Salmonella typhimurium mitogen induces proliferation of human B lymphocytes

The maturation of human B lymphocytes can be described as a sequence of activation, proliferation, and differentiation into immunoglobulin-secreting cells. A variety of mitogens which are T cell dependent or independent have been employed to study this process. These moieties generally induce B-cell activation and proliferation followed by differentiation, making the study of initial events difficult. This study characterizes the mitogenic activity of Salmonella typhimurium mitogen (STM), a protein fraction of S. typhimurium. Glass-nonadherent peripheral blood lymphocytes were rosetted with affinity-purified rabbit anti-human F(ab')2-coupled ox erythrocytes and separated on a Ficoll-Hypaque gradient. This population of B lymphocytes, when cultured in dilutions of STM showed dose-dependent proliferation by [3H]thymidine incorporation. Maximal proliferation occurred on Day 7 using STM at 100 micrograms/ml (control, 5692 +/- 1704 cpm; STM, 58,541 +/- 5655 cpm). On Day 7 the percentage of blast cells by Giemsa stain was 14 +/- 4% in control cultures and 52.5 +/- 8.7% with STM. ELISA quantitation of IgG and IgM in culture supernatants revealed no secretion above unstimulated controls. When B lymphocytes were enriched by a negative selection technique, significant proliferation was not observed. STM is a novel B lymphocyte mitogen which induces proliferation but not activation or differentiation of human B lymphocytes into immunoglobulin-secreting cells.     

Selective activation of human B-lymphocytes by suboptimal doses of pokeweed mitogen (PWM). Quantitation and ultrastructure of the stimulated cells

The activation and differentiation of human peripheral blood lymphocytes, by various doses of pokeweed mitogen (PWM) were studied in vitro by thymidine uptake and electron microscopy. Quantitative and morphological observations on B-cell depleted and unfractionated lymphocyte populations indicated that B-cells were rapidly activated and differentiated to plasmablasts and plasmacytes by suboptimal doses of PWM. In contrast, B-depleted lymphocyte cultures showed a significant delay in thymidine incorporation and transformation rate. At high doses of PWM both B-cell depleted and unfractionated lymphocyte cultures had approximately the same levels and kinetics of thymidine incorporation and transformation rate. Differentiation to plasmacytes was not observed in B-depleted lymphocyte preparations.     

Properties and activities of aminopeptidases in normal and mitogen-stimulated human lymphocytes.

Human peripheral lymphocytes were found to contain at least two distinct aminopeptidases, designated cytosol aminopeptidase and microsomal aminopeptidase, which differed from one another with respect to intracellular localization, substrate specificity, metal-ion activation, Km value and electrophoretic mobility. No change in these aminopeptidase activities was observed in cultured lymphocytes in the absence of mitogen throughout the cultivation period. The addition of phytohaemagglutinin or concanavalin A to the culture medium caused, in dose-dependent manner, a significant increase in cytosol aminopeptidase activity in lymphocytes. On the other hand, no increase in microsomal aminopeptidase activity was observed under the same conditions. The biochemical properties of aminopeptidases in stimulated cultured lymphocytes were identical with those of the enzymes in peripheral lymphocytes and unstimulated cultured lymphocyte. The phytohaemagglutinin dose-response curves for lymphocyte activation as measured by the DNA synthesis rate and for cytosol aminopeptidase activity were observed to be similar. However, when DNA synthesis was temporarily blocked by hydroxyurea, the rate of increase of aminopeptidase activity was unaffected. Pokeweed mitogen only slightly increased the cytosol aminopeptidase activity in cultured lymphocytes, although the lymphocytes were highly activated.     

Effects of mitogenic stimulation on lymphocyte alpha-D-mannosidases

Three types of alpha-D-mannosidase are present in human and murine lymphocytes. Their levels increased substantially when the cells were activated by T-cell mitogens, concanavalin A (Con A) and phytohaemagglutinin (PHA), and in the murine cells also by lipopolysaccharide (LPS), a B-cell mitogen. The intracellular localization of the alpha-D-mannosidases in the non-stimulated and activated murine cells was investigated by fractionation of lymphocyte lysates on colloidal silica (Percoll) and discontinuous sucrose gradients. In both types of cell, an enzyme having optimal activity at neutral pH was obtained in the cytosolic fraction and another alpha-D-mannosidase most active at an intermediate pH was obtained partly in membrane-bound form. In contrast, an acidic alpha-D-mannosidase, which was particularly elevated in the activated murine spleen cells, had a distribution in these lymphoblasts which was markedly different from that in non-stimulated lymphocytes. In the latter, the major proportion of the activity was obtained in a cytosolic fraction and the remainder in a particulate fraction of light density, whereas the enzyme in activated lymphocytes was distributed between vesicles of light and heavy density comparable with lysosomal organelles. Moreover, the acidic alpha-D-mannosidase still remained membrane bound even when cell lysates were prepared under hypotonic conditions which disrupt lysosome integrity. These results suggest that lymphocyte activation involves either stabilization of fragile lysosomes present in resting cells or de novo synthesis of lysosome-like structures. The acidic alpha-D-mannosidase present within isolated, intact lysosomes was found to be in a form, A, whereas a different form, B, was most prominent in whole-cell extracts of both types of lymphocyte.(ABSTRACT TRUNCATED AT 250 WORDS)     

The role of monocytes in human lymphocyte activation by mitogens.

Studies were performed to determine the role of monocytes in human lymphocyte activation by mitogens. Velocity sedimentation at 1 x G in a new apparatus was utilized to obtain highly purified lymphocyte fractions (LF) nearly free of monocytes (0.02 to 0.4%) and a fraction (MF) enriched for monocytes (64 to 92%). The average peak responses of the lymphocyte fractions to phytohemagglutinin, concanavalin A, and pokeweed mitogen were 19, 10, and 9% of the responses achieved with unfractionated lymphocyte cultures containing approximately 20% monocytes. These changes were not attributable to altered dose requirements. When mitomycin-C-treated MF cells were used to reconstitute LF cultures, it was found that 4% monocytes fully restored the response to phytohemagglutinin whereas 8 to 16% monocytes were required for a normal response to the other mitogens. Higher numbers of MF cells produced supranormal responses, with 35 to 50% monocytes resulting in the optimal stimulation. Allogeneic monocytes were able to fully reconstitute the response of LF, and 2-mercaptoethanol (50 microM) was only slightly effective. In exploring possible mechanisms by which monocytes potentiate the mitogenic activity of lymphocytes, it was found that the supernatants of MF cultures could partially, but not completely, reconstitute LF responses, suggesting that contact with MF may be required for optimal effectiveness. Addition of graded numbers of monocytes to LF altered both the kinetics of the response and the peak level of proliferation. Monocyte depletion also resulted in markedly decreased survival of cultured unstimulated LF. These observations suggest a variety of possible effects of monocytes in potentiating mitogenic responses, including contact-mediated interactions with lymphocytes (possibly to present the mitogen optimally); enhancement of proliferation kinetics and the size of the responding subpopulation, and maintenance of a requisite growth factor(s) in the culture. Small differences in the monocyte content of cultured lymphocyte preparations may thus account for many of the often observed variations in mitogen responsiveness.     

Effect of interferons on protein synthesis in human lymphocytes: enhanced synthesis of eight specific peptides in T cells and activation-dependent inhibition of overall protein synthesis

Lymphoblastoid and fibroblast IFN inhibited PHA stimulation of overall protein synthesis in human lymphocytes by ca. 30%. Inhibition occurred within the first 6 hr of PHA treatment and was not progressive. DNA synthesis at 48 hr was inhibited to the same extent. Overall protein synthesis in resting lymphocytes was not detectably inhibited by IFN concentrations up to 1000 U/ml. Thus, inhibition of protein synthesis and subsequent reduction of cell proliferation by IFN require certain early events in mitogen activation. Resting lymphocytes were not unresponsive to IFN treatment, however. Two-dimensional electrophoretic analysis of newly synthesized proteins after IFN treatment showed enhanced synthesis of a specific set of eight peptides (I-peptides), which were shown to be synthesized in T lymphocytes. This enhancement was produced by both IFN-alpha and IFN-beta after 4 to 6 hr of exposure and was identical for all lymphocyte donors studied. After growth stimulation, IFN treatment produced no enhancements of additional peptides, although the original eight I-peptides were enhanced as usual. It is concluded that the biochemical activities of the I-peptides, which remain to be determined, cannot inhibit protein synthesis in resting lymphocytes, but may do so after mitogen activation, when the major physiologic restriction of lymphocyte protein synthesis is released. Alternatively, the I-peptides may be unrelated to regulation of protein synthesis but may be involved in viral protection or enhancement of NK activity.     

Effects of progesterone and estradiol on the proliferation of phytohemagglutinin-stimulated human lymphocytes

In this paper we report on a study to elucidate whether the response of human lymphocytes to mitogenic stimulation was modified by physiological changes which occur during the menstrual cycle. Experiments with untreated cultures showed intra-individual variation to mitogen stimulation in female lymphocyte cultures, but a significant correlation between the menstrual cycle and the proliferation kinetics of lymphocytes was not found. Consequently, we performed experiments in which two of the hormones that regulate the menstrual cycle in women, estradiol and progesterone, were added to cultured human lymphocytes obtained from both men and women. The results indicate that both hormones at physiological concentrations have the capacity to modify the proliferation of PHA-stimulated human lymphocytes. Therefore, both hormones could play a role in the induction of the intra-individual variation observed in the untreated female cultures. However, in vivo other factors could also modify the proliferation kinetics of human lymphocytes preventing the demonstration of the effects of a single factor, such as the hormonal changes occurring during the menstrual cycle.     

Stimulatory effect of Bestatin,a new specific inhibitor of aminopeptidases,on the blastogenesis of guinea pig lymphocytes

A potent protease-inhibitor of Actinomycetes origin, Bestatin. which is of dipeptide nature and inhibits aminopeptidase B and leucine-aminopeptidase competitively, strongly stimulates blastogenesis of small lymphocytes triggered with polyclonal mitogen. such as phytohemagglutinin (PHA), concanavalin A (Con A), pokeweed mitogen (PWM) and lipopolysaccharide of Escherichiae coli (LPS), whereas it inhibits DNA synthesis of normal resting lymphocytes. The stimulatory effect is non-selective with respect to the category of small lymphocytes, i.e. T- and B-lymphocytes, but strikingly selective with respect to the stage of blastogenesis: the stimulation is greatest at a relatively early stage, diminishes as mitogen-activation proceeds, and is not appreciable at a later stage of lymphocyte blastogenesis.The pattern of Bestatin stimulation on lymphocyte blastogenesis is specific for the mitogen used: in T-lymphocyte activation with PHA or Con A, the stimulation first increases and then decreases with increase in mitogen concentrations, whereas in B-lymphocyte activation with LPS, with increasing concentrations of the mitogen, the stimulation increases to a plateau at approximately 100 μg/ml of mitogen. The optimum concentration of Bestatin was found to be approximately 50 μg/ml (0.16 mM) for either PHA or Con A activation, and 50 to 75 μg/ml for B-cell activation with LPS. Bestatin must remain in cultures of T- and B-lymphocytes with polyclonal mitogens for at least about 24 and 16 hr, respectively, to exert its stimulatory effect on blastogenesis.Biochemical results, together with those from autoradiographic analyses, indicate that Bestatin increases the number of blastoid-transformed lymphocytes with polyclonal stimulants. It is suggested that aminopeptidases, possibly located at the cell surface, may play a role in the control of lymphocyte activation during immune responses.     

Studies on the regulation of lymphocyte reactivity by normal and activated macrophages.

To determine the potential role of macrophages as regulators of the immune response, the effect of mouse peritoneal macrophages on transforming mouse spleen lymphocytes was investigated. Mitogen and antigen stimulated lymphocyte transformation, as measured by DNA synthesis, was enhanced by all concentrations of normal macrophages tested, but only by low concentrations of activated macrophages. High concentrations of activated macrophages markedly inhibited lymphocyte transformation. This inhibition occurred whether lymphocyte DNA synthesis was measured by incorporation of [³H]TdR or of ³²P. Activated macrophages cultured with lymphocytes within 4 hr of being removed from the peritoneal cavity inhibited lymphocyte transformation. When activated macrophages were cultured alone for 24 or more hours before addition of lymphocytes, enhancement of transformation was noted. Once lymphocytes were exposed to activated macrophages, they could not be induced to undergo transformation in the presence of Con A. Whereas heat-killed activated macrophages, which appeared intact morphologically, lost their capacity to inhibit lymphocyte transformation, macrophages treated with mitomycin C to inhibit DNA synthesis retained this capacity. Syngeneic and allogeneic macrophages had similar inhibitory ability. Supernatants from cultures of many cell types (including normal or activated macrophages, lymphocytes, lymphocytes plus macrophages, and L cells) inhibited [³H]TdR incorporation by both mitogen stimulated lymphocytes and tumor cells. These studies demonstrate the capacity of macrophages to regulate lymphocyte transformation in vitro and suggest a role for these cells as regulators of cell-mediated immunity in vivo.     

Effects of con A and other lectins on pure 5'nucleotidase isolated from lymphocyte plasma membranes.

Inhibition of purified or membrane-bound 5′nucleotidase by various lectins was studied in lymphocytes from pig mesenteric lymph nodes. Con A or $\text{Lens culinaris}$ lectin LcH inhibited (75 %) purified 5′nucleotidase by a non-competitive process without cooperativity. Inhibition by these lectins of 5′ nucleotidase activity in whole lymphocytes, plasma membranes (untreated or solubilized) and LcH-receptor fraction displayed high positive cooperativity, reached higher level (90 %) and was of mixed type. An interaction between lectin receptors and 5′nucleotidase accounted for these differences. Wheat germ agglutinin (WGA) and divalent Con A which are not mitogenic for T lymphocytes had no effect on 5′nucleotidase; pokeweed mitogen (PWM), mitogen of T and B cells, was not inhibitor. When membrane proteins were cross-linked by glutaraldehyde, Con A inhibition of whole lymphocyte 5′nucleotidase presented the same properties as the purified enzyme. Possible correlation between 5′nucleotidase inhibition and lymphocyte stimulation is discussed.     

Stimulation and inhibition of human T-lymphocyte colony cell proliferation by hemopoietic cell factors.

Human lymphocytes, isolated from peripheral blood and stimulated with phytohemagglutinin M (PHA) prior to being seeded on a two-layer medium of soft agar which contained the mitogen, developed into colonies 3–4 days after seeding in the culture system. The cloning potential of PHA-treated lymphocytes is significantly enhanced by adding, to the soft agar culture, culture fluid (CF) obtained from mitogen-treated lymphocytes or a feeder layer (FL) prepared either from lymphocytes isolated from peripheral blood or from T-cell enriched populations. PHA seems to stimulate the release of lymphocyte colony enhancing factor (LCEF) from the T-sensitized lymphocytes. The addition of CF or FL to the culture medium appears to increase the amount of LCEF, resulting in enhancement of the number and size of lymphocyte colonies. When CF derived from spleen cells or from the peripheral blood adherent-cell population was added to the lower layer of the soft agar culture, the growth and development of lymphocyte colonies was inhibited. This suggests that monocyte-macrophages release a lymphocyte colony inhibiting factor (LCIF) into the CF. The extent of inhibition or stimulation of colony formation is a function of the number and type of cells used to prepare the CF or FL and the concentration of CF in the culture medium. The presence of FL or CF derived from spleen non-adherent cells, white blood cells, bone marrow cells, or a B-cell enriched population had no effect on colonies growing in the culture. This may possibly be due to the paucity of T lymphocytes and monocyte-macrophages present in these materials. A control system in which LCIF, produced by monocyte-macrophages, and LCEF, produced by T lymphocytes, participate in the regulation of lymphocyte production is postulated.     

Relative ability of different bovine leukocyte populations to support active replication of rinderpest virus.

Bovine peripheral blood mononuclear cells (PBMC) were infected with the pathogenic Saudi isolate of rinderpest virus (RPV) in order to identify the cell subpopulation(s) susceptible to active replication of this virus. Flow cytometry analysis, using a monoclonal antibody recognizing the H glycoprotein of RPV, showed that monocytes were the main subpopulation in which the virus replicated, whereas <2% of lymphocytes expressed viral antigen. The activation of PBMC with concanavalin A before infection resulted in an increase in the capacity of lymphocytes to support RPV replication; >90% of CD4+ and CD8+ T lymphocytes expressed viral antigen at 3 days postinfection, although < or = 40% of gamma/delta T cells were productively infected. B-lymphocyte activation with pokeweed mitogen also resulted in increased replication of this virus in these cells, involving up to 40% of B lymphocytes. An enhancement of lymphocyte susceptibility to infection and active replication by RPV was observed upon coculture of RPV-infected PBMC on bovine endothelial cells. Such enhancement was most marked with the B-cell and CD4+ T-cell subpopulations. Contact between lymphocytes and extracellular matrix components did not alter the capacity of RPV to replicate in lymphocytes. This intercellular contact with endothelial cells increased the viability of certain lymphocyte subpopulations, but it alone could not explain the increased sensitivity to RPV. Intercellular signalling, which resulted in interleukin-2 receptor upregulation, probably played a role. In summary, monocytes are the main target for active, productive infection by RPV. Similar replication in lymphocytes depends on their activation state and on contact with accessory cells such as endothelial cells. These characteristics have important implications for virus traffic in vivo and the pathogenesis of this disease.     

Culture conditions affecting induction and release of lymphocyte produced proliferation inhibitory factor (PIF)

Studies on the factors affecting the production of a proliferation inhibitory factor (PIF) by human lymphocytes are presented. Maximal PIF production occurred with mitogen stimulation of blood lymphocytes cultured at 1 × 10⁶/ml. Optimal cultures contained 10% fetal calf serum, but PIF could be produced in the absence of serum, and after only a 6-hr pulse exposure to PHA. PIF production was found to correlate with lymphocyte activation in response to the mitogen PHA but was not related to lymphocyte proliferation (DNA synthesis). Inhibitory activity could be detected as early as 3 hr after mitogen addition, long before DNA synthesis occurs. The mitogens Con A and PWM initiated different intensities of DNA synthesis in these cultures, but similar quantities of PIF. Antigenic stimulation of sensitive human peripheral lymphocyte populations resulted in the release of PIF. Cells from donors that gave a strong positive skin test to tuberculin (PPD) responded in tissue culture to PPD by producing PIF, while the cells from skin test negative donors did not. A small quantity of PIF was also evident in the supernatants from cultures with no known stimulus (“unstimulated”), this was found to result from activation of the lymphocytes by nonlymphoid elements and by fetal calf serum. An investigation of the PIF-producing capabilities of other lymphoid tissues showed that lymph node cells produced this humoral factor, whereas thymus cells did not. Thymus cell supernatants, in fact, were found to contain an extremely labile cytotoxin which degraded rapidly upon storage.     

The role of mitogens and lymphokines in the induction of ornithine decarboxylase (ODC) in T lymphocytes

Polyamine synthesis occurs early in lymphocyte activation after stimulation with antigen or mitogen. Ornithine decarboxylase (ODC) is the primary enzyme in the polyamine cascade. We have examined the induction of ODC by mitogens and/or lymphokines in human peripheral blood T lymphocytes. When isolated populations of monocytes and T lymphocytes were stimulated with phytohemagglutinin (PHA) there was little or no change in ODC activity. The combination of T lymphocytes and monocytes enhanced mitogen-induced ODC activity 10-fold. Several interleukin 1 (IL 1)-containing supernatants and fractionated human IL 1 were capable of substituting for monocytes in supporting PHA induction of ODC in T lymphocytes. Interleukin 2 (IL 2) and IL 2-containing supernatants were also capable of increasing ODC activity in T lymphocytes in the absence of monocytes. Lymphokines alone in the absence of PHA could not induce ODC. We conclude that both mitogens and monocytes are required for the induction of polyamine synthesis in T lymphocytes, and that supernatants containing IL 1 or IL 1 and IL 2 can substitute for monocytes in the induction of ODC in mitogen-stimulated T lymphocytes.     

Purification and characterization of a dUTPase from Acholeplasma laidlawii B-PG9

dUTP was purified 120-fold from extracts of Acholeplasma laidlawii B-PG9 by Blue-Sepharose, Phenyl-Sepharose, hydroxyapatite, and DEAE-Sephacel chromatography techniques. The only substrate for the enzyme was dUTP with an apparent Km of 4.5 microM. The only reaction products were dUMP and PPi. The dUTPase did not exhibit any specific divalent cation requirement, but it was inhibited by EDTA. The enzyme was not inhibited by Pi or p-hydroxymercuribenzoate. The molecular weight of the enzyme was estimated by gel filtration chromatography to be 48,000, and its isoelectric point was 5.3. The enzyme was thermostable at 55 degrees C for 1 h. A. laidlawii dUTPase was distinguishable from KB (human epidermoid carcinoma) dUTPase by differences in electrophoretic migration, isoelectric point, and thermostability. The enzyme is important in preventing dUTP from being incorporated into DNA and may have a significant role in both the synthesis of thymidine- and PPi-dependent phosphorylations.     

Deoxyuridine triphosphate nucleotidohydrolase activity and its correlation with multiplication of erythroid cells in rat spleen

The administration of phenylhydrazine to rats brought about a marked increase in the dUTPase activity in the cytosol fractions of spleen and red blood cells; the activity began to increase with a two-day lag and reached the maximum at the 5th or 6th day of the phenylhydrazine treatment (13 and 5 times the control values in total activity in the spleen and red blood cells, respectively), and then the activity decreased. The activities of thymidine kinase and sigma-aminolevulinate synthase in the spleen and red blood cells also changed in parallel with that of dUTPase. The increases of these activities were suppressed completely by methotrexate, an inhibitor of DNA synthesis. The time courses of the enzyme activity changes in the red blood cells, however, were slightly behind those in the spleen. Thus, a close correlation was assumed between the dUTPase activity and the multiplication of erythroid cells in rat spleen.     

Human monocyte activation by supernatants from concanavalin A (con A) stimulated lymphocytes

Human peripheral lymphocytes were stimulated with Concanavalin A (Con A) in the absence of serum. Supernatants were collected from control and mitogen stimulated lymphocyte cultures and fractions pooled according to the elution before, together with or after human serum albumin which was added as a marker. Only one fraction derived from Con A stimulated lymphocyte culture Supernatants which eluted immediately after human serum albumin had a significant effect on the metabolism and structure of human monocytes in vitro. Monocytes separated by human serum albumin and incubated with this fraction for 20 hr had an increase in nuclear RNA synthesis. Monocytes attached to cover slips in Leighton tubes showed an increase in the percentage of phagocytizing cells and phagocytic activity. Electron microscopy demonstrated highly phagocytic cells containing numerous Golgi associated granules and strands of nondilated rough surfaced endoplasmic reticulum in presence of the active fraction.     

Regulation of immunoglobulin production in human peripheral bood leukocytes: cellular interactions.

The intercellular influences regulating immunoglobulin (Ig) synthesis by normal human peripheral blood leukocytes (PBL) were investigated in cells stimulated by pokeweed mitogen (PWM). This system was shown to be totally T lymphocyte dependent as purified B lymphocytes (less than or equal to 1% T lymphocytes) failed to make significant amounts of Ig. No evidence was obtained for an Ig class switch as all classes of Ig (IgM, IgG, IgA) were shown to be produced in increasing amounts over a 6-day time period. T lymphocytes demonstrated maximum helper effect when mixed with equal numbers of B cells. This helper effect was mediated through the dual mechanisms of increasing the number of B lymphocytes containing cytoplasmic Ig and by increasing the maturity of these B lymphocytes as demonstrated by an increasing Ig production per B lymphocyte. When present in higher numbers, T lymphocytes were also capable of suppressing Ig production. This T-mediated suppression was first evident as a decrease in the Ig produced per B lymphocyte (decreased maturity). With maximum T suppression Ig-containing B lymphocyte numbers were also diminished. T lymphocyte help was relatively independent of macrophages (phagocytic cells) and did not require DNA synthesis for expression. Both T help and suppression were shown to cross allogeneic barriers. Immature T lymphocytes (thymocytes) were incapable of mediating either activity. Normal human PBL contain T lymphocytes campable of mediating both T help and suppression and the Ig produced by PBL was shown to be the balance of these activities. This balance probably represent the participation of distinct T lymphocyte subpopulations analogous to the T helper (Ly 1+) and T suppressor (Ly 2+, 3+) populations in the mouse.     

Human lymphocyte responses are enhanced by culture at 40 degrees C.

In vitro responses of human peripheral blood lymphocytes (PBL) were found to be markedly enhanced by culture at 40 degrees C rather than at the conventional temperature of 37 degrees C. We studied proliferative responses of lymphocytes by activation by phytohemagglutinin (PHA) concanavalin A (Con A), pokeweed mitogen (PWM), and allogeneic lymphocytes in mixed lymphocyte culture (MLC) and found enhancement of DNA synthesis at the higher temperature. Cytotoxic T cell responses to allogeneic cells were also enhanced when MLC was done at 40 degrees C. These enhanced immune responses appear to be due in part to increased numbers of participating cells. If in vitro lymphocyte responses correlate with in vivo responses, then fever associated with infection or tumor may be beneficial whereas that associated with autoimmune disorders may have a detrimental effect.