Normal Spleen Cells Research Articles

Sialyl ligands facilitate lymphocyte accumulation during inflammation of the central nervous system

Combined models of cytokine-induced inflammation in the skin and spinal cord of the rat were utilised to demonstrate in vivo that circulating lymphocytes depend upon sialylated adhesion molecules on their surface for maximal recruitment into inflammatory sites in both tissues. When radiolabelled normal spleen cells were incubated with sialidase from Vibrio cholerae or Clostridium perfringens, or with the specific sialic acid-binding lectin from Limax flavus, prior to being washed and injected intravenously into rats, they accumulated significantly less than untreated control cells into tumor necrosis factor (TNF)-activated spinal cord and skin. Pretreatment of splenocytes with sialidase plus the competitive inhibitor 2,3-dehydro-2-deoxy- N-acetylneuraminic acid (DDN) partially restored the accumulation of radiolabelled cells at both inflammatory sites, providing evidence for the specificity of sialidase treatment and the importance of sialyl residues. Pretreatment of macrophage-depleted spleen lymphocytes, or ovalbumin-specific W3/25 + (CD4) cell line T lymphocytes with sialidase produced similar decrements in accumulation at inflammatory sites, demonstrating that lymphocytes, including memory T cells, were relying on sialyl ligands for maximal recruitment. Results from this in vivo study are interpreted as providing indirect evidence that inducible sialyl-binding molecules, probably of the ‘selectin’ type, occur to a functionally significant extent on activated central nervous system (CNS) endothelium. We speculate that such carbohydrate-binding adhesion molecules may play an important role in the recruitment of inflammatory cells during the formation of CNS lesions in diseases such as the encephalomyelitides and multiple sclerosis.

Blood hyaluronan levels and injury severity

OK432, a Streptococcus preparation, is a biological response modifier that has been used in the treatment of malignant diseases. A cloned Thy 1.2+, L3T4+, Lyt 2.2− T cell (OK2.21), specific for OK432 and restricted to I-Ed, was isolated from BALB/c mice immunized with OK432. OK2.21 not only secreted interleukin 2 but also killed Iad-bearing B-lymphoma cells in an antigen-specific manner. The clone also killed Ia-negative bystander tumor targets, but only in the presence of both OK432 and antigen-presenting cells. Despite the cytotoxicity against tumor cells, OK2.21 did not kill OK432-pulsed normal spleen cells. Injection of this clone together with OK432 to tumor-bearing BALB/c mice prolonged their survival, suggesting that this clone acts as an anti-tumor effector (or effector-inducer) cell in the therapy with OK432.

Sequential maturation stages of monoclonal B lineage cells from blood, spleen, lymph node, and bone marrow from a terminal myeloma patient

In order to fully understand the complexity of the monoclonal B lineage cells in multiple myeloma, it is necessary to evaluate the extent to which these cells are resident in solid lymphoid tissues and the phenotypic differences and similarities as compared to the circulating or bone marrow derived B lineage cells. Peripheral blood mononuclear cells from a patient with multiple myeloma were obtained 8 and 3 days prior to death, and mononuclear cells from lymph nodes, spleen, and bone marrow were obtained at autopsy. Rapid changes in the stage of differentiation of blood late-stage B lineage cells towards mature end-stage plasma cells were observed during the last week prior to death. Lymphoid cells within the blood comprised very few T cells, sub-normal numbers of monocytes, and 80% of B lineage cells which were at a late stage of differentiation. Shortly before death, plasma cells were found in the peripheral blood, indicating progression to plasma cell leukemia. At autopsy, the monoclonal B lineage cells in lymph node, spleen, and bone marrow represented different stages of terminal B cell differentiation. In each tissue, the B lineage cells were at an earlier differentiation stage, as defined phenotypically, than the circulating B lineage cells found in blood 3 days prior to death. Analysis of B cell markers and CD45 was used to define the differentiation stage of the relevant B cell populations, revealing a series of differentiation stages. The least mature B lineage cells (CD45hi) were found in lymph node. However, the CD45 isoform expressed was CD45R0, unlike most normal lymph node B cells. More differentiated B lineage cells (CD45med) were found in the bone marrow, and three sequential stages of pre-plasma cells were found in the spleen (CD45bright, CD45moderate, and CD45low-neg), all of which were CD45R0+. The B cells in normal spleen and bone marrow are CD45RA+. The presence of monoclonal B lineage cells in spleen was confirmed by Southern blotting. The B lineage cells from peripheral blood 3 days prior to death were approaching an end-stage plasma cell stage (CD45low/-). On B lineage cells from the various myeloma tissues, a concomitant loss of CD11b and increasing density of CD29 were observed as a function of progression to terminally differentiated stages.

Antitumor activity against established intracerebral gliomas exhibited by cytotoxic T lymphocytes, but not by lymphokine-activated killer cells.

Specific immune responses against malignant brain tumors have been difficult to demonstrate. Moreover, immunotherapy has met with little success, despite using lymphocytes with high levels of cytotoxicity against brain tumor cells. Lymphokine-activated killer (LAK) cells that nonspecifically kill brain tumor cells are produced by stimulating resting precursors with high concentrations of interleukin-2 (IL-2). Cytotoxic T lymphocytes that specifically kill brain tumor cells are produced by stimulating antigen receptor-positive immune-cell precursors with tumor cells. In an attempt to gain insight into immune cell function against brain tumors, the present study compared the in vitro and in vivo activities of LAK cells and cytotoxic T lymphocytes produced against RT2, a fast-growing rat glioma cell line. Lymphokine-activated killer cells were produced by stimulating normal rat spleen cells with 1000 units of IL-2, and RT2-specific cytotoxic T lymphocytes were produced by priming them in vivo with RT2 and Corynebacterium parvum and restimulating primed spleen cells with RT2 in vitro. Lymphokine-activated killer cells were highly cytotoxic for a panel of syngeneic and allogeneic brain tumor and non-brain tumor target cells, including RT2, as measured in a 4-hour 51Cr release assay. Cytotoxic T lymphocytes were highly cytotoxic only for syngeneic brain tumor target cells. Lymphokine-activated killer cells and cytotoxic T lymphocytes were tested for in vivo antitumor activity against intracerebral RT2 by intravenous adoptive transfer of activated lymphocytes. Untreated rats died in approximately 2 weeks. Lymphokine-activated killer cells plus IL-2 failed to affect survival when treatment was initiated as early as 1 day following tumor inoculation. Cytotoxic T lymphocytes and IL-2 administered as late as Day 5 rejected progressing intracerebral tumor. Thus, although both cytotoxic T lymphocytes and LAK cells exhibited high levels of in vitro killing of glioma cells, only cytotoxic T lymphocytes rejected progressing intracerebral tumors.

Role of cell-mediated immunity in the resistance to experimental sporotrichosis in mice.

Congenitally athymic nude (nu/nu) mice showed higher sensitivity to intratestical infection of Sporothrix schenckii than phenotypically normal littermates (nu/+). Active immunization with viable cells enhanced the resistance to intravenous (i.v.) infection of this fungus in BALB/c mice. Nu/nu mice transferred with immune spleen cells acquired the enhancement of resistance to the infection with S. schenckii, but not ones with normal spleen cells. Pre-treatment of OK-432 (Picibanil), one of the macrophage activating agents, enhanced resistance to i.v. infection of this fungus in BALB/c mice. On the other hand, pretreatment of carrageenan, one of the macrophage inhibitors, impaired the resistance. This fungus was intracellularly killed by peritoneal macrophage from OK-432 treated or immunized mice but not by those from normal mice in vitro. These results suggest that activated macrophage, that was mediated by T cells, play an important role in the resistance to S. schenckii in mice.

Selective suppressive effects of Trypanosoma cruzi infection on IL-2, c-myc, and c-fos gene expression.

Infection with Trypanosoma cruzi is accompanied by a profound suppression of immune responses including the production of IL-2. Previous experiments have confirmed a correlated decrease in IL-2 mRNA levels in lymphoid cells from infected mice. To further define the molecular basis of this regulation, we have examined the production and degradation of mRNA for IL-2 and other T cell activation genes in cells from T. cruzi-infected mice. Spleen cells from C57BL/6J mice infected with the Brazil strain of T. cruzi were analyzed for the kinetic expression of IL-2, IL-2R alpha, c-myc, and c-fos genes in response to Con A and PMA costimulation. Cells from infected mice exhibited a selective reduction of c-myc and c-fos mRNA in association with the severe suppression of the IL-2 gene, but a less severe to comparable production of IL-2R alpha mRNA compared with normal spleen cells. The similar patterns of the suppression of c-myc and IL-2 mRNA suggest a common mechanism of down-regulation of these two genes in T. cruzi infection. Actinomycin D treatment was used to demonstrate that decreased steady state levels of IL-2, c-myc, and c-fos mRNA in cells from infected mice were not due to an increased rate of degradation of these mRNA. Cycloheximide treatment enhanced the expression of IL-2, IL-2R alpha, c-myc, and c-fos mRNA in spleen cells from both normal and infected mice. Although a larger percentage of induction was observed in cells from infected mice, the mRNA levels for IL-2, c-myc, and c-fos in cells from infected mice were still lower than those of normal cells. Spleen cells from infected mice precultured for 24 to 72 h before the addition of mitogens showed significant enhancement of IL-2 and c-myc gene expression; however, this recovery was inhibited if fixed T. cruzi was present in the preculture medium. These data suggest that the reduction of IL-2 mRNA in infected mice is not the result of an increased degradation of its mRNA but to down-regulation of transcription of the IL-2 gene in T cells from T. cruzi-infected mice. Preculture-induced recovery of IL-2 production appears to result from release from this regulation and full expression of the IL-2 gene.

Epidermal and splenic antigen-presenting cell function in a retrovirally induced murine immunodeficiency syndrome (MAIDS).

Since alterations of epidermal Langerhans cells (LC) have been observed in humans infected with HIV, we investigated the morphology and function of these cells in murine acquired immunodeficiency syndrome (MAIDS), a murine model closely resembling human AIDS. The number as well as the shape of dendritic MHC class II+ cells from ear skin of C57BL/6 mice were similar in normal and infected animals. In mixed epidermal cell (EC) lymphocyte cultures, EC from infected mice and from normal mice stimulated allogeneic T cell proliferation to the same extent. In contrast to T cells from normal mice, however, T cells from infected mice did not respond to allogeneic spleen cells, confirming the presence of a T-cell defect in MAIDS. Subcutaneous injection of syngeneic mice with trinitrophenyl-modified MAIDS EC resulted in delayed ear swelling responses after challenge that were equivalent to those induced by hapten-modified EC from normal mice, suggesting that the contact sensitivity inducing potential of MAIDS LC was preserved. To investigate antigen presenting and processing function, EC and spleen cells were tested with the ovalbumin-specific IAb-restricted T cell hybridoma BO.17.10 and either ovalbumin 323-339 peptide or intact ovalbumin protein. MAIDS spleen cells had a reduced antigen presenting capacity compared with normal spleen cells, whereas EC from these mice showed the same processing and presenting capacity as normal controls. In summary, our results demonstrate that the frequency, morphology, level of MHC class II antigen expression and ability to process and present antigen is normal for LC from mice with MAIDS whereas the function of splenic T cells and APC from infected mice is significantly impaired.

Different subsets of T cells in the adult mouse bone marrow and spleen induce or suppress acute graft-versus-host disease.

Fractionation of normal adult mouse spleen and bone marrow cells (C57BL/Ka) was performed by discontinuous Percoll density gradients. The fractionated low density (1.050-1.060 g/ml) C57BL/Ka spleen cells completely suppressed acute lethal graft vs host disease (GVHD) when coinjected with unfractionated C57BL/Ka spleen cells into sublethally irradiated (400 rad) BALB/c mice. In dose response experiments, as few as 0.5 x 10(6) low density cells from the spleen fractions suppressed acute GVHD induced by 2.5 x 10(6) unfractionated allogeneic spleen cells. Although the low density spleen fractions inhibited acute GVHD, the high density (1.075-1.090 g/ml) spleen fractions induced acute GVHD in sublethally irradiated BALB/c recipients. Fractionation of C57BL/Ka bone marrow cells showed that none of the high or low density fractions or unfractionated cells induced lethal GVHD. When these fractions were tested for their capacity to suppress GVHD by coinjection with C57BL/Ka unfractionated spleen cells, all fractions protected the BALB/c recipients. Unfractionated bone marrow cells showed modest protection. Evaluation of the dose response characteristics of the suppressive activity of the low and middle density (1.060-1.068 g/ml) bone marrow cell fraction showed that reproducible protection could be achieved at a 5:1 ratio of inducing to suppressing cells. The low density fractions of both bone marrow and spleen cells had a marked depletion of typical TCR(+)-alpha beta CD4+ or CD8+ T cells, and a predominant population of TCR(+)-alpha beta CD4- CD8- T cells. Purified populations of the latter cells suppressed GVHD. Recipients given unfractionated C57BL/Ka spleen cells and protected with low-density bone marrow or spleen cells were chimeras.

Transplantation of large granular lymphocyte leukemia in congenitally athymic rats.

Twenty-two congenitally athymic nude (rnu/rnu) rats were transplanted with large granular lymphocyte leukemia derived from F344 rats and then compared with ten similar rats inoculated with a suspension of normal F344 rat spleen cells. The normal spleen cells and tumor cells from a spontaneous, naturally occurring leukemia did not grow or cause clinical disease in any of the rats. All rats inoculated with a serially passaged leukemia cell inoculum had local growth at the inoculation site that spread widely and resulted in progressive tumor growth. Death occurred between 16 and 38 days after inoculation. The 22 rats that received passaged tumor cells developed leukemia and splenomegaly. Spleens were diffusely infiltrated by tumor cells and had severe depletion of lymphocytes in the white pulp. Leukemic rats were thrombocytopenic and had hemolytic anemia characterized by increased osmotic fragility, red cell width, and many nucleated erythrocytes. The disease syndrome appears similar to that of F344 rats transplanted with the same inoculum. Because the host rats lacked T cells, it is concluded that the hemolytic anemia and thrombocytopenia that develop in transplanted rats are independent of T cell function.

Lack of bone resorption in osteosclerotic (oc/oc) mice is due to a defect in osteoclast progenitors rather than the local microenvironment provided by osteoblastic cells

In a co-culture system of mouse spleen cells and osteoblastic cells, we have demonstrated that a suitable microenvironment must be provided by osteoblastic cells in order for osteoclast-like multinucleated cell (MNC) formation. Using this co-culture system, we examined the pathogenetic mechanism underlying the lack of bone resorption in osteosclerotic oc/oc mice. Numerous tartrate-resistant acid phosphatase (TRAP, an osteoclast marker enzyme)-positive MNCs were formed in response to 1α,25-dihydroxyvitamin D3 [1α,25(OH)2D3] both in co-cultures of oc/oc spleen cells and normal osteoblastic cells and in those of normal spleen cells and oc/oc osteoblastic cells. TRAP-positive MNCs derived from normal spleen cells tended to spread out on culture dishes, whereas those from oc/oc spleen cells remained as small, compact MNCs. When TRAP-positive MNCs enriched from co-cultures of normal spleen cells and oc/oc osteoblastic cells were cultured on dentine slices, they formed numerous resorption pits with ruffled borders and clear zones. In contrast, none of the TRAP-positive MNCs derived from oc/oc spleen cells formed either ruffled borders or resorption pits. These results indicate that the lack of bone resorption in oc/oc mice is due to a defect in osteoclast progenitors rather than the local microenvironment provided by osteoblastic cells.

Tumor necrosis factor, but not other hematopoietic growth factors, prolongs the survival of hairy cell leukemia cells

In order to determine the growth factor requirements of hairy cell leukemia (HCL) cells, we studied the in vitro effects of tumor necrosis factor (TNF), interleukin (IL) 1 alpha, IL-1 beta, IL-2, IL-3, IL-4, IL-5, IL-6, B-cell growth factor (BCGF), GM-CSF, PHA-stimulated lymphocyte-conditioned media (CM), and 5637 bladder carcinoma CM on HCL cells obtained from spleens of patients with HCL. Mononuclear cells from a normal donor, obtained at post-traumatic splenectomy, served as a control. TNF prolonged the survival of HCL cells obtained from five different HCL patients when compared to cells cultured in control media alone, although cell proliferation could be demonstrated in only two of the five. HCL cells stained negative for the Epstein-Barr nuclear antigen (EBNA) both before and after 4 weeks in culture. BCGF, 5637 CM, and PHA-stimulated lymphocyte CM also prolonged the survival of HC25 and HC56 cells, although not to the same degree as TNF. Cells cultured in BCGF, however, stained positive for EBNA. None of the other recombinantly produced or purified cytokines prolonged the survival of the leukemic cells. With the exception of IL-2, none of the growth factors studied prolonged the survival of purified normal spleen (NS) cells over a 4-week period of time when compared to NS cells incubated in media alone. TNF prolonged the survival of HC25 cells in a dose-dependent manner, and a highly purified antibody to TNF abrogated the effects of TNF. HC25 cells incubated in the presence of control media alone did not constitutively produce TNF mRNA; however, incubation of the cells in the presence of TNF for 48 h induced the cells to express TNF message. We conclude that TNF is important in prolonging the survival of HCL cells, and thus may be important in the pathogenesis of this disease.

Suppressor function of liver mononuclear cells isolated during murine chronic graft-vs-host disease: II. Role of prostaglandins and interferon-γ

Mononuclear inflammatory cells (MC) isolated from the livers and spleens of mice with chronic graft-vs-host disease (CGVHD) to minor histocompatibility antigens (B10.D2 → BALB/c) show defective proliferation when stimulated with Con A and LPS. In turn, both CGVHD liver and spleen cells suppress the proliferation of mitogen-stimulated normal spleen cells in a genetically unrestricted manner. The suppressor activity of CGVHD spleen cells is mediated by plastic non-adherent null (natural suppressor) cells and involves a soluble suppressor factor(s). In contrast, the suppressor activity of CGVHD liver cells is mediated by macrophages (Mφ). In the current studies we show that the suppressor activity of CGVHD liver cells is also mediated by soluble factors and compare the roles of prostaglandins and interferon (IFN)-γ in mediating defective proliferation and suppressor activities of CGVHD liver and spleen MC. Monoclonal antibody to IFN-γ partially reversed the defective mitogen-stimulated proliferation of CGVHD spleen MC but had no effect on proliferative response of CGVHD liver MC. Indomethacin did not alter the low proliferative response of either CGVHD liver or spleen MC. Anti-IFN-γ inhibited the ability of CGVHD spleen cells to suppress proliferation of Con A and LPS-stimulated B10.D2 spleen cells. In contrast, anti-IFN-γ resulted in a small decrease in the ability of liver MC to suppress Con A (but not LPS)-stimulated cell proliferation. Indomethacin decreased the ability of both CGVHD liver and spleen cells to suppress Con A-stimulated proliferation but had inconsistent effects on LPS-stimulated proliferation. These results show that IFN-γ and prostaglandins partially mediate the suppressor activity of CGVHD spleen MC. The suppressor activity of CGVHD liver MC also involves prostaglandins but is relatively independent of IFN-γ.

Genetic alterations in the gene encoding the major hepatitis B surface antigen: DNA and immunological analysis of recurrent HBsAg derived from monoclonal antibody-treated liver transplant patients : Gerald McMahon ∗, Paul H. Ehrlich, Zeinab A. Moustafa, Linda A. McCarthy, Diane Dottavio, Mark D. Tolpin, Paul I. Nadler, and Lars Ostberg. Sandoz Research Institute, East Hanover, New Jersey, 07936, USA

Non-obese diabetic (NOD) mice develop Sjögren's-like syndrome (Ss) and a gradual loss of saliva secretory function. Our previous study showed that injections of matched normal spleen cells with Complete Freund's Adjuvant (CFA) reversed salivary gland dysfunction in 14-week-old NOD mice, which had established Ss. The spleen and bone marrow are closely related organs, and both are among the first sites of hematopoiesis during gestation. Noticing a rapidly increasing number of clinical trials using bone marrow (BM) cells treatments for autoimmune diseases, we tested if BM cells can prevent Ss and restore salivary glands’ function. We injected CFA and MHC class I-matched normal BM cells in 7-week-old NOD mice, which had not yet developed Ss. We found at week 52 post-treatment that all NOD mice receiving BM cells and CFA had a recovery of salivary flow and were protected from Ss and diabetes. BM cells-treated mice had their salivary function restored quantitatively and qualitatively. Saliva flow was higher (p < 0.05) in BM cells-transplanted mice when compared to control mice, which continued to deteriorate over time. Total proteins, epidermal growth factor, amylase, and electrolytes concentrations in saliva of BM cells-treated mice were not significantly changed at week 44 and 52 post-therapy when compared to pre-therapy (when the mice did not have Ss). Restoration of salivary flow could have resulted from a combination of rescue and paracrine effects from BM cells. This study suggests that a combined immuno- and cell-based therapy can permanently prevent Ss and restored salivary function in NOD mice.

Paralysis of street rabies virus-infected mice is dependent on T lymphocytes

Street rabies virus (SRV)-infected T-lymphocyte-deficient (nude) mice, in contrast to euthymic mice, did not develop hindlimb paralysis prior to death. To document the role of T lymphocytes in rabies virus-associated paralysis, 10(8) spleen cells from normal immunocompetent euthymic mice were transferred to nude mice and the recipient mice were challenged with SRV. One hundred percent of the reconstituted mice developed paralysis and died. Depletion of T cells from the donor spleen suspension prior to transfer abrogated the development of paralysis but did not prevent the deaths of the recipient animals. Mice receiving 10(8) rabies virus-immune spleen cells did not become paralyzed and did not die. Nude mice inoculated with either rabies virus-immune or normal mouse serum prior to and following SRV inoculation did not develop paralysis. Immune serum protected the mice, whereas animals inoculated with normal serum died. Central nervous system inflammatory responses in nude mice immunologically reconstituted with normal spleen cells were characterized by diffuse cellular infiltrates in the parenchyma and extensive perivascular cuffing. Perivascular infiltrates included CD8+ and CD4+ T lymphocytes and Mac-1+ macrophage-microglial cells. Inflammatory cells in the parenchyma were limited to CD8+ lymphocytes and Mac-1+ cells. These observations indicate that paralysis of SRV-infected mice is dependent on T lymphocytes. Whether injury leading to paralysis is mediated by T lymphocytes or by an influence of T lymphocytes on macrophage-microglial cells or other cells remains to be determined.

Prevention of indigenous infection of mice with Escherichia coli by nonspecific immunostimulation.

We have previously reported that the lethal toxicity of 5-fluorouracil (5-FU) in specific-pathogen-free mice is due to an intestinal infection with indigenous Escherichia coli induced by the drug (K. Nomoto, T. Yokokura, Y. Yoshikai, M. Mitsuyama, and K. Nomoto, Can J. Microbiol. 37:244-247, 1991). In the present study we demonstrate that nonspecific immunostimulation is effective in the protection of mice from the lethal indigenous infection induced by 5-FU. Intravenous or subcutaneous injection of a preparation of heat-killed Lactobacillus casei YIT 9018, a potent nonspecific immunostimulant, into BALB/c mice reduced the lethal toxicity of 5-FU at doses ranging from 338 to 800 mg/kg of body weight if YIT 9018 was injected 7 to 40 days before administration of 5-FU. Systemic infection with E. coli developed in all of the 5-FU-treated control mice 7 days or more after administration of 5-FU in large doses and was accompanied by overgrowth of the bacteria in the intestinal tract. Pretreatment of mice with YIT 9018 resulted in a decreased occurrence of systemic infection with E. coli to levels of 0 to 20% and no significant changes in the population levels of E. coli in the intestinal tract during the 14 days after administration of 5-FU. The levels of leukopenia in the spleen and peripheral blood were lower, and recovery of granulocyte-macrophage precursor cells in the spleen and femur began earlier in the treated animals than in the 5-FU-treated controls. Intravenous transfusion of syngeneic normal bone marrow cells or spleen cells into the mice at an early period after administration of 5-FU diminished markedly the occurrence of the lethal indigenous infection, suggestion that an earlier recovery from chemotherapy-induced myelosuppression is important in the mechanisms of protection of the host from the infection.

Natural cytotoxic T cells responsible for anti-CD3-induced cytotoxicity in mice.

T cells obtained from normal mouse spleen cells showed significant cytotoxic activity against Fc receptor positive tumor cells in the presence of anti-CD3 monoclonal antibody (mAb). This activity was designated as natural cytotoxic T cell (NCT) activity and compared with natural killer (NK) activity. Considerable levels of NCT activity were detected in mouse strains with both high and low NK activity. NCT cells were distributed in both lower and higher density fractions of Percoll discontinuous density gradients, while NK cells were enriched in the lower density fraction of Percoll gradients. Moreover, NCT activity was resistant to in vivo anti-asialo GM1 treatment, in contrast to NK cells. These results indicate that NCT cells, which have different characteristics from NK cells, are present in normal, nonimmunized mouse spleen cells. Unexpectedly, CD4+ T cells sorted from normal mouse spleen T cells revealed significant NCT activity, as did CD8+ T cells. It was also demonstrated that NCT cells require the LFA-1 molecule to lyse tumor cells in the presence of anti-CD3 mAb.

Yersinia enterocolitica produces superantigenic activity.

We have recently observed that antigenic preparations from Yersinia enterocolitica are capable of inducing strong proliferative responses in normal murine spleen cell cultures. As a consequence of this observation, we evaluated whether Yersinia-derived Ag possess superantigenic activity. Stimulatory activity can be found in culture supernatants, as well as membrane and cytoplasmic fractions of Y. enterocolitica. Cell depletion studies indicate that the primary responding cell is a CD4+ T cell, which requires the presence of APC for responsiveness to Y. enterocolitica Ag. Furthermore, these APC must express MHC class II Ag, as evidenced by the fact that either antibody depletion of class II+ APC or addition of anti-class II antibodies (that block class II Ag on the surface of APC) eliminates the proliferative response. Evaluation of TCR usage by BALB/c T cells responsive to Y. enterocolitica revealed that those T cells bearing V beta 3, 6, and 11 and possibly 7 and 9 were expanded after exposure to Y. enterocolitica Ag preparations. By using a panel of T cell hybridomas, we have shown that hybridomas bearing V beta 3, 7, 8.1, 9, and 11 but not 2, 8.2, 8.3, and 13 respond to Yersinia. When cytoplasmic fractions of Y. enterocolitica were subjected to column chromatography, proliferative activity was enriched approximately 27-fold, and the elution characteristics of the active material suggest that it possesses hydrophobic regions and is, therefore, probably membrane associated. These data indicate that Y. enterocolitica produces antigenic material that has properties consistent with those of T cell superantigens.

Cellular responses to phase fractions of Trypanosoma lewisi.

Infections by Trypanosoma lewisi are characterized by hyporesponsiveness of the immune system during the early phase of parasitaemia. Blastogenic response of normal rat spleen cells to amphiphilic and hydrophilic components of Triton X-114 solubilized epimastigote forms of T. lewisi which characterizes the early phase of infection showed that suppression of responses to mitogens Concanavalin A (Con-A) and lipopolysaccharide (LPS) occurred exclusively with the amphiphilic fraction that consists of integral surface membrane constituents. The Con-A-induced suppression by the amphiphilic constituents was ablated by addition of exogenous IL-2 or by the removal of the adherent cell population in the cultures. This suggests that the integral surface membrane components play an important regulatory role in infections with Trypanosoma lewisi, through complex mechanisms that probably involve the B cells and suppressor macrophages; the suppressor macrophages probably produce a suppressor factor that inhibits the proliferation of T helper cells and subsequently the production of interleukin-2.

Histamine and calcium are independently regulated intracellular mediators of lymphocyte mitogenesis

In addition to cytosolic calcium ([Ca 2+] i), intracellular histamine has been implicated as a mediator of mitogenesis in normal mouse spleen cells stimulated by the plant lectin, concanavalin (Con) A. We have linked the growth-promoting action of this amine with its binding to distinct intracellular sites, designated H IC, in microsomes and nuclei and shown that the proliferative response of lymphocytes can be blocked by antagonizing the binding of histamine to H IC by N,N-diethyl-2-[4-(phenylmethyl)phenoxy]ethanamine. HCl (DPPE), or by depleting intracellular histamine levels by the specific irreversible inhibitor of histidine decarboxylase, α-FMH. We now demonstrate that, at a concentration which completely inhibits both 3H-histamine binding to H IC and 3H-thymidine incorporation into DNA, DPPE fails to block the acute (30 seconds) rise in [Ca 2+] i in spleen cells exposed to Con A. Conversely, the calcium channel antagonist, verapamil, suppresses the Con A-induced rise in [Ca 2+] i at a concentration which correlates with its inhibition of thymidine incorporation into DNA, but does not prevent histamine synthesis or bind to H IC. Thus, in Con A-stimulated lymphocytes, intracellular histamine and calcium appear to be independently regulated, but essential, mediators of the proliferative response.

Nitric oxide mediates the depression of lymphoproliferative responses following burn injury in rats

Among the multiple biological activities of nitric oxide (NO) an immunoregulatory role consisting of the mediation of macrophage suppressive activity, has recently been evidenced. In the present work, we investigated whether NO was implicated in immunosuppression following burn injury. Thermal injury affecting 20–25% of the total body surface area in Wistar rats, provoked a biphasic depression of spleen cell proliferative responses to phytohemagglutinin (PHA) and concanavalin A (Con A). We show that these responses are fully restored on day 4 after, burn and only by 55% on day 10 when spleen cells were stimulated in the presence of N G-monomethyl- l-arginine (NMMA), a potent inhibitor of the macrophage inducible NO synthase. Nitrite content in culture supernatant, as an indicator of NO release (in the absence of NMMA), was significantly augmented in Con A-stimulated spleen cells from burned rats as compared to normal spleen cells. These results show for the first time that NO is implicated, at least in part, in an immunosuppression state which is not linked to an infectious disease. nitric oxide / burn injury / immunosuppression