Evidence for regulation of human colonic mucosal immunoglobulin secretion by intestinal lymphoid cells

In vitro immunoglobulin secretion has been studied using isolated colonic mucosal lymphoid cell populations obtained from 41 patients with non-inflammatory intestinal disease. Cell fractions were separated into intra-epithelial and lamina propria-enriched populations. The secretion of immunoglobulins by mucosal cells appeared to be independent of mitogen stimulation. When intra-epithelial lymphocyte preparations were co-cultured with autologous lamina propria lymphocytes, the secretion of IgM was significantly depressed but that of IgA and IgG was preserved. Co-cultured of mucosal cells with autologous peripheral blood lymphocytes resulted in suppression of pokeweed mitogen stimulated and unstimulated immunoglobulin secretion. Lamina propria T cells were shown to provide helper function for the in vitro secretion of IgA and IgM but not IgG, by autologous peripheral blood B cells. Immunoglobulin secretion by lamina propria lymphocytes was shown to be partly dependent on the concentration of E-rosette forming cells. These experiments demonstrate that human colonic mucosal lymphoid cells contain specific populations of helper and suppressor cells which selectively control intestinal immunoglobulin secretion.     

Differentiation capacity of cultured B lymphocytes from immunodeficient patients

Peripheral blood lymphocytes from 27 healthy individuals and from 18 patients with a diverse spectrum of defects in humoral immunity were examined for their capacity to undergo terminal differentiation in vitro. Pokeweed mitogen induced cells from normal persons to synthesize and secrete IgM. IgG, and IgA as detected by Immunofluorescence and incorporation of [(14)C]amino acids, Lymphocytes from three boys with X-linked agammaglobulinemia were stimulated to proliferate, but did not synthesize immunoglobulin. Lymphocyte cultures from three of four patients having agammaglobulinemia with B lymphocytes produced different immunoglobulin classes in ratios similar to the in vivo distribution of classes of B lymphocytes, Lymphocytes from a dysgammaglobulinemic boy deficient in serum IgG and IgA, but who had normal numbers of IgM-, IgG-, and IgA-bearing B lymphocytes, could not be stimulated by pokeweed mitogen to make IgG and IgA. Synthesis and secretion of IgA, as well as IgM and IgG, was detected in cell cultures from each of 10 patients with isolated IgA deficiency. The results suggest that deficiencies in immunoglobulin synthesis may reflect either (a) failure to develop B lymphocytes, (b) arrested development of B lymphocytes due to intrinsic metabolic abnormalities, or (c) disturbance of factors extrinsic to the B lymphocyte which are essential for normal induction of plasma cell maturation.     

The Sézary syndrome: a malignant proliferation of helper T cells.

The Sézary syndrome is a frequently lethal disease characterized by circulating malignant cells of thymus-derived (T)-cell origin. The capacity of circulating malignant lymphocytes from patients with this syndrome to synthesize immunoglobulins and to function as helper or suppressor cells regulating immunoglobulin synthesis by bone marrow-derived (B) lymphocytes was determined. Peripheral blood lymphocytes from normal individuals had geometric mean immunoglobulin synthetic rates of 4,910 ng for IgM, 1,270 ng for IgA, and 1,625 ng for IgG per 2 X 10(6) cells in culture with pokeweed mitogen for 7 days. Purified normal B cells had geometric mean synthetic rates of 198 ng for IgM, 145 ng for IgA, and 102 ng for IgG. Leukemic cells from patients with the Sézary syndrome produced essentially no immunoglobulins. Adding normal T cells to normal B cells restored their immunoglobin producing capacity. Leukemic cells from four of five patients tested had a similar capacity to help immunoglobulin synthesis by purified normal B cells. Additionally, Sézary cells from one patient studied induced a nearly 10-fold increase in IgA synthesis by lymphocytes from a child with ataxia telangiectasia and selective IgA deficiency. Furthermore, these Sézary cells induced more than a 500-fold increase in IgG and IgA synthesis by lymphocytes from a child with Nezelof's syndrome. When Sézary cells were added to normal unfractionated lymphocytes, they did not suppress immunoglobulin biosynthesis. In addition, unlike the situation observed when large numbers of normal T cells were added to purified B cells, there was no depression of immunoglobulin synthesis at very high malignant T-cell to B-cell ratios. These data support the view that Sézary T cells do not express suppressor cell activity. The results presented in this paper suggest that neoplastic lymphocytes from the majority of patients with the Sézary syndrome originate from a subset of T cells programmed exclusively for helper-like interactions with B cells in their production of immunoglobulin molecules.     

Hyper Immunoglobulin M Immunodeficiency (Dysgammaglobulinemia): PRESENCE OF IMMUNOGLOBULIN M-SECRETING PLASMACYTOID CELLS IN PERIPHERAL BLOOD AND FAILURE OF IMMUNOGLOBULIN M-IMMUNOGLOBULIN G SWITCH IN B-CELL DIFFERENTIATION

The peripheral blood lymphocytes of nine patients with hyper immunoglobulin (Ig)M immunodeficiency were studied in an attempt to define the cellular basis of this disorder. B cells were normal in number but qualitatively abnormal in all patients. Approximately one-half of the B cell consisted of small lymphocytes (7-9 mum in diameter) bearing surface IgM and IgD, as well as C3 receptors. These cells were driven to secrete IgM but not IgG after in vitro stimulation by pokeweed mitogen. In the blood there were also large lymphocytes (10-14 mum in diameter) that possessed surface as well as intracytoplasmic IgM but lacked C3 receptors. These cells spontaneously secreted large amounts of IgM in vitro and on electron microscopy were found to be rich in rough endoplasmic reticulum. Such a subpopulation of lymphoid cells was not detected in normal peripheral blood and was unique for all patients with hyper IgM immunodeficiency studied.T cells from all patients were normal in number and in function both in vivo and in vitro and were able to generate adequate T-cell help to support IgG synthesis by normal B cells. No evidence was obtained for T cells capable of suppressing normal IgG synthesis in any of the patients after coculture with normal peripheral blood lymphocytes. The defect in hyper IgM immunodeficiency is intrinsic to B cells, which fail to switch from IgM to IgG synthesis.     

Diminished synthesis of immunoglobulin by peripheral lymphocytes of patients with idiopathic membranous glomerulonephropathy.

Some studies of animal models of serum-sickness nephritis have shown that the lesions of membranous nephropathy develop in animals exhibiting a poor antibody response to the administered antigen (if given in constant amounts). It is postulated that patients with idiopathic membranous nephropathy may share a similar characteristic, namely, a diminished capacity to produce sufficient amounts of antibody. To test this hypothesis, we examined the ability of lymphocytes isolated from 11 patients with this disorder to produce immunoglobulin (Ig)G and IgM on stimulation with a polyclonal B-cell activator, pokeweed mitogen. The peripheral blood lymphocytes (2 x 10(6) cells) from 24 normal individuals had geometric mean production rates of 1,779 ng for IgG, and 2,940 ng for IgM after 7 d of culture in the presence of pokeweed mitogen. By contrast, under identical conditions, lymphocytes from the 11 patients with membranous nephropathy produced significantly lower quantities of both immunoglobulins, with geometric mean concentrations of 511 ng for IgG and 439 ng for IgM. When lymphocytes from patients with membranous nephropathy were co-cultured with normal lymphocytes, the production of immunoglobulin by normal lymphocytes was depressed by 22-82%, suggesting that a population of suppressor cells was responsible for this disturbance in B-cell function. By co-culturing normal lymphocytes with patient lymphocytes depleted of either T cells or monocytes, the suppressor cell was identified as a monocyte.     

Evidence for the failure of IgA specific T helper activity in a patient with immunodeficiency with hyper IgM.

A 28-year-old man with immunodeficiency with hyper IgM was studied. His serum immunoglobulins were characterized by the absence of IgA and low level of IgG associated with high level of IgM. The in vitro pokeweed mitogen (PWM)-induced immunoglobulin synthesis by his peripheral blood lymphocytes was depressed completely for IgA and moderately for IgG although normal numbers and proportions of IgA- and IgG-bearing lymphocytes (on the surface) were demonstrated in the peripheral blood. His T cells could not help IgA production by either normal or his own B cells, whereas they were more efficient helpers for IgM production by his own B cells than were normal T cells. In addition, his B cells produced no IgA and less IgG than normal B cells when co-cultured with normal T cells. This suggests that the failure of IgA specific T helper activity and the maturation arrest of B cells at the stage of the switchover from IgM- to IgG- and/or IgA-producing cells may be the major cause for the hypogammaglobulinaemia in this patient. It is uncertain whether the maturation arrest of B cells is secondary to the T cell defect in helper function for IgA production.     

Further studies on the influence of interferon on pokeweed mitogen induced Ig-synthesis in vitro

Preincubation with pure interferon beta, but not partially purified interferon alpha, increased immunoglobulin production from non-fractionated peripheral blood mononuclear cells stimulated by pokeweed mitogen. Preincubation of B lymphocytes, but not T lymphocytes or monocytes, with pure interferon beta also increased immunoglobulin synthesis. It is concluded that interferon has a direct effect on B lymphocytes in enhancing immunoglobulin production.     

Disorders of B cells and helper T cells in the pathogenesis of the immunoglobulin deficiency of patients with ataxia telangiectasia

The pathogenesis of the immunoglobulin deficiency of 20 patients with ataxia telangiectasia was studied using an in vitro immunoglobulin biosynthesis system. 10 patients had no detectable IgA in their serum as assessed by radial diffusion in agar and 3 had a reduced serum IgA concentration. The peripheral blood mononuclear cells of 17 of the patients and 17 normal controls were cultured with pokeweed mitogen for 12 d and the immunoglobulin in the supernatants measured. The immunoglobulin synthesis was below the lower limit of the normal 95% confidence interval for IgM in 5 patients, for IgG in 8, and for IgA in 14. The mononuclear cells from 9 of the 10 patients with a serum IgA concentration less than 0.1 mg/ml failed to synthesize IgA in vitro. None of the patients manifested excessive suppressor cell activity. All patients had reduced but measurable helper T cell activity for immunoglobulin synthesis by co-cultured normal pokeweed mitogen-stimulated B cells (geometric mean 22% of normal). Furthermore, the addition of normal irradiated T cells to patient peripheral blood mononuclear cells led to an augmentation of IgM synthesis in 15 of 17 and to increased IgG synthesis in 9 of the 17 patients studied, including 9 of the 12 patients who had synthesized IgG before the addition of the irradiated T cells. In addition, IgA synthesis was increased in all eight patients examined that had serum IgA concentrations greater than 0.1 mg/ml. These studies suggest that a helper T cell defect contributes to the diminished immunoglobulin synthesis. However, a helper T cell defect does not appear to be the sole cause since there was no IgA synthesis by the peripheral blood mononuclear cells of 9 of the 10 patients with a profoundly reduced serum IgA even when co-cultured with normal T cells. Furthermore, the cells of the nine patients with profoundly reduced IgA levels examined also failed to produce IgA when stimulated with the relatively helper T cell-independent polyclonal activators, Nocardia water soluble mitogen or Epstein-Barr virus. Taken together these data support the view that the reduced immunoglobulin synthesis of these patients is due to defects of both B cells and helper T cells. Such a broad defect in lymphocyte maturation taken in conjunction with our demonstration of persistent alpha fetoprotein production by ataxia telangiectasia patients provides support for the proposal that these patients exhibit a generalized defect in tissue differentiation.     

Suppressor-Cell Antibody in Systemic Lupus Erythematosus: POSSIBLE MECHANISM FOR SUPPRESSOR-CELL DYSFUNCTION

Circulating antibodies that could be responsible for the suppressor thymus-derived (T)-cell dysfunction in active systemic lupus erythematosus (SLE) were investigated. Sera from 14 active and inactive SLE patients were compared with a pool of 22 normal sera. All sera were adsorbed with a pool of normal platelets to exclude antihistocompatibility leukocyte antigen antibodies; with AB erythrocytes to exclude isohemagglutinins; and with a pool of normal bone marrow-derived (B) lymphocytes, monocytes, and neutrophils to deplete anti-B-cell antibodies, Fc-receptor antibodies, and antibodies directed against neutrophils or monocytes. Sera from active SLE patients were capable of inhibiting the activation of normal, blood lymphocytes by concanavalin A to become suppressor cells. The latter were assayed by coculturing the concanavalin A-activated cells with autologous lymphocytes, which were then activated with either phytohemagglutinin for proliferative response or with pokeweed mitogen for B-cell immunoglobulin (Ig) synthesis and secretion. Specific incorporation of cultures with phytohemagglutinin showed a value of 67+/-13 (mean+/-SD) for suppressor cells treated with adsorbed, active SLE sera. This value was significantly different (P < 0.001) from that of cells treated with the inactive SLE sera or with the pool of normal sera. Similar findings were seen with respect to the B-cell target parameters. Cytoplasmic Ig and IgG in supernates of cultures with pokeweed mitogen showed values of 17+/-5% and 717+/-134 ng/culture, respectively, for suppressor cells treated with the adsorbed, active SLE sera. This was significantly different from those treated with the inactive SLE sera or with the pool of normal sera. The antisuppressor-cell factor was shown to be IgG, complement independent, not cytotoxic, active at 37 degrees C and at room temperature, but not at 4 degrees C, and adsorbable with T cells.Suppressor T-cell antibody in sera of active SLE patients could be responsible for the observed suppressor T-cell dysfunction seen in active SLE. The mechanisms responsible for the induction of the antisuppressor-cell antibody are unknown.     

Effect of tamoxifen on pokeweed mitogen stimulated immunoglobulin secretion in vitro

The influence of Tamoxifen on pokeweed mitogen induced immunoglobulin (Ig) secretion of human blood lymphocytes was tested in vitro. It was observed that pretreatment of T cell enriched preparations with "therapeutic" concentrations of Tamoxifen augmented their capacity to promote IgG but not IgM secretion of untreated autologous B-lymphocytes. Cultures containing Tamoxifen pretreated B cell enriched preparations and untreated T cells exhibited reduced secretion of both IgG and IgM.     

T-cell immunoregulation in patients with inflammatory bowel disease. II. Enhanced suppressor T-cell activity in ulcerative colitis

In a recent study, we have shown that peripheral blood B cells from patients with ulcerative colitis (UC) synthesized less immunoglobulin (Ig) in co-culture with autologous T cells than normal adults' B cells. When UC patients' T cells were co-cultured with normal adults' B cells, Ig synthesis was significantly decreased as compared with normal controls. In contrast, Crohn's disease (CD) patients' B and T cells functioned normally. In the present study, the activity of suppressor T cells in patients with UC and CD was determined. Peripheral blood B and T cells with monocytes were obtained from patients and normal adults of the same age and sex, and co-cultured for 10 days with pokeweed mitogen (PWM). Suppressor T-cell function was measured in mixed co-culture assays in which graded numbers of normal or patient's T cells were added to normal adults' B and T cells with PWM. Immunoglobulins (Ig) M, G and A were measured in culture supernatants using a sensitive enzyme-linked immunosorbent assay. The quantity of Ig present in the culture supernatants was determined from a standard curve. T cells from UC patients significantly decreased immunoglobulin production by control B and T cells (IgM and IgA, p = 0.02; IgG, p = 0.01). In contrast, addition of T cells from CD patients produced no significant differences. Complement mediated, monoclonal OKT8 antibody directed cell lysis revealed that the inhibition observed with UC patients' T cells in co-culture was due to a T8+ suppressor T cell. The degree of inhibition of immunoglobulin synthesis did not correlate with disease activity, duration of illness, location of disease, or corticosteroid treatment. Thus, patients with ulcerative colitis display enhanced suppressor T-cell activity in peripheral blood while patients with CD show normal helper and suppressor T-cell functions. These results provide evidence supporting a role for altered immunoregulatory activity in the pathogenesis of ulcerative colitis.     

Immunoglobulin production induced in vitro by glucocorticoid hormones: T cell-dependent stimulation of immunoglobulin production without B cell proliferation in cultures of human peripheral blood lymphocytes.

The direct effects of steroid hormones on the production of immunoglobulins and DNA synthesis by human T and B lymphocytes was evaluated in cultures of peripheral blood mononuclear cells. As detected by a reverse hemolytic plaque assay, the addition of 0.1 mM to 10 nM hydrocortisone to lymphocytes in culture in the absence of other stimulants or mitogens, resulted in the dramatic induction of immunoglobulin production with responses comparable to those seen in similar cultures stimulated with pokeweed mitogen. Steroid-stimulated immunoglobulin production was first seen after 48 h and peaked at 8-10 d of culture. The production of IgG, IgA, and IgM was induced following incubation with steroid. Glucocorticoids, but not estrogens or androgens, were capable of mediating this effect, and only compounds with affinity for the glucocorticoid receptor were active. The induction of immunoglobulin production was dependent on both T cells and monocytes; cultures depleted of either cell type did not produce immunoglobulin when stimulated with glucocorticoid hormones. Proliferation of B cells or T cells could not be detected by [3H]thymidine incorporation or total cell recovery from steroid-stimulated cultures, even though such cultures demonstrated marked increases in immunoglobulin production. The mechanism responsible for this functional maturation of B cells to become high rate immunoglobulin producing cells is as yet undefined, although it appears to involve more than merely steroid mediated inactivation of suppressor T cells.     

Synthesis of antibodies to hepatitis B virus by cultured lymphocytes from chronic hepatitis B surface antigen carriers

It has been postulated that host immune defects are responsible for the development and persistence of the hepatitis B surface antigen (HBsAg) carrier state. The nature of these defects is unknown, but the absence of a readily detectable antibody response to HBsAg (anti-HBs) may be important. The synthesis of both anti-HBs and antibody to hepatitis B core antigen (anti-HBc) in cultures containing peripheral blood mononuclear cells from chronic HBsAg carriers and from control (antibody-positive) patients was measured in the presence of pokeweed mitogen. Similar amounts of polyclonal IgG and IgM were synthesized by cultures containing lymphocytes from chronic carriers and controls. Anti-HBc was detectable in lymphocyte supernatants from 2 of 20 controls and from 21 of 29 carriers. The presence of anti-HBc synthesis in vitro correlated with high serum titers of anti-HBc. In contrast, anti-HBs was detected in lymphocyte supernatants from 6 of 20 controls (predominantly in those who had high serum titers of anti-HBs) but in none of the supernatants from 29 HBsAg carriers. In order to identify the mechanisms for the lack of detectable anti-HBs synthesis by chronic HBsAg carrier lymphocytes, co-culture experiments were performed using T and B lymphocyte fractions that had been purified by affinity chromatography. B lymphocytes from carriers co-cultured with allogeneic irradiated ("helper") T lymphocytes from controls synthesized normal amounts of IgG, IgM, and anti-HBc but still did not synthesize detectable amounts of anti-HBs. In the converse experiments, B lymphocytes from controls were co-cultured with irradiated T lymphocytes from carriers. The T lymphocytes from 16 of 24 carriers augmented anti-HBs production by control B cells normally, the remaining eight did not. Finally, mixtures of control B cells and control irradiated T lymphocytes were co-cultured with T lymphocytes from chronic HBsAg carriers. 5 of 12 carriers demonstrated active suppression of anti-HBs production, and in three this suppression was specific, as IgG and IgM production remained normal. We conclude that chronic HBsAg carriers have a specific B lymphocyte defect in anti-HBs production. In addition, defects in the function of regulatory T lymphocytes may contribute to the absence of anti-HBs synthesis in some HBsAg carriers.     

Mononuclear cells in sickle cell disease: subpopulations and in vitro response to mitogens

The subpopulations of mononuclear cells and the lymphocyte proliferative capacity following mitogen stimulation were studied in 22 patients with homozygous sickle cell (SS) disease and 25 controls with a normal haemoglobin (AA) genotype. The total number of lymphocytes in peripheral blood samples was higher in SS patients compared to controls. Expressed as a percentage of total lymphocytes, the number of B lymphocytes (detected by membrane immunoglobulin fluorescence) was normal and of T lymphocytes (identified by sheep erythrocyte rosetting) was slightly reduced in SS disease. Expressed in absolute numbers, both B and T lymphocytes were increased. Lymphocyte proliferation measured by tritium labelled thymidine incorporation following stimulation with phytohemagglutinin A, and concanavalin A was normal. Following pokeweed mitogen stimulation, thymidine incorporation was significantly increased in SS disease although normal when expressed as a stimulation index. These results do not suggest a major defect in cell mediated immunity in sickle cell disease. The number of circulating monocytes was increased in SS disease and correlated inversely with the number of reticulocytes (r = -0.58, p less than 0.005).     

Functional analysis of two human T-cell subpopulations: help and suppression of B-cell responses by T cells bearing receptors for IgM or IgG

Subpopulations of thymus-derived T lymphocytes bearing receptors for either IgM or IgG molecules were isolated from human peripheral blood. Those with receptors for IgM (T.M) provided help in a cell dose-dependent fashion for the pokeweed mitogen-induced differentiation of B lymphocytes in vitro, whereas cells with receptors for IgG (T.G) did not. T.G cells, on the hand, efficiently suppressed the differentiation and proliferation of B cells in the pokeweed system in the presence of helper T.M cells. This suppressive activity of T.G cells required prior interaction of the T.G cells with immune complexes. The helper activity of T.M cells was relatively radioresistant while the suppressor activity of T.G cells was radiosensitive. The results indicate that helper and suppressor functions of human T lymphocytes in this model system are mediated by different subpopulations of T cells which can be distinguished by their ability to bind IgM or IgG immune complexes, respectively.     

Human malignant T cells capable of inducing an immunoglobulin class switch

Evidence is presented for the existence of a "switch" T cell derived from a patient with mycosis fungoides/Sezary's syndrome. The serum immunoglobulin profile in this patient revealed high IgG and IgA but no detectable IgM. Peripheral blood mononuclear cells from this patient secreted only IgG and IgA in the presence of pokeweed mitogen. T cells (Trac) co-cultured with normal allogeneic non-T cells and pokeweed mitogen resulted in only IgG and IgA PFC, with little or no IgM secretion. There was no evidence of active suppression of IgM. Rather, these T cells appeared to induce an Ig class switch from IgM to IgG and IgA, when co-cultured with mu+ tonsillar B cells. Further evidence was obtained using mononuclear cells derived from a patient with immunodeficiency and hyper-IgM, a syndrome characterized by a lack of IgG and IgA secretion. The addition of Trac cells to either peripheral blood mononuclear cells or non-T cells from a patient with hyper-IgM syndrome resulted in new secretion of IgG, with a concomitant decrease in IgM secretion, whereas control T cells were not effective in inducing secretion of any isotype other than IgM. Isolated Tac+ T cells from Trac appear to be responsible for this effect.     

Immunoregulation in humans: control of antitetanus toxoid antibody production after booster immunization.

Booster immunization of normal individuals with soluble tetanus toxoid resulted in the ability of the individuals' peripheral blood lymphocytes to synthesize immunoglobulin (Ig)G antitetanus toxoid antibody in vitro when stimulated by pokeweed mitogen. The capacity for this in vitro antitetanus toxoid antibody response developed within 14 days after booster immunization, reached a peak between days 36--50, and disappeared by day 60. The inability of pokeweed mitogen to stimulate antitetanus toxoid antibody synthesis in vitro before booster immunization was not due to excess suppression by thymus-derived (T) lymphocytes but reflected insufficient numbers of functionally specific helper T lymphocytes and bone marrow-derived (B) lymphocytes. Antigen-specific T-lymphocyte suppression and decreased B-lymphocyte function were associated with the observed reduction of in vitro synthesis of antitetanus toxoid antibody from 20--60 days post-immunization. The in vitro kinetics of antitetanus toxoid antibody synthesis paralleled the synthesis of total IgG in that stimulation by pokeweed mitogen was required and that antibody secretion into the medium initiated by day 4 and increased through day 9.     

Immunoregulatory T Cell Function in Multiple Myeloma

Multiple myeloma is a malignancy characterized by uncontrolled monoclonal B cell differentiation and immunoglobulin production. In most instances, there is concomitant reduction in polyclonal differentiation and immunoglobulin synthesis both in vivo and in vitro. In in vitro pokeweed mitogen-induced B cell differentiation assays, proliferation and polyclonal immunoglobulin secretion optimally requires T cell help and can be inhibited both by monocytes and suppressor T cells. Helper function and monocyte-mediated suppression are relatively radio-resistant whereas T suppressor function is sensitive to 2,000 rad x-irradiation. We have examined myeloma T cell subset function in this assay using recombinations of isolated patient and normal B cells, T cells, and T cell subsets. Monocytes were removed by a carbonyl iron ingestion technique, normal and myeloma T cells were fractionated on the basis of Fc receptors for immunoglobulin (Ig) G (Tγ) or IgM (Tμ or T non-γ), and proliferation and IgG secretion after co-culture determined by [³H]thymidine incorporation and radio-immunoassay, respectively. Myeloma B cells demonstrate quantitatively and qualitatively normal blastogenic responses and are appropriately regulated by either autologous or allogeneic T helper and suppressor subsets. Despite normal proliferation, however, myeloma B cells remain deficient in subsequent differentiation and immunoglobulin secretion even when co-cultured in the absence of monocytes or suppressor T cells and the presence of normal helper cells. Myeloma T cell populations, in contrast, are entirely normal in helper capacity over a range of T:B ratios but are markedly deficient in radiosensitive and concanavalin A-induced suppressor activity. T suppressor cell dysfunction in multiple myeloma is apparently due to a deficit in the T non-γ suppressor subset, whereas Tγ cells, although proportionately reduced, are functionally normal. This unique T suppressor deficit reflects the heterogeneity of suppressor mechanisms in this disease and may represent a compensatory response to the monoclonal proliferation or the involvement of regulatory T cells in the pathogenesis of the malignancy.     

Polyclonal activation of human peripheral blood B lymphocytes by formaldehyde-fixed Salmonella paratyphi B. I. Immunoglobulin production without DNA synthesis

A "new" polyclonal activator of human peripheral blood B cells, formaldehyde-fixed Salmonella paratyphi B, is described. This bacterium does not stimulate cell proliferation as measured by incorporation of tritiated thymidine but does stimulate a subpopulation of B cells to secrete large amounts of IgM, IgG, and IgA in 7-day cell cultures. The immunoglobulins (Ig) produced by cells responding to S. paratyphi B are not specific antibodies against the bacterial antigens. In comparison with other B cell activators (pokeweed mitogen, Staphylococcus aureus Cowan I, and lipopolysaccharide), S. paratyphi B stimulation produced greater amounts of IgM but less IgG than pokeweed mitogen (PWM) or S. aureus Cowan I; lipopolysaccharide failed to stimulate significant Ig production on day 7 in most cases. In addition, the response to S. paratyphi apparently did not require T cell collaboration. These results suggest that the B cell subpopulation(s) responding to S. paratyphi B may be more differentiated B cells than those responding to either PWM or S. aureus Cowan I. Peripheral blood mononuclear cells from five patients with common variable immunodeficiency without evidence of abnormal suppressor T cells or monocytes failed to respond to S. paratyphi B, whereas cells from two of the same patients responded well to S. aureus Cowan I and partially to PWM. Thus, S. paratyphi B appears to be superior to other B cell activators for studies of B cell function in normal and abnormal states.     

Human b-cell differentiation. I. Analysis of immunoglobulin heavy chain switching using monoclonal anti-immunoglobulin M, G, and A antibodies and pokeweed mitogen-induced plasma cell differentiation

Monoclonal antibodies were used to examine the immunoglobulin isotypes expressed by B lymphocyte precursors of IgM, IgG, IgA, and IgA2 plasma cells. Plasma-cell differentiation was induced by the addition of pokeweed mitogen to cultures of blood mononuclear cells. Anti-mu, - gamma, -alpha, and -alpha 1 antibodies were used in some experiments to inhibit differentiation of B lymphocytes bearing these heavy chain isotypes, and for selective removal of B lymphocyte precursors before culture with pokeweed mitogen in other experiments. Three major subpopulations of B lymphocyte precursors were identified: (a) a subpopulation of surface (s) IgM+ precursors of IgM plasma cells that did not express IgG or IgA isotypes, (b) a subpopulation of sIgG+ precursors of IgG plasma cells of which approximately one-half bore some IgM and none had detectable IgA receptors, and (c) a subpopulation of sIgA+ precursors of IgA plasma cells; one half of these precursors could be shown to express functional IgM receptors but none were found to express IgG receptors. The sIgA subpopulation could be further subdivided into sIgA1+ precursors of IgA1 plasma cells and IgA1- negative precursors of IgA2 plasma cells. These results suggest that normal human B cells can switch from mu directly to each of the other heavy chain isotypes, and that these represent the main switch pathways.