in MLC-generated cytotoxicity was confirmed by "cold" target inhibition assays. However, autologous targets were not killed, clearly demonstrating that MLC-generated effectors could distinguish "self" from "nonself" at the level of lysis/recognition. Although their origin is unresolved, the MLC-generated effectors may be a source of highly enriched fish cytotoxic cells and thus facilitate directly addressing questions pertaining to the evolution of such cells.

Molecular characterization of a protozoan parasite target antigen recognized by nonspecific cytotoxic cells

The target cell antigen(s) on tumor cells and on protozoan parasites recognized by NK and nonspecific cytotoxic cells (NCC) has not yet been specifically identified. NCC may be the teleost equivalent of NK cells and IL-2-activated NK cells. A ligand recognized by NCC has been identified. It is expressed on both protozoan parasites and mammalian tumor target cells. In the present study, a protozoan parasite antigen (NK target antigen/NKTag/p46) was purified from Tetrahymena pyriformis and the entire amino acid sequence was deduced from cDNA. Soluble and purified NKTag inhibited NCC lysis of human and mouse transformed target cells. Homology comparisons using Swissprot database revealed that NKTag is a novel protein. Molecular weight computation of the deduced sequence demonstrated that NKTag is a 48.17-kDa protein containing 422 amino acids with relatively high percentages of tyrosine and serine residues. Expression of NKTag on various mammalian tumor target cells, normal tissue, and T. pyriformis was determined using anti-multiple antigenic peptide (MAP) monoclonal antibody (mab) 22A12 [generated against an N-terminal 20-mer (aa 61-80) of p46]. This mab bound to tissue-cultured and tumor cells (YAC-1, IM-9, NC-37, MOLT-4, and U937) with low levels of binding to fish, mouse, and equine cells. Studies were also done to determine if purified and iodinated NKTag bound specifically to NCC. Binding was saturable and specific. These data provide evidence that NCC recognize a target cell ligand which is found on both protozoan and tumor cells. This may provide an explanation as to how NCC (including activated NK cells) recognize a vast array of targets in the absence of haplotype recognition and in spite of a diverse species of origin.

Inhibition of cytotoxic activity of carp lymphocytes (Cyprinus carpio) by anti-thymocyte monoclonal antibodies

A series of monoclonal antibodies (mAbs) were developed against carp thymocytes and carp immunoglobulin (IgM). Anti-thymocyte mAbs reacted with thymocytes, head kidney lymphocytes (HKL) as well as peripheral blood lymphocytes (PBL) at various proportions. Anti-IgM antibody reacted with HKL and PBL but not with thymocytes. PBL from carp immunized with xenogeneic mouse myeloma cells exhibited cytotoxic activity against target cells but PBL from unimmunized fish showed weak cytotoxicity. Treatment of PBL with anti-thymocyte mAbs and guinea pig complement suppressed the cytotoxic activity dose dependently; however, anti-IgM mAb did not. These results indicate the cytotoxic cells in PBL possess cell surface antigens common to thymocytes.

Nonspecific cell-mediated cytotoxicity in the seawater teleosts (Sparus aurata and Dicentrarchus labrax): ultrastructural study of target cell death mechanisms

BACKGROUND

In higher vertebrates, cytolytic lymphocytes lyse their targets by the mechanisms of cell death called necrosis and apoptosis. However, the mechanisms of target cell death mediated by fish cytotoxic cells have not been established. We report the ultrastructure of target cell death mediated by the seawater teleosts gilthead seabream (Sparus aurata) and sea bass (Dicentrarchus labrax).

METHODS

Head-kidney, blood, and peritoneal exudate leukocytes were incubated with HeLa or B16 melanoma tumor cells, as targets, and processed for transmission electron microscopic studies.

RESULTS

After incubation of tumor cells with leukocytes, substantial ultrastructural changes typically associated with both necrosis and apoptosis were observed in the plasmalemma, nucleus, and cytoplasm of the tumor cells. These morphological changes included loss of microvilli, the formation of long cytoplasmic processes and blebs, condensation and margination of the chromatin, swelling of the organelles, and vacuolation and condensation of the cytoplasm.

CONCLUSIONS

Our results indicate that leukocytes from gilthead seabream and sea bass are able to kill their targets by the mechanisms of necrosis and apoptosis, in a similar way to mammalian cytotoxic cells.

Anti-viral cytotoxic cells in the channel catfish (Ictalurus punctatus)

Cytotoxic cells isolated from the head kidney and peripheral blood of the channel catfish appear to represent distinct subpopulations of effector cells. Previous studies showed that the former lyse xenogeneic natural killer (NK) cell targets, whereas the latter preferentially lyse allogeneic cells. Here we extend these studies and present data suggesting a third class of cytotoxic effectors responsible for killing virus-infected allogeneic and autologous cells. Peripheral blood leukocytes (PBLs) freshly isolated from unimmunized catfish lyse uninfected allogeneic target cells as well as virus-infected allogeneic and autologous cells. Cell depletion and unlabeled ("cold") target inhibition studies discriminated between putative effector classes and supported the view that at least two populations of cytotoxic cells are present within peripheral blood leukocytes. One population lyses allogeneic targets, whereas a second population kills channel catfish virus (CCV)-infected cells. In addition, inhibitor studies demonstrated that early virus gene products are sufficient to render infected cells susceptible to lysis. These results suggest that channel catfish possess distinct populations of NK-like, PBL-derived cytotoxic cells capable of lysing allogeneic and virus-infected target cells.

Arlee line of rainbow trout (Oncorhynchus mykiss) exhibits a low level of nonspecific cytotoxic cell activity

Nonspecific cytotoxic cell (NCC) activity was assessed in the peripheral blood of four isogenic lines of rainbow trout (Oncorhynchus mykiss) which were derived by the chromosome set manipulation technique of androgenesis. In these fish, whose isogenicity was previously confirmed by multilocus DNA fingerprint analysis, NCC activity was studied by the release of 51Cr from YAC-1 targets. Two groups of trout (the homozygous Arlee 12 line and the heterozygous hybrid of the Arlee 63 and Arlee 12 lines) had significantly lower levels of NCC activity in peripheral blood than either outbred rainbow trout or other lines with Hot Creek or hybrid Arlee x Hot Creek ancestry. The low NCC activity in the Arlee line appears to be inherited as a recessive trait. Peripheral blood cells of the trout mediated lectin dependent cellular cytotoxicity (LDCC) with the addition of phytohemagglutinin to co-cultures of effector cells and YAC-1 cells. The low NCC activity in the peripheral blood of these fish is not due to a condition analogous to the NCC-deficient Chediak-Higashi syndrome of man or the beige mutation of mice.

An evolutionary conserved target cell antigen along with MHC class I molecules influences susceptibility to murine NK cell lysis

We have previously characterized a novel monoclonal antibody (mAb), termed 18C2, which binds to and inhibits the lysis of target cells by human natural killer (NK) cells. We now show that the anti-target cell mAb 18C2 also recognizes a similar structure on the murine NK sensitive target cell YAC-1, as well as on NK resistant target cells P815 and EL-4, as observed by flow cytometry. Functional studies demonstrated that the mAb 18C2 inhibited the lysis of both NK sensitive YAC-1 target cells, as well as NK resistant target cell lines P815 and EL-4 by freshly-isolated nylon wool nonadherent (NWNA) NK cells, 5-day lymphokine activated killer (LAK) cells and adherent lymphokine activated killer (ALAK) cells. The inhibitory activity of the mAb 18C2 occurred at the target cell level only. Single cell conjugate assays as demonstrated that the structure recognized by the mAb 18C2 was involved in recognition between NK cells and NK target cells, as the mAb inhibited conjugate formation between a variety of effector cells and various target cell lines tested. Further, the role of major histocompatibility complex (MHC) class I antigens in NK cell cytotoxicity was examined. We observed that target cells expressing low levels of MHC class I antigens in association with the novel target cell antigen were more sensitive to NK cell lysis, as compared to cells that co-express higher levels of MHC class I antigen and the target cell antigen. Further, the presence of this antigen across different species suggests this target cell antigen/structure to be highly evolutionarily conserved.

Neutrophilic granulocytes in carp, Cyprinus carpio, possess a spontaneous cytotoxic activity

This study demonstrates for the first time that carp (Cyprinus carpio) neutrophilic granulocytes from the head kidney possess potent spontaneous cytotoxic activity against several human tumor cell lines. Carp head kidney cells isolated at a density of 1.09 g/mL contained more than 90% neutrophilic granulocytes. These cells were round and approximately 10 millimicrons in diameter with reniform or polymorphic nuclei and slightly eosinophilic cytoplasm when stained with Giemsa. Electron microscopy revealed that the cytoplasm contained numerous oval granules, some of which contained a dense rod-shaped core. The neutrophilic granulocytes readily formed conjugates with the human target cells and rapidly killed them. The neutrophilic granulocytes killed human derived target cells better than murine derived target cells. Inhibition of cytotoxicity by catalase suggested that the production of H2O2 is involved as a mediator in the cytotoxic reaction. The size and granularity of the carp effector cells indicate that they are different from the small agranular nonspecific cytotoxic cells (NCC) described in the channel catfish.

Phylogeny of lymphocyte heterogeneity: cytotoxic activity of channel catfish peripheral blood leukocytes directed against allogeneic targets

Channel catfish peripheral blood contains leukocytes that function as cytotoxic effectors directed against a variety of long-term cultured allogeneic, but not xenogeneic, targets. These effector cells are probably distinct from macrophages, B cells, and nonspecific cytotoxic cells. The cytotoxic activity of these effector cells was inhibited with monoclonal antibody 1H5. Although this reagent appears to react with a catfish cell surface molecule akin to the integrin LFA-1 present on the surface of nearly all leukocytes, it does not clarify the question as to whether or not these effectors are related to T cells.

Partial amino acid sequence of a novel protozoan parasite antigen that inhibits non-specific cytotoxic cell activity

Monoclonal antibody (MoAb) 18C2, prepared against a human EBV transformed lymphoblastic cell line (NC-37) is specific for a target cell ligand recognized by fish NCC and by mammalian NK cells. MoAb 18C2 inhibits the lysis of a variety of transformed murine and human cells (e.g. NC-37, YAC-1, K562, etc.). This MoAb also recognizes a determinant on the fish protozoan parasite Tetrahymena pyriformis. In the present study, we used MoAb 18C2 to identify a target antigen in detergent lysates of T. pyriformis. MoAb 18C2 recognized a 46-50 kDa target antigen (NKTag) by Western blot analysis of both crude and ammonium sulphate (AS) fractionated (25-40% saturation) T. pyriformis lysates. AS fractionated or purified soluble NKTag inhibited NCC mediated lysis of IM-9 target cells in a dose dependent fashion. AS fractionated NKTag also inhibited NCC lysis of a variety of human and murine transformed targets (e.g. HL-60, MOLT-4, DAUDI, NC-37, U-937, YAC-1, EL-4). Inhibition was specific for NCC and inhibition could be removed by adsorption of AS fractionated NKTag with MoAb 18C2 hybridoma cells. NKTag was prepared for amino acid sequencing by preparative SDS PAGE of whole cell detergent (CHAPS) lysate followed by Western transfer to nitrocellulose. The MoAb 18C2 recognized NKTag was excised and submitted for microsequence analysis. Direct N-terminal analysis yielded a 12 residue sequence. Additional sequences, obtained from in situ trypsin digests of the NKTag on nitrocellulose yielded four additional peptides of 10, 13, 16 and 21 residues. None of the sequences examined had significant homology to known sequences (Swiss-Prot protein sequence database). These data indicate that MoAb 18C2 recognized a novel protein on T. pyriformis which may be involved in target cell recognition/lysis by NCC. Further, these data extend our previous observation that a common target determinant exists between higher and lower eukaryotic cells, and its expression may provide an explanation for the susceptibility of both protozoan parasites and transformed tumour cells to NK/NCC lysis.

Ultrastructure of nonspecific cytotoxic cells in teleosts. I. Effector-target cell binding in a marine and a freshwater species (seabream: Sparus aurata L., and carp: Cyprinus carpio L.)

BACKGROUND

Fish cytotoxic effectors form a cell population whose ultrastructure and properties of conjugation with target cells have not been completely established. We report the ultrastructure of the nonspecific cytotoxic cells in a seawater teleost (Sparus aurata L.) and compare it to a freshwater species (Cyprinus carpio L.).

METHODS

Blood leucocytes were incubated with HeLa or B16 melanoma cells. Samples were processed for transmission electron microscopic study.

RESULTS

Conjugates consisting of leucocytes binding targets were regularly observed after 30 min, 1 hr, or 2 hr of incubation. In both species leucocytes binding to targets showed ultrastructural features of either monocyte-like or lymphocyte-like cells. Monocyte-like cells usually appeared flattened against the targets and seemed to enclose fragments of the target to form cytoplasmic vesicles and the content of their scarce cytoplasmic granules seemed to be delivered into these vesicles. In the seabream lymphocyte-like cells, dense cytoplasmic granules occurred only occasionally, and neither microvilli nor cell processes were present at the contact areas with the targets. In the carp, the contacts were more numerous and formed regularly interdigitating contact areas and the lymphocytes showed granules with characteristic dense and fibrillar contents.

CONCLUSIONS

We conclude that seabream and carp have a leucocyte cell population with ultrastructural features of either monocytes or lymphocytes showing nonspecific cytotoxic ability.

Evolutionary conservation of a human function-associated molecule on murine natural killer cells: expression and function

Using a novel anti-natural killer (NK) cell monoclonal antibody (MoAb), we have recently identified an evolutionary conserved function-associated molecule (FAM) present on fish, rat and human NK cells. This molecule is involved in NK cell function as anti-FAM MoAbs inhibit cytotoxicity, stimulate lymphokine secretion and inhibit conjugate formation between effector cells and target cells. We now have examined murine NK cells for the presence of this structure. It was observed by two-colour flow cytometric analysis that the anti-FAM MoAb 5C6 specifically bound to a subpopulation of nylon wool non-adherent splenic lymphocytes (19-20%). The expression of the FAM molecule was restricted to NK cells that expressed the NK1.1 antigen. Neither T cells, B cells, nor macrophages reacted with the anti-FAM MoAb. Analysis of FAM expression in various lymphoid tissues revealed that splenocytes expressed the greatest numbers of MoAb(+) cells. Generation of lymphokine-activated killer (LAK) cells and adherent lymphokine-activated killer (ALAK) cells resulted in higher levels of FAM expression. The anti-FAM MoAb 5C6 also detected the presence of FAM on fresh SCID NK cells. It was demonstrated that the anti-FAM MoAb 5C6 inhibited the lysis of target cells by endogenous NK cells, activated NK cells, 5d LAK cells, ALAK cells and SCID NK cells. Moreover, conjugate assays demonstrated involvement of this molecule in recognition between NK cells and target cells.

Identification of a target cell antigen recognized by nonspecific cytotoxic cells using an anti-idiotype monoclonal antibody

Nonspecific cytotoxic cells (NCC) are the teleost equivalent of mammalian natural killer (NK) cells. In the present study an anti-idiotypic monoclonal antibody (mAb 7D12) was generated against idiotopes on an mAb (mAb 6D3.2) that recognizes a putative receptor on NCC. The idiotypic specificity of mAb 7D12 was determined in competition assays by incubating biotinylated mAb 7D12 with mAb 6D3.2 hybridoma cells following preincubation with combinations of biotinylated 7D12 with either nonbiotinylated homologous or heterologous mAb. The ligand recognized by mAb 7D12 (determined by flow cytometry) was found on cells from the anterior kidney, spleen, thymus, PBL, liver, and brain. NCC lysis of IM-9 targets was inhibited 76% following preincubation of the target cells with different concentrations of mAb 7D12. The involvement of the ligand recognized by mAb 7D12 in the NCC lytic cycle was determined by showing that this mAb produced 50% inhibition of NCC conjugate formation with NC-37 target cells. Biochemical analysis using SDS-PAGE and Western blotting revealed that mAb 7D12 recognized 54 and 65 M(r) proteins in IM-9 target cell lysates. These studies demonstrated that an idiotope on a NCC specific anti-receptor mAb was an "internal image" of a target cell ligand. The anti-id mAb generated against this image (idiotope) inhibited NCC cytotoxicity and thus was equivalent to an NCC receptor that binds to a target cell ligand involved in NCC recognition.

Role of protein phosphatases in the regulation of nonspecific cytotoxic cell activity

In vitro and in vivo experiments were conducted to determine the effects of the protein phosphatase (PPase) inhibitors sodium fluoride (fluoride), sodium orthovanadate (vanadate), and lithium chloride on nonspecific cytotoxic cell (NCC) lysis of target cells. Both vanadate and fluoride stimulated NCC activity. Lithium chloride had no effects. Optimum enhancement for "normal" NCC was at low effector:target cell ratios and at least 30 min treatment was required to achieve maximum activation effects. Fluoride, but not vanadate activation effects were largely reversible. Vanadate, 2.5-10 mM, produced a 5-10-fold increase in cytotoxicity at 25:1 E:T, whereas less than twofold increases were produced by these concentrations at 100:1. NCC activity from "stressed" fish that had essentially no cytotoxic activity were also activated by vanadate. In vitro preincubation of NCC with 10-20 mM fluoride or 2.5-10 mM vanadate produced up to a 20-fold increase in stressed cytotoxicity. Combined treatments with 2.5 mM vanadate and 20 mM fluoride produced even greater responses. In vivo responses to vanadate were also determined. Treatment of catfish by immersion in 50 microM vanadate produced significant increases in cytotoxicity by 24-48 h posttreatment. Activation of cytotoxicity was not accompanied by increases in percentage of NCC (small lymphocyte content) or in total cell numbers in anterior kidney tissue. These studies indicated that levels of NCC activity are partially regulated by control of dephosphorylation of membrane proteins. Inability of NCC from stressed fish to lyse IM-9 target cells was reversed (probably) by disruption of an equilibrium between kinase and phosphatase activities. Normal NCC were "superactivated" only under conditions were they were in limiting numbers. These data show that phosphatases must be considered as active participants in regulation of signal transduction processes.

Expression of an evolutionarily conserved function associated molecule on sheep, horse and cattle natural killer cells

Natural killer (NK) cells are large granular lymphocytes that lyse a wide variety of transformed and virally-infected target cells without prior exposure to antigen, and without restriction by major histocompatibility complex antigens. Although NK cells have been identified in a variety of mammalian species, how NK cells recognize antigen and trigger lysis is unknown. Recently, monoclonal antibodies made against NK-like cells from teleost fish were shown to react with NK cells from humans and rats, and to inhibit their cytolytic activity. The role of this apparently evolutionarily conserved function-associated molecule (FAM) has been further investigated utilizing a variety of domesticated farm animal species. It was observed that the anti-FAM mAb reacted specifically with peripheral blood lymphocytes isolated from sheep, horses and cattle. Further, the anti-FAM mAb inhibited NK cell lytic activity in each of these species. Finally, the anti-FAM mAb was found to inhibit conjugate formation between NK and target cells, implying that the FAM was involved in antigen recognition by NK cells in each of these species. In conclusion, it appears that NK cell function is mediated by an evolutionarily conserved FAM in a wide variety of species.

Expression of a novel function-associated molecule on cells mediating spontaneous cytolysis in swine

In the present study, we have analyzed the effects of the anti-FAM mAb 5C6, on endogenous NK cell and lymphokine-activated killer (LAK) cell activity of swine. We report that the anti-FAM mAb 5C6 binds to fresh and cultured lymphocytes with spontaneous cytotoxic activity from swine peripheral blood. In conjunction, the anti-FAM mAb 5C6 inhibits swine cytolysis against K562 target cells. Inhibition was found to be mediated by blocking of conjugate formation. The level of spontaneous killing and mAb inhibition was correlated with the number of swine cells staining positive with the mAb 5C6 as assessed by flow cytometry.

Detection of function-associated molecules on rat NK cells and their role in target cell lysis

Anti-effector cell mAb 5C6.10.4 (5C6) inhibits cytotoxic activity of fish nonspecific cytotoxic cells (NCC). We now show that 5C6 also inhibits mammalian NK cell activity using fresh and cultured (CRC) leukemic rat NK cells. The inhibitory activity of 5C6 was caused by blocking of conjugate formation between NK cells and YAC-1 targets. Binding studies done by flow cytometry (FCM) showed that mAb 5C6 specifically bound to 8% of unfractionated rat spleen cells. Enrichment by nylon-wool fractionation produced 27.2% specific binding, along with a 3.4-fold enrichment in cytotoxic activity. Tissue distribution studies revealed that the highest number of cells recognized by mAb 5C6 were found in NWNA spleen cells (28.7%), followed by liver (18.9%) and peripheral blood (13.9). Two-color FCM showed that although all 3.2.3 mAb-positive cells were also stained with mAb 5C6, a small percentage of 3.2.3. negative noncytotoxic NWNA spleen T cells were 5C6 positive. Redirected lysis experiments demonstrated that anti-effector mAb-producing myeloma cells could be killed by CRC and NWNA spleen cells. In addition, mAb 5C6 produced specific inhibition of redirected lysis of each myeloma target. Experiments were also conducted to determine the signaling capability of the FAM complex. Binding of the anti-FAM mAbs to NWNA rat spleen cells caused a rapid increase in cytosolic free calcium of approximately 472 nM. Western blot analysis of CRC cell lysates showed that the molecules recognized by anti-FAM mAbs have molecular weights of 38 and 42 kDa. These studies indicate that the anti-effector mAbs recognize a functionally relevant molecule on rat NK cells that is involved in the first steps of cytolysis, i.e., antigen recognition, and which also triggers the activation of signal-transducing events in these cells.