Failure of ovalbumin associated with allogeneic spleen ceels to stimulate proliferation of lymph node cells of immune mice.

Ovalbumin-pulsed spleen cells were found to stimulate thymidine uptake of lymph node cells of syngeneic mice immunized with ovalbumin in complete Freund's adjuvant after treatment of spleen cells with Mitomycin C but not after heating the spleen cells at 56degrees for 30 min. Ovalbumin-pulsed spleen cells of allogeneic mice failed to stimulate the immune lymph node cells more than unpulsed cells, although a net increase in the thymidine uptake above the allogeneic stimulation was observed when free ovalbumin was added to the mixed culture. To eliminate the high background of the mixed lymphocyte reaction, F1 mice were made chimeric with bone marrow of one of the parental strains. Using lymph node cells of the immunized chimeras, the stimulation by pulsed spleen cells was much greater when antigen was presented on cells of the parental strain used for bone marrow injection than when presented on cells of the other parental strain.     

Effect of stimulating antibody formation under the influence of bone marrow cells in vivo]

Injection of intact bone marrow cells to mice at the peak of the secondary immune response results in a 2.4-fold increase of the number of antibody-forming cells in the regional lymph node. Preliminary injection of bone marrow cells to donors of the immune lymph node cells decreases the stimulation effect of antibody formation when the lymph node cells are subsequently cultivated with the intact bone marrow cells. The data obtained demonstrate the cell interaction at the level of mature antibody producers in vivo.     

Elevated cyclic AMP levels in mouse lymphoid tissue after stimulation by cholera enterotoxin in vitro (38468)

Addition of CT to suspensions of thymus, lymph node, spleen, or bone marrow cells in vitro resulted in a marked accumulation of cAMP with peak levels occurring 4-5 hr after incubation of cells with CT. Thymus cells showed the largest increase in cAMP, approximately 40-fold at 10 ng/ml CT. Bone marrow cells accumulated the least cAMP (1.5x), while intermediate levels were observed for spleen and lymph node cells (10-12x). Antiserum to CT prevented stimulation of increased cAMP levels. Repopulation studies using X-irradiated mice also showed that thymus-derived spleen cells accumulated more cAMP/10-7 cells than spleen cells from recipients given spleen or marrow cells. Spleen cells from athymic (nu/nu) mice also responded much less than did spleen cells from normal mice. Thymocytes appeared to bind CT to a greater degree than bone marrow cells. Spleen and lymph node cell suspensions also contained CT-binding cells and the number of CT-binding cells in these peripheral lymphoid tissues appeared approximately equal to the summation of the numbers observed in thymocyte and bone marrow cell suspensions. Stimulation of cAMP in lymphoid cells, especially thymocytes, by CT provides a pharmacological tool to investigate the mechanism and role of this nucleotide in the early events of antibody formation.     

Tissue distribution of humanized anti-human Fas monoclonal antibody (R-125224) based on fas antigen-antibody reaction in collagen-induced arthritis monkeys

R-125224 is a novel humanized anti-human Fas monoclonal antibody prepared from HFE7A, which is a monoclonal mouse IgG anti-Fas antibody, by grafting the mouse complementarity-determining regions to human IgG, presently being developed as a drug for treatment of rheumatoid arthritis. In the present study, we investigated the tissue distribution of radioactivity in cynomolgus monkeys with collagen-induced arthritis at the arm joint (CIA monkeys) after intravenous administration of (125)I-labeled R-125224 ((125)I-R-125224). At 168 h after administration, we observed a high radioactivity in the bone marrow, thymus, lungs, liver, adrenals, spleen, ovaries, axillary lymph node and mesenteric lymph node compared to the radioactivity in the plasma. These tissues and organs in human are reported to express Fas antigen, strongly suggesting a specific binding of (125)I-R-125224 to Fas antigen in cynomolgus monkeys. Semi-micro autoradioluminograms of arm joint showed that radioactivity is detected in pharmacological site, such as the bone marrow and articular cavity at 168 h. The kinetics in binding of R-125224 to activated monkey lymphocytes and hepatocytes was also investigated. K(d) values of activated lymphocytes and hepatocytes were 1.51+/-0.08 and 0.60+/-0.11 nM, respectively, which were similar to those values in human lymphocytes and hepatocytes, demonstrating that R-125224 cross-reacts with the monkey Fas antigen.     

Administration of IL-7 to normal mice stimulates B-lymphopoiesis and peripheral lymphadenopathy.

Normal mice were injected with IL-7 (500 ng, twice daily) for various periods of time up to 6 days and the cellularity and phenotypic composition of the thymus, spleen, lymph node, and bone marrow was assessed. After 6 days of treatment, significant increases in the cellularity of the spleen, lymph node, and bone marrow were observed which returned to the normal range within 6 days after cessation of treatment. After 3 days of IL-7 treatment, increased numbers of B220+/surface(s) IgM- bone marrow cells were observed. After 6 days of treatment, these numbers were still further increased and a significant population of B220+/sIgM- cells were observed in the spleen. The numbers of c mu+/sIgM- cells were also increased in the IL-7-treated mice. Analysis of the expression of B220 and BP-1 on the sIgM- bone marrow cells revealed that the B220+/BP-1+ population was dramatically increased after IL-7 treatment and the size of the B220+/BP-1- population did not differ from control mice. The pre-B cell numbers declined rapidly after the cessation of IL-7 treatment. After 6 days of IL-7 treatment, a twofold increase in the number of B cells in the spleen and lymph node was observed. The B cell numbers declined to normal values within 6 days after the cessation of IL-7 administration. In the spleens of the IL-7-treated mice, there was a significant increase in the number of B cells with an immature phenotype (e.g., sIgMhi/sIgDlo, decreased levels of Ia and FcR expression). The numbers of CD8+ and CD4+ T cells were also increased in the lymph node and spleen of the IL-7-treated mice. These numbers declined to normal levels after the cessation of IL-7 treatment.     

Corticosteroids and the humoral immune response of mice. II. Enhancement of bone marrow antibody formation to lipopolysaccharide by high doses of corticosteroids.

The effect of injection of the synthetic corticosteroid dexamethasone sodium phosphate upon the primary response to Escherichia coli lipopolysaccharide (LPS) was studied in mouse spleen and bone marrow. Daily corticosteroid injections, starting 1 day before immunization with LPS, could suppress the anti-LPS plaque-forming cell (PFC) response in the spleen. The higher the dose of corticosteroids, the more the splenic PFC response was suppressed. On the other hand, the bone marrow PFC response showed a dose-dependent enhancement after corticosteroid injections. This effect was maximal when tested 7 days after antigen injection, and constituted a 3- to 15-fold increase after daily injection of 16 mg dexamethasone/kg body wt. The same effect was found in genetically athymic nude mice, showing that the corticosteroid-mediated enhancement of the anti-LPS PFC response in the bone marrow is not due to elimination of T suppressor cells. Probably the differential effect of corticosteroids upon antibody formation in spleen and bone marrow is due to a redistribution of B-lineage cells, with a resulting accumulation in the bone marrow.     

Cell surface antigens expressed by subsets of pre-B cells and B cells

A large number of monoclonal antibodies, produced by immunizing rats with mouse pre-B cell lines, have been analyzed for their ability to define cell surface antigens expressed by B cells at early stages of differentiation. Whereas many antibodies recognized antigens on pre-B cell lines, only two clones detected cell surface antigens that were distinguished by their restricted distribution among a panel of continuous cell lines and cells from various tissues. Monoclonal antibody clone AA4.1 recognized a cell surface antigen found on all pre-B lymphomas and on one of three B lymphomas tested. This antigen was found on cells at highest frequency in the bone marrow. Adult spleen and fetal liver also have detectable numbers of AA4.1+ cells. Cells that did not express this antigen include plasmacytomas, two of three B lymphomas, T lymphomas, a stem cell line, adult liver, brain, thymus, and lymph node cells. Clone GF1.2 detected an antigen on some pre-B cell lines, one of three B lymphomas tested, and a small fraction of cells from adult bone marrow, spleen, lymph node, and fetal liver. Plasmacytomas, some pre-B lymphomas, two B lymphomas, T lymphomas, adult liver, brain, and thymus cells were negative. In adult bone marrow, AA4.1 bound to all cytoplasmic IgM+ pre-B cells, whereas GF1.2 detected one-half of these cells. Both antibodies recognized approximately 50% of surface IgM+ (sIgM+) bone marrow cells. A small population of bone marrow cells lacking any detectable Ig (surface or cytoplasmic) also reacted with these antibodies. Depletion of AA4.1 or GF1.2 antigen-bearing cells from bone marrow reduced the ability of bone marrow B cells to respond to LPS by 50 to 65%. Experiments with a cloned pre-B lymphoma demonstrate that AA4.1+ pre-B cells become sIgM+ GF1.2+ B cells after activation with LPS. These antibodies recognize cell surface determinants with restricted distribution among the B lymphocyte lineage because they detect antigens displayed by normal and transformed immature B lymphocytes.     

Effective delivery of a lipophilic 6-chloro-2',3'-dideoxyguanosine (6-Cl-ddG) into rat lymphoid tissues.

Lipophilic 6-chloro-2',3'-dideoxyguanosine (6-Cl-ddG) was evaluated for its improved lymph node delivery by comparison with the parental nucleoside (ddG) in vitro and in vivo. The in vitro studies with rat plasma, lymph node homogenate and stomach content indicated that 6-Cl-ddG converted to ddG more effectively in the lymph node homogenate and that 6-Cl-ddG was more stable than ddG in the stomach content. In an in vivo study, plasma and lymph nodes were collected from rats after a subcutaneous or oral administration of 6-Cl-ddG or ddG. With the subcutaneous administrations of the drugs, the area under the concentration time-curve (AUC) value in the plasma for converted ddG following a 6-Cl-ddG administration was less than half the value for ddG following a ddG administration but the converted ddG AUC values in the lymph nodes due to 6-Cl-ddG administration were 1.4- to 2.0-fold higher than the ddG AUC values due to ddG administration. Moreover, with the oral administrations, the converted ddG AUC value in plasma after a 6-Cl-ddG administration was 3-fold higher than ddG after a ddG administration, and high levels of converted ddG were detected in the lymph nodes, but no ddG was detected in the lymph node following ddG administration. These results suggest that lipophilic 6-Cl-ddG is a useful prodrug for delivering ddG into the lymph nodes by oral administration.     

Intestinal lymphoid tissue changes in the cortisone-treated Wistar rat

This paper continues the previous investigation of the Department on the lymphoid tissue of central and peripheral lymphoid organs under different experimental conditions. The morphological reactional modalities of the intestinal lymphoid tissue in the male Wistar rat were followed up under endocrine imbalance conditions following cortisone administration. Seven days after administration cortisone induced a hyperplasia of the intestinal lymphoid tissue in parallel with a depletion of the lymph node parenchyma and a hypercellularity of bone marrow. After a 6-week postcortisone interval, the lymphoid tissue showed changes corresponding to a cellular depletion in parallel with the restoration of the lymph node parenchyma and a normocellular bone marrow.     

Factor producing lysis of thymus-derived cells in vitro by specific antigen.

Lymph node cells of immunized mice were lysed by specific antigen in vitro. These cells were not lysed by antigen after washing them four times with Hanks' solution. The factor lysing lymph node cells and thymus cells of normal mice in the presence of the specific antigen was found in the supernatant of the lymph node cell suspension of immunized mice. Bone marrow cells were also lysed by the factor and specific antigen only after preincubating the cells in extracts of thymus or lymph nodes of normal mice. When active supernatants were fractionated by gel filtration on Sephadex G-200, the active material eluted with molecules of approximately 20,000–45,000 MW. This factor was homogeneous on electrophoreses in polyacrylamide gels and detected in the prealbumin zone.     

Administration of IL-7 to mice with cyclophosphamide-induced lymphopenia accelerates lymphocyte repopulation

Lymphopenia was induced in mice by a single injection of cyclophosphamide. IL-7 or a control protein were administered to the mice twice daily and the cellularity and composition of the spleen, lymph node, bone marrow, and thymus were determined at various time points thereafter. In comparison to the control cyclophosphamide-treated mice, animals receiving cyclophosphamide and IL-7 had an accelerated regeneration of splenic and lymph node cellularity. There was no significant difference in the rate of recovery of the bone marrow and thymus of the control and IL-7-treated mice. Assessment of the pre-B cell compartment revealed a dramatic increase in total pre-B cell numbers in the spleen and bone marrow of the IL-7-treated mice as measured by both flow microfluorimetry and a pre-B cell colony-forming assay. This was followed in a few days by a significant increase in surface IgM+B cell numbers to levels above normal values in both the spleen and lymph node. IL-7 administration to cyclophosphamide-treated mice also resulted in an accelerated recovery of peripheral CD4+ and CD8+ cell numbers in the spleen and lymph node. The numbers of CD8+ cells were increased by twofold over normal levels in cyclophosphamide-treated mice receiving IL-7. Myeloid recovery was determined in cyclophosphamide treated mice by assessing the numbers of CFU-granulocyte-macrophage and Mac 1+ cells. There was no significant difference in myeloid recovery between cyclophosphamide-treated mice receiving IL-7 or control protein. These results suggest that administration of IL-7 after chemical-induced lymphopenia may have therapeutic benefits in shortening the period required to achieve normal lymphoid cellularity.     

Analysis of the number of normochromic erythrocytes with micronuclei in the peripheral blood of mice as a method of detecting mutagens

Cytogenic damages both in the bone marrow (5.5-fold increase in the number of cells with chromosomal aberrations) and in the peripheral blood of mice (4.5-fold increase in the frequency of micronuclear polychromatic erythrocytes and 3-fold rise in the number of micronuclear normochromic erythrocytes, as compared to the control) have been observed after a two-week administration of 0.01% cyclophosphamide with drinking water. The micronuclear test on mature erythrocytes from peripheral blood of mice can be an effective method for the identification of mutagenic properties of the factor under study during its long-term action.     

In vitro alloreactivity of mouse bone marrow lymphocytes

Before characterizing alloreactive cells of the bone marrow, it was necessary to reevaluate the alloantigen response in this tissue. The results of previous studies using the parental-F₁ system in the mixed-lymphocyte reaction (MLR) are open to question because of the recently documented proliferation of F₁ stimulator cells (W. H. Adler, T.Takiguchi, B. Marsh, and R. T. Smith,J. Immunol. 105, 984, 1970; P. F. Piguet, H. K. Dewey, and P. Vassalli, J. Exp. Med. 146, 735, 1977). The culture system was optimized for measuring the MLR of bone marrow lymphocytes enriched on sucrose density gradients. The proliferative response of the enriched fraction (BML) to 2000-R irradiated allogeneic spleen cells was three times as high as the response of unfractionated bone marrow. For maximal responses, antigen concentration had to be twice as high for the BML as for the lymph node, and in a time course study the highest [³H]TdR uptake occurred on Day 3 in BML cultures and on Day 5 in the LN. In lymph node semiallogeneic cultures stimulator cell proliferation can be disregarded, while semiallogeneic BML MLR err significantly on the high side. When BML were matched with allogeneic stimulator cells at the H-2 locus, they gave good MLR responses, provided there was a minor Mls histocompatibility locus difference, while in the lymph node the response was greatly diminished in similar mixtures. The differences in the BML and lymph node alloantigen responses with respect to antigen concentration, kinetics and susceptibility to F₁ and Mls stimulation, suggest that the bone marrow alloantigen response is mediated by a cell population that is different than alloresponsive cells in the lymph node.     

Specific activation of lymphocytes against acetylcholine receptor in the thymus in myasthenia gravis

In 13 patients with myasthenia gravis, spontaneous in vitro production of antibody to acetylcholine receptor (AChR) by thymic cells was observed in seven patients, by bone marrow cells in nine, by peripheral blood cells (PBL) in six, and by lymph node cells in nine. The rate of anti-AChR production in culture closely correlated with the serum anti-AChR level. Specific activity of the immunoglobulin (Ig) G spontaneously produced (anti-AChR/total IgG) was about 10-fold higher in the thymus than in bone marrow, peripheral blood, or lymph node cultures. Pokeweed mitogen (PWM) enhanced anti-AChR production only by PBL. With neither thymus nor lymph node cells did PWM stimulate anti-AChR production, although it greatly enhanced total IgG production. In bone marrow, it depressed both, and it appeared that the anti-AChR was derived from long-lived plasma cells that may be responsible for delaying the fall of serum anti-AChR levels after thymectomy. The results suggest that AChR-specific cells are selectively activated in the thymus, and this may help to explain the benefits of thymectomy in myasthenia gravis.     

Enhancement of infection resistance of mice infected with Salmonella typhi by factors of immune lymph nodes

Mediators, secreted by lymph node cells shortly after immunization and draining the site of the injection of the antigen, produced a nonspecific activating effect on cells of the macrophagal series. The preventive injection of immune lymph node factors induced an increase in nonspecific resistance to S. typhi TU2 [correction of Ty2] No. [correction of N]4446.     

Antibody formation in mouse bone marrow. II. Evidence for a memory-dependent phenomenon

Mouse bone marrow is barely capable of plaque-forming cell (PFC) activity in a primary response to sheep red blood cells (SRBC), while PFC activity in the secondary response to SRBC can be clearly demonstrated. This phenomenon was studied by means of cell transfer experiments.T cells, which are involved in an anti-SRBC PFC response, were shown to be very scarce in normal mouse bone marrow. This is considered to be the cause of the low PFC activity in the marrow during the primary response to SRBC.In normal mouse bone marrow precursors of IgM-PFC but not of IgG- and IgA-PFC could be found. Priming with SRBC induced the appearance of IgM-, IgG-, IgA- and T-memory cells in the marrow. These B- and T-memory cells were shown to be specific for the antigen which induced their appearance. It is thought that after a second injection of SRBC the IgM-, IgG- and IgA-memory cells can differentiate with the help of the T-memory cells within the bone marrow into IgM-, IgG- and IgA-PFC respectively.The sequence of appearance of the B-memory cells in the bone marrow was shown to be IgM-IgG-IgA.Six months after the intravenous injection of SRBC, the presence of B-memory cells could be demonstrated not only in spleen and bone marrow, but also in peripheral lymph nodes, mesenteric lymph node, Peyer's patches, thymus and blood. The increase in amount of B-memory cells was most prominent in the spleen.     

Correction or transfer of immunodeficiency due to TNF-LT alpha deletion by bone marrow transplantation.

BACKGROUND: Mice with inactivated tumor necrosis factor (TNF) and lymphotoxin alpha (LT alpha) genes have profound abnormalities of the immune system including lymphocytosis, lack of lymph nodes, undifferentiated spleen, hypoimmunoglobulinaemia, and defective Ig class switch. Here, we asked whether this phenotype is due to incompetent lymphohemopoietic progenitors or to a defective environment. MATERIALS AND METHODS: Lethally irradiated TNF-LT alpha-deficient and wild-type mice received bone marrow cells from either TNF-LT alpha-deficient or wild-type mice. The reconstitution and transfer of the phenotype was followed by morphological and functional analyses. RESULTS: Bone marrow cells from wild-type mice restored the synthesis of TNF and LT alpha, corrected the splenic microarchitecture, normalized the lymphocyte counts in the circulation, and repopulated the lamina propria with IgA-producing plasma cells of TNF-LT alpha-deficient mice. Furthermore, the formation of germinal centers in the spleen and the defective Ig class switch in response to a T-cell dependent antigen was corrected, while no lymph nodes were formed. Conversely, the TNF-LT alpha phenotype could be transferred to wild-type mice by bone marrow transplantation after lethal irradiation. CONCLUSIONS: These data demonstrate that most TNF- and LT alpha-producing cells are bone marrow derived and radiosensitive, and that the immunodeficiency due to TNF-LT alpha deletion can be corrected to a large extent by normal bone marrow cell transplantation. The genotype of the donor bone marrow cells determines the functional and structural phenotype of the TNF-LT alpha-deficient adult murine host, with the exception of lymph node formation. These findings may have therapeutic implications for the restoration of genetically defined immunodeficiencies in humans.     

Formation of an IgM and an IgG immune response depending on the redistribution of T- and B-subpopulations under the action of serotonin]

The syngeneic transfer of spleen cells or spleen and lymph node cells from donors with an elevated serotonin level stimulated, in comparison with the control animals, immune response in the recipients subjected to sublethal irradiation, which was manifested by an increase in the number of plaque-forming and rosette-forming cells. After the combined transfer of spleen cells and bone marrow cells from similar animals a decrease in the number of plaque-forming and rosette-forming cells was observed, while after the transfer of spleen and thymus cells the intensity of immune response remained unchanged. Serotonin was supposed to induce the redistribution of T and B cells in the non-immunized animals, so that suppressor cells migrated from the spleen and the lymph nodes to the bone marrow.