Effects of metal-based environmental pollutants on tunicate hemocytes

Tunicates are filter feeding marine invertebrates that are susceptible to environmental contamination by toxic metals and polyaromatic hydrocarbons. Recently, we have shown that tunicate immune reactions are profoundly affected by exposure to tributyltin (TBT) and copper, both of which are components of marine antifouling paints. This study tests the effects of those pollutants on the hemocytes of tunicates. Immunofluorescence labeling with an anti-hemocyte monoclonal antibody demonstrated that the antigenic structure of the circulating hemocyte population was substantially affected by TBT and copper. Antigen-positive hemocytes were also found to accumulate in the pharyngeal papillae of TBT-exposed tunicates. Histological analyses indicated that this cellular accumulation in pharyngeal papillae involved refractile vacuolated hemocytes. Refractile vacuolated cells from TBT-exposed tunicates also occurred at greater frequencies in the circulating hemolymph, and had altered morphologies, compared to cells from nontreated controls. These data confirm that exogenous metals can have profound effects on the hemocytes of tunicates.     

In vitro allogeneic cytotoxicity in the solitary urochordate Styela clava.

Hemocytes from the solitary urochordate Styela clava can effect allogeneic cytotoxicity in vitro. Spectrophotometric and microscopic quantification of eosin-y dye exclusion revealed significantly greater frequencies of cell death in allogeneic hemocyte cultures when compared to autogeneic controls. This cytotoxic response was characterized by 1) transient activity such that specific cytotoxicity could be detected for only 4 hours of culture though continued specific killing may have been obscured by spontaneous cell death; 2) a necessity for cellular interaction demonstrated by the elimination of allogeneic cytotoxicity in the absence of cell contact; 3) killing of multiple targets by effector cells due to high levels of response at low allogeneic ratios; 4) insensitivity to altered temperature; 5) increased cytotoxicity in the absence of autologous plasma; 6) an absence of xenogeneic reactivity; 7) the presence of three hierarchical levels (low, intermediate, and high) of response. These data reflect events involved in the recognition of allogeneic cellular determinants resulting in specific cytotoxicity effected by immunocompetent cells. Such in vitro recognition and cytotoxic recognition and cytotoxic reactivity may be responsible for adaptive reactions caused by histoincompatibility in solitary tunicates.     

Halocyntin and papillosin,two new antimicrobial peptides isolated from hemocytes of the solitary tunicate,Halocynthia papillosa

We report here the screening of five marine invertebrate species from two taxa (tunicates and echinoderms) for the presence of cationic antimicrobial peptides (AMP) in defence cells (hemocytes). Antimicrobial activities were detected only in the two tunicates Microcosmus sabatieri and Halocynthia papillosa. In addition, we report the isolation and characterization of two novel peptides from H. papillosa hemocytes. These molecules display antibacterial activity against Gram‐positive and Gram‐negative bacteria. Complete peptide characterization was obtained by a combination of Edman degradation and mass spectrometry. The mature molecules, named halocyntin and papillosin, comprise 26 and 34 amino acid residues, respectively. Their primary structure display no significant similarities with previously described AMP. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.     

The relationship between immune interferon production and proliferation in antigen-specific, MHC-restricted T cell lines and clones

The release of immune or gamma interferon (IFN-gamma) by major histocompatibility complex (MHC)-restricted pigeon cytochrome c-specific Lyt 1+2-, interleukin 2 (IL 2)-producing proliferative T cell clones when cultured with antigen and antigen-presenting cells (APC) is a sensitive measure of the state of activation of the cell. In general, the fine specificity of T cell activation was similar when activation was measured either by IFN-gamma production or by proliferation. In response to antigen and the correct Ia molecule, the T cell clones produced both high titered IFN-gamma and a strong proliferative response. However, IFN-gamma production and the degree of proliferation of the T cell clones differed at high antigen concentrations. As antigen concentration increased, the magnitude of proliferation became submaximal whereas the IFN-gamma response became maximal suggesting that IFN-gamma produced by the cells might act as an autoregulatory molecule inhibiting the proliferative response. Stimulating the T cell to divide via its IL 2 receptor by adding exogenous IL 2 produced high levels of proliferation but only low titers of IFN-gamma activity. In addition, irradiation of the clone eliminated the IFN-gamma release induced by IL 2 but did not affect the IFN-gamma release induced by antigen and Ia. Thus proliferation is not essential for IFN-gamma production and unlike antigen and Ia, IL 2 functions predominantly as a proliferative signal and not as a signal for factor release. Two T cell clones showed a dissociation of IFN-gamma production and proliferation. In one case, a clone that proliferated in response to both allogeneic and antigenic stimuli released IFN-gamma in response to antigen but failed to produce IFN-gamma in response to the allogeneic stimulus. A second clone that showed a strong proliferative response to pigeon cytochrome c but no proliferative response to a species variant of cytochrome c, tobacco hornworm moth (THWM) cytochrome c, produced IFN-gamma when stimulated with either of these antigens. Thus, the sensitivity of detecting activation of T cell clones as measured by the release of an individual lymphokine varies from one clone to another.     

Pf-ALMP, a novel astacin-like metalloproteinase with cysteine arrays, is abundant in hemocytes of pearl oyster Pinctada fucata

The astacin family metalloproteinase is a family of zinc-dependent endopeptidases which play crucial roles in embryonic development, bone growth and morphogenesis. A cDNA clone encoding a putative astacin-like metalloproteinase (pf-ALMP) was isolated from hemocytes of pearl oyster, Pinctada fucata. The novel metalloproteinase presents a molecular organization close to the astacins, but has a novel C-terminal domain with cysteine arrays. RT-PCR analysis revealed that pf-ALMP was expressed dramatically high in hemocytes, which was affected by lipopolysaccharides (LPS) challenge. High expression of pf-ALMP was also found in gill, gonad and digestion gland, and in situ hybridization demonstrated that pf-ALMP was expressed in the epithelia cells of these tissues. Substrate analysis studies indicated that the recombinant pf-ALMP catalytic domain could digest gelatin. Interestingly, the pf-ALMP also could be involved in cell proliferation processes and the cysteine arrays were necessary for the proliferative activity. Taken together, these studies also help to further understand the functions of astacins which may be related to the processes of molluscan inflammatory response, embryo development, proliferation and shell formation.     

Ascidian phenoloxidase: its release from hemocytes, isolation, characterization and physiological roles

Hemocytes of the solitary ascidian Halocynthia roretzi released phenoloxidase in response to sheep red blood cells and yeast cells but not to latex beads. Phenoloxidase was also released from the hemocytes by treatments with zymosan and lipopolysaccharides but not with β1–3 glucan. EDTA scarcely inhibited the activity of phenoloxidase but inhibited the release of the enzyme. Phenoloxidase was purified from H. roretzi hemocytes by SP-Sephadex chromatography and Sephadex G-100 gel filtration. The molecular weight of the purified enzyme was estimated to be 62 000. Phenoloxidase activity was strongly inhibited by diethyldithiocarbamate, phenylthiourea and reducing agents. H. roretzi phenoloxidase was characterized as a metalloenzyme that required copper ions for the expression of full activity. The phenoloxidase showed antibacterial activity in the presence of -(3,4-dihydroxy)-phenylalanine and H. roretzi plasma. Thus, it can be concluded that phenoloxidase released from H. roretzi hemocytes functions as a humoral factor in the defense system of H. roretzi.     

Loss of graft-versus-host reactivity of mouse lymphocytes during serial passage through irradiated allogeneic hosts

Lymphoid cells which are injected into heavily x-irradiated allogeneic mice proliferate in the recipient spleens and exhibit immunological reactivity against cells of recipient genotype. We have tested whether the immunological reactivity of such cells can be further increased by injections into irradiated secondary and tertiary hosts of the same genotype. Cellular immunity of the cells was measured in a graft-vs-host test which is based on the principle that lymphocytes can inhibit the proliferation of allogeneic bone marrow cells in the spleens of irradiated recipients.Cells obtained from lymph nodes or thymi exhibited an increased graft-vs-host reactivity after five days' residence in the spleens of irradiated allogeneic mice. Attempts to sensitize these cells further by injection into secondary and tertiary irradiated recipients of the same genotype resulted in a progressive loss of their graft-vs-host reactivity. Cell counts in the spleens indicated that the proliferative activity was highest for nonsensitized and lowest for sensitized cell populations, indicating that the decline in immunological activity may be due to a decreased proliferative activity of the cells as a result of the response to the specific antigens.     

T cell synergy in the primary MLR: proliferative kinetics, effector cell generation, and IL 2 production

A primary rat MLR was initiated, and on each of 8 consecutive days during the evolving culture, an aliquot of cells was separated into its constitutive helper/inducer (W3/25+) and suppressor/cytotoxic (OX8+) T cell subsets by a monoclonal antibody, Degalan-bead immunoadsorbent column technique. This allowed a detailed kinetic analysis of T cell proliferation, the generation of effector cells, and the production of IL 2 by each subset relative to net whole culture supernatant IL 2 activity. The primary MLR demonstrates an early period of helper/inducer cell proliferation, IL 2 production and accumulation, followed by a period of suppressor/cytotoxic cell (OX8+) proliferation and IL 2 consumption during which there are distinct waves of allospecific suppressor, followed by cytotoxic activity. If fresh T cells of the helper/inducer or suppressor/cytotoxic phenotype were preseparated and then cultured alone with irradiated allogeneic stimulator cells, proliferation was noted in both subsets despite no demonstrable IL 2 activity in cultures of the suppressor/cytotoxic cells. Finally, a suppressed primary MLR exhibited proliferative inhibition of both T cell subsets.     

Cloned allospecific human helper T cell lines induce an MHC-restricted proliferative response by resting B cells

To analyze helper T (Th) cell-induced B cell proliferation in man, we have cloned allospecific Th cells, grown them as long-term IL 2-dependent T cell lines (TCL), and analyzed their phenotypic and functional properties. The two TCL described in this report, A-7 and A-57, are both composed exclusively of T3+, T4+, T8- T cells blasts. In proliferative assays, with a panel of x-irradiated allogeneic stimulator cells, A-7 was found to proliferate in response to DR3-bearing cells, whereas A-57 responds to DR2-positive stimulators. Both TCL are capable of providing MHC-restricted polyclonal help for allogeneic B cells, as measured in the reverse hemolytic plaque assay. Of greater interest, x-irradiated A-7 and A-57 cells are capable of inducing a proliferative response by allogeneic B cells that is absolutely MHC restricted at the inductive (Th-APC) level. Thus, x-irradiated A-7 cells only trigger proliferation by DR3+ B cells, whereas A-57 cells selectively activate DR2+ B cells. In contrast, after antigen-specific activation, x-irradiated A-7 and A-57 cells can recruit a significant proliferative response by allogeneic B cells bearing "irrelevant" DR antigens. The possibility that Th-induced B cell proliferation may be restricted at the effector (Th-B cell) level was addressed by fractionating B cell populations into "activated" and "resting" subsets by discontinuous Percoll density gradient centrifugation and further purification by employing a monoclonal antibody directed against an antigen expressed on activated B cells (4F2). These studies demonstrate that activated B cells are readily and nonspecifically recruited to proliferate by activated Th cells, whereas optimal proliferative responses by resting B cells require MHC restricted Th-B cell interaction.     

Alloreactive T cells from individual soft agar colonies specific for guinea pig Ia antigens. II. Cellular and molecular requirements for optimal proliferative responses

We have investigated the cellular and molecular requirement for optimal proliferative responses of several alloreactive T cell lines that were derived from individual soft agar colonies and were specific for guinea pig Ia antigens. Optimal proliferation of several colonies was observed in cultures containing purified allogeneic macrophages and growth factor(s) present in supernatant fluids of Con A-activated T cells (Con A-S). Significant proliferative responses of these alloreactive T cell colonies were also routinely detected in cultures only supplemented with unfractionated irradiated allogeneic peritoneal exudate cell (PEC). The T cell component of the stimulator cell population was crucial for these responses by producing necessary growth factor(s) endogenously in the culture. Thus, 2 signals, allogeneic Ia antigens and growth factor(s), were required for optimal proliferative responses of these alloreactive T cell colonies. Furthermore, macrophage-associated Ia antigen was more efficient than B cell-associated Ia for these responses. The requirement for allogeneic Ia antigen was not absolute, since the colonies could easily be expanded when the cultures were supplemented with irradiated syngeneic PEC and the T cell mitogens, Con A or PHA. The effect of the mitogen was mediated via the T cells in the irradiated PEC, since removal of the T cells from these PEC markedly reduced the responses. Thus, it is likely that a nonspecific signal(s) presumably from T cells can promote proliferation of alloreactive T cell colonies in the absence of allogeneic Ia antigen. These results suggest 2 mechanisms of activation of these alloreactive T cells.     

Proliferative and cytotoxic immune functions in aging mice. IV. Effects of suppressor cell populations from aged and young mice

The changes with age in three splenic suppressor cell populations were studied in C57BL/6 mice. Allospecific Ts cells and nonspecific non-T suppressor cells were both generated in vitro in allogeneic MLC. The presence of "pre-existing" suppressor cells in fresh spleen cells from normal mice was examined. Suppressor cell activities were assayed for their ability to suppress proliferation in a fresh allogeneic MLC after treatment to prevent their own proliferation. The ability to generate both specific and nonspecific suppressor cells decreased with age, whereas pre-existing suppressor cells were detected in spleens from the majority of the aged animals but not in spleens from young animals. The decrease in suppressor cell activity was not due to any requirement for age matching between donors of suppressor and target cells. The specific and nonspecific MLC-generated suppressor cells inhibited both the proliferative response in the assay MLC and the generation of cytotoxic cells. The pre-existing suppressor cells only suppressed the proliferative response and not the generation of cytotoxic cells. The changes seen with age in these suppressor cell populations suggest that the ability to generate suppression (both allospecific and nonspecific) to newly encountered Ag declines with age, whereas a resident splenic suppressor cell population accumulates over the lifetime of the animals.     

Inhibition of normal lymphocyte responses by cell membranes

Cell membranes bearing the appropriate antigen are known to stimulate a variety of cell-mediated immune responses. This report confirms that tumor cell membranes at doses of 2-5 micrograms protein/ml will stimulate in vitro generation of allogeneic cytotoxic T lymphocytes (CTL). However, higher doses (50-100 micrograms protein/ml) of the same membranes completely abrogate the generation of lytic activity. Responding lymphocytes are inhibited by membranes from either syngeneic or allogeneic cells. The inhibition appears to act at a proliferative or differentiation step in the generation of the CTL response, since membranes are known to have little direct effect on the lytic phase of CTL activity. Similar doses of membranes also inhibit LPS-induced B-cell proliferation. B-Cell proliferation is inhibited equally well by allogeneic and syngeneic membranes, and membranes from normal spleen cells are as inhibitory as tumor cell membranes. The inhibitory activity copurifies with the plasma membrane. The results raise important considerations regarding the use of subcellular forms of antigen in studies of lymphocyte recognition. In addition, these data suggest that cell-cell contacts might provide signals regulating the proliferation of lymphocytes.     

Differential inhibition of human T-lymphocyte activation by maleimide probes

Cellular thiols are known to be involved in lymphocyte activation, differentiation, and growth. In theory, alkylation of selective cellular thiols could be used to regulate specific processes in the activation sequence by inactivating particular enzymes or structural proteins, although to date specific alkylating probes have not been reported. N-Ethylmaleimide (NEM) is a lipophilic sulfhydryl-alkylating agent that is known to block the in vitro proliferative response of T lymphocytes. NEM (10 microM) was found to be fully inhibitory in PHA, Con A, and MLC assays only when added prior to or simultaneously with the mitogens or allogeneic cells; the addition of NEM only 15 sec after stimulating the cells with PHA resulted in a loss of greater than 50% of the inhibitory activity. The addition of 50 microM 2-ME 10 min after treating the cells with NEM failed to block the inhibitory effect. NEM (10-20 microM) had no adverse effect on lymphocyte viability, but completely blocked lymphocyte agglutination in response to mitogens or allogeneic cells. The lymphocytes overcame the inhibitory effects of NEM after 48 hr in both the PHA and MLC experiments. Resumption of the proliferative response was associated with the onset of agglutination in the PHA assay. In experiments using various analogs of NEM, we noted that the presence of a nonpolar N-linked side group was necessary for inhibitory activity. Pretreatment of PBMC with NEM decreased the total cellular thiols by 50% and blocked proliferation by 99%, whereas N-hydroxymaleimide decreased the total cellular thiols by 38% but had no effect on the proliferative response. The additional 12% of the cellular thiols that react with NEM, but not NHM, account for the inhibitory effect of NEM on lymphocyte proliferation. These findings suggest that selective cellular thiols are critical for T-cell activation.     

Depressed T-cell reactivity and suppressor activity of lymphoid cells from cyclophosphamide-treated mice

A study was made of the in vitro proliferative activity of thymus-derived lymphoid cells from cyclophosphamide-treated mice (Cy-mice) and the relationship between this and some in vivo immunological responses. The proliferative response to phytohaemagglutinin (PHA) and allogeneic cells was depressed for up to 3 weeks after drug treatment in spleen and lymph node cells, responsiveness recovering more rapidly in lymph node cells. Cell concentration in culture was shown to be important in such measurements as cells from some Cy-mice were able to inhibit their own proliferation and that of normal lymph node cells. No stable soluble factor responsible for this effect could be isolated. It was shown that in vitro proliferative activity is not a good indicator of in vivo T-cell capability as indicated by the very rapid recovery of ability to reject skin grafts and the fairly rapid recovery of ability to produce cytotoxic cells compared to the slower recovery of in vitro T-cell activities.     

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

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

Common cell-surface antigens functioning in self-recognition reactions by both somatic cells and gametes in the solitary ascidian Halocynthia roretzi

The "contact reaction" is an extremely rapid allogeneic cytotoxic reaction (ACR) mediated by hemocytes in the solitary ascidian Halocynthia roretzi. It has been proposed that regulation of the alloreactivity of hemocytes may be involved in preference for fertilization or self-sterility in this species. To identify the receptors and target ligands involved both in self-recognition by somatic cells and self-discrimination by gametes, we produced monoclonal antibodies (mAbs) that inhibit the ACR mediated by hemocytes and tested their effects on fertilization. Six different mAbs that inhibit the ACR were prepared and categorized into three groups. Although all three mAbs seemed to have the same ability to inhibit the ACR, almost constant and statistically significant inhibition (CRB1.1) and infrequent but significant inhibition (CRB2.1, and CRB3.1) of the ACR were observed in the same pairs of animals. Pretreatment of the unfertilized eggs with CRB1.1, CRB2.1, and CRB3.1, resulted in the constant and statistically significant inhibition, infrequent but significant inhibition, and no inhibition, respectively, of fertilization. Antigens recognized by CRB1.1 (CRB1.1 antigens) were detected on the cell surface of all types of hemocytes and on the vitelline coat and follicle cells of unfertilized eggs. CRB2.1 and CRB3.1 antigens were detected on the surface of certain types of hemocytes and follicle cells, but not on the vitelline coat. CRB mAbs were directed against different epitopes in the N-linked glycan on glycoproteins. These common carbohydrate antigens on somatic cells and gametes may function in some recognition processes in ACR and fertilization in H. roretzi.     

Thymocyte and macrophage interactions: separation of murine thymocyte subsets and enrichment of syngeneic cell-responding thymocytes by adsorption to macrophage monolayers

The spontaneous binding of murine thymocytes to macrophage monolayers was employed to separate thymocytes into macrophage-unbound and -bound subsets, and the functional reactivities of these two subpopulations were examined. Macrophage-unbound thymocytes were found to be enriched in functional subsets reactive to semi-allogeneic and allogeneic stimulating spleen cells by proliferation in mixed leukocyte culture (MLC). Furthermore, macrophage-unbound thymocytes were frequently found to respond to syngeneic spleen cells. This syngeneic proliferative response showed both memory and specificity upon subsequent restimulation and thus seems to represent a syngeneic mixed leukocyte reaction (SMLR). Syngeneic responding thymocytes were also found to produce interleukin 2 when cultured with syngeneic but not allogeneic stimulator cells. In contrast, macrophage-bound thymocytes showed greatly reduced proliferative responses to allogeneic stimulators and no responses to syngeneic stimulators. The macrophage-bound thymocyte subset was not enriched in detectable suppressive activity; proliferative responses of macrophage-unbound thymocytes to either allogeneic or syngeneic cells were neither suppressed nor enhanced when macrophage-unbound thymocytes were added to the cultures. Thus, the macrophage-unbound subset seems to be enriched in functionally mature thymocytes and the macrophage-bound subset appears to be enriched in functionally immature thymocytes. This functional separation of thymocytes by macrophage adherence also correlated well with thymocyte subpopulations separated by bovine serum albumin density gradients; the low density mature thymocytes showed enhanced responses to both allogeneic and syngeneic stimulators, whereas the high density immature cells were unresponsive. This correlation was supported further by binding studies in which T cell tumor lines derived from C57BL/6 mice were used. ERLD tumor cells, which are similar to cortical immature thymocytes in both enzymatic and surface antigenic markers, were found to bind readily to macrophages, whereas both EL-4 and E male G2 tumor cells, with characteristics of mature thymocytes, bound to macrophages poorly. The binding of thymocytes and ERLD tumor cells to macrophages was not genetically restricted. We speculate that thymocyte binding to macrophages may play a critical role during the functional maturation of thymocytes.     

Vasa expression in a colonial ascidian, Botrylloides violaceus

Evolution of solitary or colonial life histories in tunicates is accompanied by dramatic developmental changes that affect morphology and reproduction. We compared vasa expression in a solitary ascidian and a closely related colonial ascidian, in an effort to uncover developmental mechanisms important during the evolution of these contrasting life histories, including the ability to reproduce by budding. In this study, we explored the origin of germ cells in new buds developing by asexual reproduction in a colonial ascidian, Botrylloides violaceus and compared it to the source of germ cells in a solitary ascidian Boltenia villosa. We studied expression by in situ hybridization of vasa, a DEAD box RNA helicase gene found in germ cells across the metazoans. In B. villosa, bv-vasa mRNA was expressed in putative germ cells and oocytes of adult gonads, and was sequestered into a posterior lineage during embryogenesis. In mature colonies of the ascidian B. violaceus, bot-vasa mRNA was expressed in putative spermatogonia, in oocytes of zooids, and in some circulating cells in the zooids and differentiating buds. We propose that expression of vasa in cells other than gonadal germ cells of zooids in a colonial ascidian may serve as a source of germ-line stem cells in the colony.