Identification and characterization of a heat shock protein 70 family member in channel catfish (Ictalurus punctatus)

We have determined the cDNA sequence of a member of the channel catfish heat shock protein 70 (CF Hsp70) family. This protein presumably functions as a molecular chaperone, as is characteristic of this family in other species. Channel catfish peripheral blood leukocytes exhibit a classical heat shock response, in that heat shock (37 degrees C) induces the expression of heat shock genes that are quiescent at normal temperatures (23 degrees C). It was observed that pre-existing synthesis of certain other molecules was suppressed (as evidenced by decreases in actin RNA upon heat shock). Similar trends were observed in mRNA expression for CF Hsp70 in two catfish non-leukocyte cell lines, channel catfish ovary and F59. However, three leukocyte cell lines constitutively expressed high levels of CF Hsp70 mRNA at optimal culture temperature (27 degrees C), whereas heat shock (37 degrees C) elicited only a modest induction of CF Hsp70 expression. Furthermore, continued investigation is warranted to determine whether the apparent upregulation of CF Hsp70 mRNA expression in the catfish long-term leukocyte cell lines is involved in the seemingly immortal phenotype of these cells.

cDNA sequences and organization of IgM heavy chain genes in two holostean fish

Immunoglobulin M heavy chain (mu) sequences of two holostean fish, the bowfin, Amia calva, and the longnose gar, Lepisosteus osseus, were amplified from spleen mRNA by RACE-PCR, cloned, and sequenced. Each mu chain showed the conserved four constant domain structure typical of a secreted mu chain. Southern blot analyses with specific heavy chain variable (VH) and constant (CH) region probes suggest that both fish possess an IgH locus that resembles that of the teleosts, amphibians, and mammals in its organization. The overall sequence similarity of gar and bowfin mu chains was 60% and 48% at the nucleotide and amino acid levels, respectively, while similarity to the mu chains of teleosts and elasmobranchs was lower. The bowfin mu chain possesses a distinctive proline-rich sequence at the C mu 1/C mu 2 boundary; a shorter proline-rich sequence is present at this position in the gar mu chain. Both gar and bowfin show, in their C mu 4 sequences, motifs that could serve as cryptic splice donor sites for the production of mRNA encoding the membrane-bound form of the mu chains, and the bowfin also shows a potential cryptic splice donor site in the C mu 3 exon.

Alternate pre-mRNA processing pathways in the production of membrane IgM heavy chains in holostean fish

A single gene encodes two forms of the IgM heavy chain (mu) in vertebrates: one (microseconds) present in serum as secreted IgM and the other (microns) as the antigen receptor form of IgM present on the B-lymphocyte membrane. The mRNAs encoding microseconds and microns are derived from a single primary transcript by alternate pathways of RNA processing. In all vertebrates so far examined, with the exception of teleosts, microns mRNA is produced by splicing the transmembrane (TM) encoding exon 1 into a cryptic donor site near the 3' end of the C mu 4 exon. In contrast, teleost species splice the TM exon 1 into the regular splice donor site at the 3' boundary of the C mu 3 exon. We have examined micron mRNAs in two species of primitive bony fish, the holostean bowfin and the longnose gar. These fish utilize both the C mu 3 to TM1 (teleost) pathway and the typical cryptic C mu 4 to TM1 pathway. In addition the bowfin possesses a cryptic splice donor site near the middle of C mu 3. This is used in the production of a third species of microns-encoding mRNA, but does not participate in the production of an alternate form of the microseconds mRNA. The structure and patterns of expression of their mu genes suggest that the gar and bowfin may be more closely related than implied by the current view of fish evolution.

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.

An Ig heavy chain enhancer of the channel catfish Ictalurus punctatus: evolutionary conservation of function but not structure

The teleost fishes are among the earliest evolutionary lineages to have an Ig heavy chain (IgH) locus whose organization approximates that of mammals. To understand transcriptional control of the IgH locus in a teleost fish and to gain insight into the evolution of the control elements, the enhancer activity in the IgH locus of the channel catfish, Ictalurus punctatus, was investigated. Segments of the locus extending from upstream of the proximal JH gene to 2.5 kb downstream of the second transmembrane (TM2) exon of the mu gene were tested in transient transfection expression assays in murine myeloma and T cell lines, and in catfish B lymphoblastoid, monocyte-like, and putative T cell lines. In marked contrast to mammals, no enhancer activity was observed in the catfish JH to C mu intron, but strong enhancer activity (approaching that of the murine IgH intronic enhancer) was identified in a 1.8-kb segment that included the TM2 exon. This catfish enhancer was active in a B lineage-specific manner in both catfish and murine cells. It was not localized in a small core region, but appeared to contain multiple, dispersed cooperative elements rich in octamer- and mu E5-related motifs. Although the catfish IgH enhancer shares functional characteristics with the mammalian IgH intronic and 3' enhancers, its unusual organization does not permit any obvious inferences concerning evolutionary relationships between the catfish enhancer and any one of the murine IgH enhancers.

An Ig heavy chain enhancer of the channel catfish Ictalurus punctatus: evolutionary conservation of function but not structure

The teleost fishes are among the earliest evolutionary lineages to have an Ig heavy chain (IgH) locus whose organization approximates that of mammals. To understand transcriptional control of the IgH locus in a teleost fish and to gain insight into the evolution of the control elements, the enhancer activity in the IgH locus of the channel catfish, Ictalurus punctatus, was investigated. Segments of the locus extending from upstream of the proximal JH gene to 2.5 kb downstream of the second transmembrane (TM2) exon of the mu gene were tested in transient transfection expression assays in murine myeloma and T cell lines, and in catfish B lymphoblastoid, monocyte-like, and putative T cell lines. In marked contrast to mammals, no enhancer activity was observed in the catfish JH to C mu intron, but strong enhancer activity (approaching that of the murine IgH intronic enhancer) was identified in a 1.8-kb segment that included the TM2 exon. This catfish enhancer was active in a B lineage-specific manner in both catfish and murine cells. It was not localized in a small core region, but appeared to contain multiple, dispersed cooperative elements rich in octamer- and mu E5-related motifs. Although the catfish IgH enhancer shares functional characteristics with the mammalian IgH intronic and 3' enhancers, its unusual organization does not permit any obvious inferences concerning evolutionary relationships between the catfish enhancer and any one of the murine IgH enhancers.

A serum-free medium for human primary T lymphocyte culture

This paper describes a defined serum-free medium (SFM), designated A-X, which supports in vitro proliferation of human primary T cells stimulated with mitogens, two-way mixed leukocyte reactions, anti-CD3, and a superantigen. A-X is a 1:1 mixture of two commercially available SFM, AIM V and EX-CELL 300. In each assay tested it supported uptake of [3H]thymidine as well as or better than the standard culture medium, namely RPMI 1640 supplemented with 10% fetal calf serum. A-X also allowed the detection of interleukin-2 by ELISA at levels comparable to those produced in serum-supplemented medium. A-X will likely be useful in further studies as it eliminates many of the problems usually associated with the use of serum-supplemented media.

Development and characterization of channel catfish long term B cell lines

The establishment of channel catfish long term cloned B cell lines, the first such cell lines from ectothermic vertebrates, is described. These diploid cell lines were developed by in vitro LPS stimulation of B cells from normal channel catfish peripheral blood in the absence of overt attempts to transform or immortalize the cells. The resultant cell lines were cloned and maintained continuously in vitro for more than 12 mo without restimulation, feeder cells, or exogenous factors. Southern blot analyses of the parental cell lines revealed multiple mu-chain gene rearrangements, suggesting a polyclonal origin for the cell lines. Additional evidence for polyclonal development was provided by the demonstration that the parental cell lines transcribed mRNA for all of the six known channel catfish VH gene families. The characterization of several clonal cell lines revealed mRNA expression for both the secreted and membrane forms of the catfish mu-chain; however, the cloned cell lines each expressed only a single VH gene and analysis of the Ig H chain locus was consistent with allelic exclusion having occurred in these cells. Flow cytometry demonstrated that the cloned and uncloned cell lines produced both cytoplasmic and cell surface IgM. This IgM contained only one of the two L chain isotypes of the channel catfish, suggesting preferential L chain usage. Although these cells did not appear morphologically to be plasma cells, they secreted moderate levels of IgM in culture. These cell lines have considerable potential for addressing questions concerning the evolution of B cell function.

Development and characterization of channel catfish long term B cell lines

The establishment of channel catfish long term cloned B cell lines, the first such cell lines from ectothermic vertebrates, is described. These diploid cell lines were developed by in vitro LPS stimulation of B cells from normal channel catfish peripheral blood in the absence of overt attempts to transform or immortalize the cells. The resultant cell lines were cloned and maintained continuously in vitro for more than 12 mo without restimulation, feeder cells, or exogenous factors. Southern blot analyses of the parental cell lines revealed multiple mu-chain gene rearrangements, suggesting a polyclonal origin for the cell lines. Additional evidence for polyclonal development was provided by the demonstration that the parental cell lines transcribed mRNA for all of the six known channel catfish VH gene families. The characterization of several clonal cell lines revealed mRNA expression for both the secreted and membrane forms of the catfish mu-chain; however, the cloned cell lines each expressed only a single VH gene and analysis of the Ig H chain locus was consistent with allelic exclusion having occurred in these cells. Flow cytometry demonstrated that the cloned and uncloned cell lines produced both cytoplasmic and cell surface IgM. This IgM contained only one of the two L chain isotypes of the channel catfish, suggesting preferential L chain usage. Although these cells did not appear morphologically to be plasma cells, they secreted moderate levels of IgM in culture. These cell lines have considerable potential for addressing questions concerning the evolution of B cell function.

Activation of channel catfish B cells by membrane immunoglobulin cross-linking

This study demonstrates for the first time that teleost, specifically channel catfish, B cells proliferate in response to membrane immunoglobulin (mIgM) cross-linking. An early activation event mediated by anti-IgM ligation involved a rapid increase in intracellular calcium levels similar to the situation seen in mammalian B cells. In addition, catfish B cells, like mammalian B cells, did not exhibit such calcium changes following stimulation with lipopolysaccharide. Another consequence of catfish B cell mIgM cross linking was the rapid induction of intracellular protein phosphorylation. A number of proteins were phosphorylated on tyrosine residues within minutes after anti-Ig stimulation, indicating the activation of protein tyrosine kinases similar to the situation observed in mammalian B cells. These early intracellular activation events suggest that fish B cells, like mammalian B cells, employ a conserved signal transduction system upon mIgM ligation. This ability to transduce activation signals, coupled with the fact that catfish mIgM have a very short cytoplasmic tail, implies that catfish mIgM is probably associated with accessory molecules required for signal transduction. In this regard, several of the tyrosine phosphorylated catfish proteins exhibited relative molecular weights similar to the mammalian Ig-alpha and Ig-beta/gamma accessory molecules, and may represent candidates for the putative catfish mIgM accessory molecules.

Functionally distinct high and low molecular weight species of channel catfish and mouse IL-1

Culture supernatants from channel catfish monocytes exhibit IL-1-like activity for mouse and catfish T cells. Gel filtration analyses of these supernatants indicated that there were at least two forms of IL-1-like activity, i.e. a high molecular weight form (70 kD) active on channel catfish, but not mouse, T cells and a low molecular weight form (approximately 15 kD) with activity for mouse, but not catfish, T cells. Both sizes of catfish IL-1 exhibited alpha and beta determinants as shown by Western blot analyses using antisera to human IL-1 alpha and IL-1 beta. Further evidence for the IL-1 nature of these molecules was obtained by antibody inhibition assays wherein antisera to human IL-1 alpha and IL-1 beta each neutralized approximately 50% of the catfish activities, were additive to some extent, and could be reversed by the addition of the proper human recombinant protein. In culture supernatants of murine P388D1 cells functional activities for catfish and mouse T cells were found only in high and low molecular weight fractions, respectively. Western blots with antiserum to mouse IL-1 alpha revealed IL-1 determinants in both high and low molecular fractions of the mouse cell culture supernatants. These data suggest that catfish and mammalian IL-1 molecules may be quite similar with the caveat being that functional activity for catfish T cells requires a large protein, presented as an aggregate, a polymer, or simply a single chain 70 kD protein. However, only the low molecular weight forms (30 and 15 kD) are active on mouse T cells.

The effects of temperature and oleic acid on murine memory and virgin T cell activation: interleukin-2 secretion and interleukin-2 receptor expression

Previous studies established that low in vitro temperatures (27 degrees C, termed nonpermissive) suppressed murine primary thymus-dependent (TD), but not primary thymus-independent (TI) or secondary TD, antibody responses. Suppression was rescued by the addition of oleic acid (18:1), recombinant interleukin (rIL)-2 and/or rIL-4, but not rIL-1. These observations suggested that low temperatures suppress the functions of virgin T cells (Tv) but not those of memory T cells (Tm), B cells, or accessory cells and that hypothetically 18:1 may rescue suppressed responses by altering the membranes of Tv cells, allowing them to proliferate and subsequently secrete interleukins. In this study negatively selected Tm and Tv cells were stimulated with various mitogens at 37 or 27 degrees C. The results indicated that proliferation was suppressed at 27 degrees C to all mitogens tested. The subsequent addition of 18:1 induced proliferative responses at 27 degrees C to both concanavalin A (Con A) and a combination of 12-O-tetradecanoylphorbol 13-acetate (TPA) and calcium ionophore (A23187), but not to phytohemagglutinin-P (PHA). Both Tm and Tv cells showed significant secretion of IL-2 and expression of IL-2 receptor (IL-2R) at 27 degrees C in response to all mitogens, irrespective of proliferation, and the subsequent addition of 18:1 caused little or no change in the levels of IL-2 secretion or IL-2R expression. These findings indicate that suppression of Tm and Tv cell proliferative responses occurs irrespective of IL-2R expression and, unlike antibody production, of IL-2 secretion. Furthermore, it appears that 18:1 can synergistically act with Con A or TPA/A23187, but not PHA, in activating Tm and Tv cells to induce proliferation at 27 degrees C. These findings suggest differences in signal transduction mechanisms between these various mitogens.

Expression of a mouse-channel catfish chimeric IgM molecule in a mouse myeloma cell

Fusion genes encoding a murine VH domain and the constant region domains of the mu chain from the channel catfish, Ictalurus punctatus, were stably expressed in the lambda light chain producing mouse myeloma cell line J558L. Although the pathways of pre-mRNA processing for expression of membrane (micron and secreted (microsecond) forms of the mu chain differ between mammals and teleosts, mRNAs encoding both catfish micron and microsecond were correctly expressed in the mouse myeloma cells. The mouse-channel catfish chimeric mu chain polypeptide was able to associate covalently with the mouse lambda light chain and assemble, intracellularly, into polymers of covalent structure (microL)2-8 which resembled those seen with native catfish IgM. In contrast to native catfish IgM, the mouse-catfish chimeric IgM showed the property of binding strongly to protein A of Staphylococcus aureus. The mouse-channel catfish chimeric IgM was core-glycosylated, but did not contain terminal sialic acid. Secretion rates for the chimeric IgM were low, and the possibility could not be excluded that extracellular chimeric IgM was released from dead or dying cells. The reason(s) for the intracellular retention of the chimeric IgM (probably in the endoplasmic reticulum) are not known, but those mechanisms involving retention via cysteine residues were excluded.

Phylogeny of immune recognition: fine specificity of fish immune repertoires to cytochrome C

Using the structurally defined protein antigen cytochrome C, studies were conducted in an attempt to delineate the fine specificities of channel catfish immune repertoires. We have previously reported that species variants of cytochrome C were cross-stimulatory to peripheral blood leukocytes (PBL) from catfish immunized with the pigeon variant. Molecular database analyses revealed the existence of overlapping epitopes that appear to define the specificity of the immune response to a "family" of closely related antigens. To further explore these observations, studies were conducted to determine the contribution of peptide 81-104 to the immunogenicity of cytochrome C. Current data showed that peptide 81-104 and intact cytochrome C were stimulatory to PBL from fish previously immunized with the native molecule. In contrast, PBL from fish previously primed with the peptide 81-104 responded only to the immunizing peptide as well as to some, but not all, variants of the peptide 81-104. The differences in the stimulatory capacities of the peptide variants appeared to correlate with amino acid substitutions at various positions of the peptide and changes in their predicted secondary structures.

Productive infection of continuous lines of channel catfish leukocytes by channel catfish virus

Channel catfish virus (CCV) undergoes extensive replication in fingerling catfish and establishes latent infection in survivors. Although the site of viral latency in carriers is unknown, a variety of tissues, including leukocytes, have been implicated. To explore the interaction of CCV and leukocytes further, we examined in vitro infection of continuous lines of cloned catfish B cells and non-cloned lines containing predominantly macrophages and putative T-cells. Our results indicate that all three leukocyte subpopulations were productively infected with CCV, but that the kinetics of infection and the final yields differed markedly. These findings shed light on CCV-leukocyte interaction and suggest that CCV-infected autologous macrophage or T-cell lines might be suitable targets for assays of catfish cytotoxic T cell activity.

Chelation affects the conformation, lability and aggregation of channel catfish (Ictalurus punctatus) phosphorylcholine-reactive protein (PRP)

1. Phosphorylcholine-reactive protein (PRP) affinity-purified from channel catfish (Ictalurus punctatus) serum on phosphorylcholine-Sepharose, eluted from Bio-Gel A-5M as a 94.6 +/- 2.4 kDa protein when the gel filtration column buffer (Tris-saline) contained 25mM ethylenediaminetetraacetic acid (EDTA). 2. PRP chelated with EDTA immediately after affinity purification and gel-filtered in Tris-saline-EDTA, eluted as a 75.5 +/- 2.67 kDa protein referred to as fast-PRP (F-PRP). 3. PRP and F-PRP were identical on SDS-PAGE. Both resolved as a broad band of protein (ca 86-100 kDa) on non-reducing gels or as a ca 100 kDa protein after reduction with 2-mercaptoethanol (2-ME). 4. After gel-filtration in Tris-saline-EDTA, nearly complete reduction of 100 kDa PRP was achieved on SDS-PAGE. However, the protein regained its resistance to reduction upon storage at -60 degrees C. 5. SDS-PAGE and native PAGE also revealed that during storage, PRP and F-PRP combined to form 3 different aggregates referred to as aggregated-PRP (aggPRP). These aggregates are readily dissociated in the presence of 2-ME, suggesting a covalent interaction between adjacent pentamers comprising decameric aggPRPs. 6. PRP, F-PRP, and aggPRP have similar amino acid compositions.

Isolation of an acute-phase phosphorylcholine-reactive pentraxin from channel catfish (Ictalurus punctatus)

1. Channel catfish (Ictalurus punctatus) serum contains a protein that precipitates pneumococcal C-polysaccharide (CPS) in a calcium-dependent fashion. 2. The serum titer of this protein follows an acute-phase pattern in catfish injected with turpentine. 3. A non-glycosylated, phosphorylcholine (PC)-reactive protein (PRP) with molecular mass ca 100 kDa, was isolated from channel catfish acute-phase sera by affinity chromatography on PC-Sepharose 4B. 4. Contaminating proteins with molecular masses ca 700 kDa and ca 20 kDa that co-eluted with PRP from PC-Sepharose appear to be aggregated and native low-molecular weight factors (LMFs), respectively. 5. Purified PRP has gamma mobility but in serum samples PRP has gamma-beta mobility. 6. Electron microscopy confirmed that PRP has planar, pentagonal symmetry. 7. The amino terminus of PRP is blocked, but based on comparison of amino-acid compositions channel catfish PRP is clearly similar to human CRP and is most like CRPs from the dogfish (Mustelus canis) and rainbow trout (Oncorhynchus mykiss).

Alternate splicing pathways of the immunoglobulin heavy chain transcript of a teleost fish, Ictalurus punctatus

Previously we sequenced a partial cDNA clone encoding the 3' region of the message for the membrane receptor form of the heavy (mu) chain of the channel catfish which indicated that the first transmembrane (TM1) exon is spliced directly to the C mu 3 exon and not into a cryptic site within the CH4 exon, as occurs in other vertebrates. Studies utilizing polymerase chain reaction analysis of mRNA and further analysis of cDNA clones now confirm that the only detectable splicing pattern used in micron production by the channel catfish utilizes this C mu 3----TM1 pathway of pre-mRNA splicing.

Low temperature pepsin proteolysis. An effective procedure for mouse IgM F(ab')2 fragment production

Proteolytic fragments from murine IgM antibodies can be obtained by a variety of enzymatic procedures including pepsin digestion. However, these procedures exhibit considerable variability with respect to the size and yield of fragments. In this report, we describe a single step enzymatic digestion procedure which, when performed at a low temperature, can generate reasonably homogeneous proteolytic fragments with greater than 90% yield. Murine IgM monoclonal antibodies specific for the DNP moiety were used throughout this study. By subjecting intact IgM antibodies to enzymatic digestion with pepsin under mildly acidic conditions at 4 degrees C, covalent and noncovalent F(ab')2 fragments were generated. Under nonreducing conditions, the covalent F(ab')2 fragments migrated with an apparent molecular weight of 134 kDa on SDS-PAGE, while the noncovalent F(ab')2 fragments dissociated into their respective Fab' fragments each exhibiting an apparent molecular weight of 67 kDa. However, when subjected to gel-filtration chromatography in nondenaturing buffers, each of these F(ab')2 fragments eluted in a volume corresponding to 130-140 kDa. Upon extensive reduction, these fragments demonstrated equimolar concentrations of shortened mu chains, termed F'd fragments, and light chains. The binding activity of these F(ab')2 fragments was unaffected by the digestion. The F(ab')2 fragments exhibited the same number of binding sites and binding affinities as their respective homologous reductive subunits when analysed by equilibrium dialysis. To test the efficacy of this procedure, peptic digestions were also performed at 37 degrees C. Considerably lower yields of F(ab')2 fragments were obtained when compared to digestion at 4 degrees C.

Cellular pathway(s) of antigen processing and presentation in fish APC: endosomal involvement and cell-free antigen presentation

Studies were conducted to address further the role(s) of antigen processing and presentation in the induction of immune responses in a phylogenetically lower vertebrate, specifically a teleost, the channel catfish. In particular, studies were aimed at determining the subcellular compartments involved in antigen degradation by channel catfish antigen-presenting cells (APC) as well as ascertaining the reexpression of immunogenic peptides on the surfaces of APC. The results showed that exogenous protein antigens were actively endocytosed by APC as detected by flow cytometry. Use of radiolabeled antigen and subcellular fractionation protocols also showed that antigen localized in endosomes/lysosomes. Furthermore, there was an apparent redistribution of antigen between these organelles and the plasma membrane during the course of antigen pulsing. Functional assays for the induction of in vitro antigen-specific proliferation of immune catfish peripheral blood leukocytes (PBL) showed that membrane preparations from antigen-pulsed autologous APC were highly stimulatory. The magnitude of responses elicited with such membrane preparations was very similar to that of PBL cultures stimulated with native antigen-pulsed and fixed intact APC or prefixed intact APC incubated with a peptide fragment of the nominal antigen. Current data further corroborate our previous findings that steps akin to antigen processing and presentation are clearly important in the induction of immune responses in lower vertebrates like fish, in a manner similar to that seen in mammalian systems. Consequently, it would appear that many immune functions among the diverse taxa of vertebrates are remarkably conserved.

An additional family of VH sequences in the channel catfish

A heavy chain variable region cDNA sequence of the channel catfish (Ictalurus punctatus) prototypical for a new VH family (approximately 20 or more members) is presented. The nucleotide and inferred amino acid sequences differ by 32-52% and 41-68%, respectively, from those for the already described catfish VH families.

Phylogeny of immune recognition: role of alloantigens in antigen presentation in channel catfish immune responses

Previous work from this laboratory demonstrated the importance of antigen processing and presentation in the generation of secondary in vitro immune responses of channel catfish to both simple and complex T-dependence antigens. Further, the usage of functionally active long-term monocyte lines as antigen-presenting cells (APCs) revealed 'putative restriction' of immune responses by peripheral blood leucocytes (PBL) as responders. In addition, these long-term cell lines proved to be effective antigens for the production of specific alloantisera. Studies were therefore conducted to determine the importance of these alloantigens in the immunological recognition of foreign T-dependent antigens in the channel catfish. The addition of homologous, but not heterologous, alloantisera to cultures of antigen-pulsed cell line APCs and autologous immune PBL responders resulted in quantitative decreases in the antigen-specific proliferative responses. Taken together, these results provide evidence that alloantigens [presumably major histocompatibility complex (MHC) or MHC-like molecules] govern antigen presentation and putative restriction of teleost immune responses similar to the situation in mammals.

Temperature-mediated processes in teleost immunity: in vitro immunosuppression induced by in vivo low temperature in channel catfish

In an attempt to understand the interrelationships between environmental temperature and immune competence, channel catfish in the laboratory were subjected to a rapid change in water temperature in order to mimic conditions which might be encountered in commercial ponds during the winter months and subsequently examined for a variety of immune parameters. The results indicated that lowering the water temperature from 23 to 11 degrees C over a 24 h period suppressed both B and T cell functions for 3-5 weeks as assessed by in vitro responses. Furthermore, this form of suppression was not a typical stress-induced response, i.e. blood serum chemistry and lymphocyte and neutrophil compositions did not change in a manner reminiscent of transport-induced stress. Collectively these results indicate that channel catfish are probably immunocompromised during the winter months and consequently it seems plausible that many of the fish losses associated with the syndrome termed "winter kill" may be attributable, at least in part, to a low temperature-induced immuno-deficient state.

Spontaneous development of functionally active long-term monocytelike cell lines from channel catfish

During the course of studies involving the in vitro manipulation of channel catfish peripheral blood leukocytes, spontaneous proliferation was observed with unexpectedly high frequency. Propagation of these spontaneously proliferating cells has resulted in the development of long-term (greater than 11 mo.) cell lines which stain positively for nonspecific esterase and peroxidase, are phagocytic for latex beads, and morphologically resemble mammalian monocytes or macrophages. These long-term cell lines also exhibit two important additional functional features. First, induction with lipopolysaccharide results in the secretion of relatively high levels of catfish high and low molecular weight species of interleukin-1 active on channel catfish and mouse T cells, respectively. Second, these cell lines are efficient antigen-presenting cells to autologous peripheral blood leukocytes for antigen specific in vitro proliferative and antibody responses. This antigen-presenting function is blocked by inhibitors known to prevent antigen processing and presentation by mammalian monocytes. Allogeneic mixtures of cell line (used as antigen-presenting cells) and responding peripheral blood leukocytes, however, resulted in strong mixed leukocyte reaction but not in specific antibody responses. The availability of such cell lines should facilitate further studies on accessory cell functions in fish immune responses.

Correlation between low-temperature immunosuppression and the absence of unsaturated fatty acid synthesis in murine T cells

1. Studies were performed to determine if the inability of murine T cells to provide primary helper function at low temperature (27 degrees C) could be correlated with their inability to synthesize unsaturated fatty acids (UFAs). 2. In the absence of exogenous oleic acid (18:1), splenocytes responded to a T-dependent (TD) Ag (trinitrophenyl-keyhole limpet hemocyanin, TNP-KLH) at 37 degrees C but not at 27 degrees C. The addition of 150 microM 18:1 almost completely restored plaque-forming cell (PFC) responses to TNP-KLH at 27 degrees C but markedly suppressed PFC responses to the TD Ag at 37 degrees C. 3. During incubation at 27 degrees C, B cells converted 3- to 5-fold more stearic acid (18:0) to 18:1 and showed a greater accumulation of monounsaturated phospholipid molecular species than did T cells. 4. Following incubation in the presence of a rescuing dose of 18:1 (150 microM), both B and T cells accumulated large amounts of dioleoyl PC. 5. It is proposed that the absence of 18:1 synthesis in T cells is responsible for the unique low temperature susceptibility of this lymphocyte population.