Blast cell activity in mice infected with Hymenolepis nana, H. diminuta and Trichinella spiralis: in vivo uptake of 125IUdR in lymphoid tissues and gut

The kinetics of the lymphoblast response in mice during the course of a primary infection with Hymenolepis nana was measured by the in vivo uptake of 125IUdR. The response was most marked in tissues local to the site of infection, involving the nodes draining the small intestine but not other areas, e.g., inguinal lymph nodes. A close correlation between these responses and the course of infection was observed. Uptake of 125IUdR was greatest in the mesenteric lymph node (MLN) but the peak reached in this organ was later than that in Peyer's patches (PP), small intestine (SI) and spleen (S). The increase in lymphoblast activity of the MLN was similar with Trichinella spiralis; no significant blast cell response to infection with H. diminuta was found till day 9 after injection, the results being similar to those obtained when H. nana infections were established using cysticercoids rather than eggs. It has been shown that the increase in lymphoblast activity was closely correlated with the presence of cells which are most effective in adoptive transfer immunity. A dose-dependent effect was detected in blast cell activity of MLN in different infection levels with T. spiralis and H. nana.     

The response of the regional lymph node of guinea-pigs to primary and challenge infection with the nematode, Trichostrongylus colubriformis

Responses characteristic of both cell-mediated immunity and the production of humoral antibodies occurred in the regional lymph node (mesenteric) of guinea-pigs following primary and challenge infection with the nematode Trichostrongylus colubriformis. In addition, depletion of lymphocytes in the paracortical areas and pronounced infiltration with basophil and eosinophil leucocytes were observed. All these changes were chronologically related to parasite rejection.     

Trichinella spiralis: the influence of short chain fatty acids on the proliferation of lymphocytes, the goblet cell count and apoptosis in the mouse intestine

This study was carried out to determine the influence of short chain fatty acids (SCFA) on spleen and mesenteric lymph node lymphocyte proliferation, goblet cells and apoptosis in the mouse small intestine during invasion by Trichinella spiralis. BALB/c mice were infected with 250 larvae of T. spiralis. An SCFA water solution containing acetic, propionic and butyric acids (30:15:20 mM) was administered orally starting 5 days before infection and ending 20 days post infection (dpi). Fragments of the jejunum were collected by dissection 7 and 10 dpi, and were examined for apoptotic cells in the lamina propria of the intestinal mucosa, and for goblet cells. The proliferation index of the cultured spleen and mesenteric lymph node lymphocytes with MTT test was also determined. The orally administered SCFA solution decreased the proliferation of mesenteric lymph node lymphocytes in the mice infected with T. spiralis at both examination times, but did not influence the proliferative activity of the spleen cells. Seven dpi, both in the spleen and mesenteric lymph nodes, the highest proliferation index of concanavalin A (Con A)-stimulated lymphocytes was found in the group of uninfected animals receiving SCFA animals. This tendency could still be seen 10 dpi in the mesenteric lymph nodes but not in the spleen, where the proliferation index in this group had significantly decreased. In vitro studies revealed, that butyric and propionic acids added to the cell cultures suppressed the proliferation of Con A-stimulated mesenteric lymph nodes and spleen lymphocytes taken from uninfected and T. spiralis-infected mice. Acetic acid stimulated proliferation of splenocytes taken from uninfected mice but did not affect lymphocyte proliferation in mesenteric lymph nodes from uninfected or infected mice. Orally administered SCFA increased the number of goblet cells found in the epithelium of the jejunum 7 dpi, but this number had decreased 10 dpi. The number of apoptotic cells in the lamina propria of the intestinal mucosa of animals infected with the T. spiralis and receiving SCFA was also lower, particularly 10 dpi. The above results show that SCFA can participate in the immune response during the course of trichinellosis in mice.     

Dedication to Sir Peter Brian Medawar,O.M., C.H., C.B.E., M.A., D.SC., F.R.S

C57BL/6 mice were exposed to a primary infection of Schistosoma mansoni. The lymphocytes of the mediastinal, hepatic, and mesenteric lymph nodes and spleen which drain the pulmonary, hepatic, intestinal, and “systemic” phases of infection, respectively, were assessed for their ability to interact with soluble cercarial immunogen. The capacity to bind antigen, i.e., rosette-forming cells (B- or T-RFC) both bind antigen and simultaneously produce specific lytic antibodies, i.e., rosette-antibody-forming cells (RAFC); or exclusively produce specific antibody, i.e., plaque-forming cells (PFC) was assessed. The results indicated that maximal RFC were detected sequentially in the mediastinal (Week 1), then in the hepatic (Week 5), and finally in the mesenteric (Weeks 7–9) nodes; thus, the immune response anatomically recapitulated the migrating pathway of the parasite during the pulmonary, hepatic, and intestinal phases of the infection. The number of RFC was significantly higher in the mediastinal nodes and the hepatic nodes than in the mesenteric nodes. Although both T- and B-RFC were noted, the response was predominantly B in character. The spleen exhibited an early predominantly T-cell RFC response at Week 4 and a later predominantly B-cell RFC response at Week 11. Further characterization of the B-cell responses showed that the initial responses of the lymphocytes were predominantly IgM in nature. A variety of unique patterns relative to the predominance of IgG-, IgA-, or “IgE”-bearing cells subsequently evolved in each anatomic lymphoid organ. In all the lymphoid organs studied the lymphocytes exhibited a maturational progression from B-RFC, to RAFC and then to PFC. The responses of the lymphocytes of the various lymphoid organs have been further characterized against soluble egg (SEA) immunogen (P. B. Khoury and S. M. Phillips, Cell. Immunol.59, 246, 1981).     

Enteric migration of radiolabeled lymphocytes.

The migratory patterns of circulating radioisotopically labeled lymphocytes were studied by means of serial transfer into syngeneic recipients. A sub-population of ⁵¹Cr-labeled lymphocytes, defined by their property of additionally labeling with IUDR, was found to possess migrational specificity for the lamina propria of stomach, jejeunum, ileum, and large bowel. This gut-seeking population was found within peripheral nodes, mesenteric nodes, Peyer's patches, thymus, and spleen and consisted of both B and T cells. Labeled lymphocytes homed to intestine during all phases of the cell cycle, suggesting that specificity for the gut is not linked to specific events in the lymphocyte cell cycle.     

Expression of genes in gastrointestinal and lymphatic tissues during parasite infection in sheep genetically resistant or susceptible to Trichostrongylus colubriformis and Haemonchus contortus

Resistance to an acute gastrointestinal nematode (GIN) infection is dependent on the ability of the host to recognise the parasite and mount a protective Th2 response. It is hypothesised that lambs which are genetically susceptible to GIN will differentially up-regulate Th1-type genes and therefore remain susceptible to chronic parasitism compared with genetically resistant lambs which will differentially up-regulate Th2-type genes and clear the parasite infection. Two selection flocks, in which lines of Merino sheep produced lambs genetically resistant or susceptible to GIN, were acutely challenged once or thrice with either Haemonchus contortus or Trichostrongylus colubriformis. Faecal-egg counts (FECs), and plasma and tissue anti-parasite (H. contortus or T. colubriformis) antibody isotype responses showed that resistant animals challenged three times with T. colubriformis established a protective Th2 response (negligible FEC, IgG1 and IgE) whereas susceptible animals required multiple challenges to establish a significant IgG1 response despite FECs remaining high. Trichostrongylus colubriformis elicited a more pronounced host response than H. contortus. RNA extracted from tissues at the site of each parasite infection and associated lymph nodes were interrogated by microarray and quantitative PCR analyses to correlate host gene expression to FECs and antibody responses. The IFN-γ inducible gene cxcl10 was up-regulated in the susceptible line of the Trichostrongylus selection flock sheep after a tertiary challenge with the parasites H. contortus and T. colubriformis. However, a uniform pattern of genes was not up-regulated in resistant animals from both selection flocks during both parasite infections, suggesting that the mode of host resistance to these parasites is different, although some similarities in host susceptibility were apparent.     

Entamoeba histolytica: lymphoreticular changes in gerbils (Meriones unguiculatus) with experimentally induced cecal amebiasis

Antibody responses and changes in the lymphoreticular tissues of gerbils with experimental cecal amebiasis were studied from 5 to 60 days PI. Changes in the cecum consisted of lymphoid follicle hyperplasia and depletion of lymphocytes, followed by follicle atrophy and histiocytosis. Mesenteric lymphadenopathy, and histologic alterations in the lymph nodes paralleled the progressive development of amebic cecal lesions. Early in the infection (5 to 10 days PI) mesenteric lymph nodes showed cortical follicle hyperplasia, blastogenesis in the paracortical areas (PCA) and intense lymphoblast and plasma cell activity in the medullary cords. At 20 to 30 days PI, the cortical follicles, the PCA and the medulla were depleted of lymphocytes and there was histiocytosis throughout the organ. At 60 days PI, lymphocyte repopulation took place in the PCA, and cortical follicles had active germinal centers. Spleen follicles did not increase in number as the infection progressed, but became hyperplastic. Antibody titers to ameba were low throughout the cecal infection but rose whenever amebic metastasis to the liver occurred. The results of this study indicate that lymphocytes from the submucosal lymphoid follicles and the draining lymph nodes may control the pathogenesis of the infection. Lymphoreticular tissue alterations could result from antigenic stimulation and migration of cells to the sites of infection.     

Disturbance of lymphocyte circulation byPseudomonas aeruginosa infection in oxazolone-sensitized mice

Pseudomonas aeruginosa infection depresses contact sensitivity to oxazolone in mice. To test whether an altered lymphocyte circulation plays a role in this depression⁵¹Cr-labeled lymphocytes fromP. aeruginosa-infected and oxazolone-sensitized donors were injected intravenously into infected and sensitized recipients, and the radioactivity uptake of several organs was determine. The controls consisted of normal mice receiving labeled lymphocytes from normal donors. While the radioactivity recovered from the liver, spleen, and mesenteric lymph nodes was similar in the test and the control group, significantly more radioactivity was recovered from the draining lymph nodes of infected and sensitized recipients. The concentration of labeled lymphocytes from sensitized donors in the draining lymph nodes of sensitized recipients was 18% greater than that of the controls but 31% lower than that of infected and sensitized animals receiving cells from infected and sensitized donors.P. aeruginosa infection enhances lymphocyte entrapment within the draining lymph nodes of oxazolone-sensitized mice.     

IgE formation in the rat following infection with Nippostrongylus brasiliensis: I. Proliferation and differentiation of IgE-bearing cells

Sprague-Dawley rats were infected with Nippostrongylus brasiliensis larvae, and IgE formation was studied. Before infection, the serum IgE level was less than 0.4 μg/ml. The IgE level began to increase from the 10th day of infection, reached its maximum (50–100 μg/ml) at the 14th day and gradually declined. Reinfection of the rats resulted in an increase of the serum IgE level within 7 days. The IgE antibody response to N. brasiliensis antigens did not parallel the increase of IgE synthesis. In most animals, the antibody became detectable in the serum at the 21st day when the total IgE level already began to decrease. The animals showed a secondary IgE antibody response upon reinfection. Both mesenteric lymph nodes and spleen cell suspensions were examined for the presence of IgE-bearing cells (IgE-B cells) and IgE-forming cells by fluorescent antibody technique. The IgE-bearing lymphocytes became detectable in the mesenteric lymph nodes and spleen at the 8th day of infection. The proportion of the IgE-B cells in nonadherent cell population gradually increased and reached maximum at the 14th day; about 20% of immunoglobulin (Ig)-bearing cells in the mesenteric lymph nodes and 10% of Ig-bearing cells in spleen bore IgE on their surface. Evidence was obtained that these lymphocytes synthesized IgE. The IgE-forming cells were detected in both mesenteric lymph nodes and spleen of the infected animals. The number of IgE-forming cells was greater in the mesenteric lymph nodes than in spleen, indicating that the regional lymph nodes are the major source of serum IgE in the N. brasiliensis-infected animals.     

Early response to rotavirus infection involves massive B cell activation

Rotavirus is an acute enteric pathogen which induces severe diarrhea in infants and children. To determine the immune response to rotavirus in vivo, we used a mouse model of rotavirus infection. We observed dramatic increases in the sizes of both Peyer's patches and mesenteric lymph nodes, but not spleen, between 1 and 6 days after infection with a homologous strain of murine rotavirus, EC wild type. Histological analysis showed large increases in the numbers of lymphocytes in these same tissues in rotavirus-infected mice. Flow cytometric analysis confirmed the increase in numbers of lymphocytes and revealed a large increase in the percentage of activated B, but not T, lymphocytes in both Peyer's patches and mesenteric lymph nodes of rotavirus-infected mice compared with control mice. Fragment cultures from these tissues established at 3-4 days postinfection contain rotavirus-specific IgM but not IgA Ab. A similar degree of lymphoid hyperplasia and percentage of activated B cells were observed in rotavirus-infected TCR knockout mice. Taken together, our findings show that rotavirus infection, in the context of a normal immune response, induces a large increase in the percentages of activated B cells in the absence of any detectable increase in the percentage of activated T cells, implicating a T cell-independent B cell response as the primary mechanism for initial rotavirus clearance.     

Differential effects of vasoactive intestinal peptide, substance P, and somatostatin on immunoglobulin synthesis and proliferations by lymphocytes from Peyer's patches, mesenteric lymph nodes, and spleen

We examined the effect of vasoactive intestinal peptide, substance P, and somatostatin on concanavalin A (1 microgram/ml)-induced lymphocyte proliferation and immunoglobulin (IgA, IgM, and IgG) synthesis by cells from spleens, Peyer's patches, and mesenteric lymph nodes. These neuropeptides (10(-7) to 10(-12) M) modulated immune responses in a dose-dependent manner. For a comparative study, neuropeptides were used at 10(-8) M concentration. Both vasoactive intestinal peptide and somatostatin significantly decreased DNA synthesis (30 to 50%), whereas substance P increased synthesis (40%) in lymphocytes from all organs tested. IgA synthesis was significantly altered by all of the neuropeptides tested, whereas IgM synthesis was less affected and IgG synthesis was virtually unchanged. Somatostatin inhibited IgA (20 to 50%) and IgM (10 to 30%) synthesis in lymphocytes from all three organs. Substance P increased IgA synthesis in mesenteric lymph nodes (50%), spleens (70%), and Peyer's patches (300%). It also increased IgM synthesis in Peyer's patches (20%) and spleens (30%), but was without effect on IgM synthesis in mesenteric lymph nodes. Vasoactive intestinal peptide increased the IgA response in mesenteric lymph nodes (20%) and spleens (30%), but inhibited IgA synthesis in lymphocytes from Peyer's patches (60%). Interestingly, in Peyer's patches, IgM synthesis was increased by vasoactive intestinal peptide (80%), whereas it was unchanged in mesenteric lymph nodes and spleen. Thus, not only did these neuropeptides have different effects on the production of different immunoglobulin isotypes, but their effect was also organ-specific. Because neuropeptides which are abundant in the intestine can modulate IgA and other immunoglobulin synthesis in vitro, they may play a significant regulatory role in mucosal immune responses in vivo.     

Variations in the expression of theta-C3H alloantigen on thymic and peripheral lymphocytes of newborn and young adult mice

The relative frequency of lymphocytes of mice showing varying degrees of surface θ-positivity (circumferential fluorescence) was recorded. Thymocytes were nearly 100% θ-positive. The relative proportions of θ-positive cells in Peyer's patches and lymph nodes of newborn mice varied in an almost identical fashion as a function of age. At 4 weeks of age and beyond, the relative numbers of θ-positive cells in Peyer's patches were consistently lower than in lymph nodes. As opposed to the predominance of thymocytes with complete rings, peripheralized thymic (T) lymphocytes showed a broad, age- and organ-dependent range of surface θ-positivity. These results suggest that surface θ may be lost rather rapidly upon emigration of lymphocytes from the thymus and/or that many θ-positive T cells with complete rings disappear within a short time. Variations in the relative proportion of complete rings on mesenteric lymph node cells on Days 1 and 4, were tentatively related to antigen-induced changes in the magnitude of thymocyte emigration.The pattern of surface θ-antigen of a given thymocyte or T cell with its size and DNA synthetic activity was compared. The findings suggest that incomplete ring fluorescence may especially be observed on proliferating lymphoblasts in the outer thymic cortex on their way to acquire the full complement of θ-antigen, and on medullary thymic lymphocytes or T cells having reentered mitotic activity, in response to antigenic and/or other microenvironmental stimuli. Our study yielded data consistent with the hypothesis that the progressive loss of surface θ-antigen does not represent a fully autonomous time-dependent process. Moreover, it is not clear if continued loss of θ-antigen by T cells below a certain threshold would render these cells undetectable by anti-θ sera.     

The analysis of the defense mechanism against indigenous bacterial translocation in X-irradiated mice

The defense mechanism against indigenous bacterial translocation was studied using a model of endogenous infection in X-irradiated mice. All mice irradiated with 9 Gy died from day 8 to day 15 after irradiation. The death of mice was observed in parallel with the appearance of bacteria from day 7 in various organs, and the causative agent was identified to be Escherichia coli, an indigenous bacterium translocating from the intestine. Decrease in the number of blood leukocytes, peritoneal cells and lymphocytes in Peyer's patches or mesenteric lymph nodes was observed as early as 1 day after irradiation with 6 or 9 Gy. The mitogenic response of lymphocytes from various lymphoid tissues was severely affected as well. The impairment of these parameters for host defense reached the peak 3 days after irradiation and there was no recovery. However, in vivo bactericidal activity of Kupffer cells in mice irradiated with 9 Gy was maintained in a normal level for a longer period. It was suggested that Kupffer cells play an important role in the defense against indigenous bacteria translocating from the intestine in mice.     

Cellular immune response to viral infection: in vitro studies of lymphocytes from mice infected with Sindbis virus

The development and evanescence of cell-mediated immunity to Sindbis virus infection in the mouse was studied using in vitro lymphocyte transformation. Adult mice were inoculated subcutaneously with Sindbis virus, a group A arbovirus, and cells from the draining lymph nodes and spleen were examined temporally for their ability to incorporate ³H-Tdr in the presence of Sindbis virus antigen in vitro. Lymphocyte transformation was shown to be specific and dose-related. Better stimulation was obtained with live virus antigen than with inactivated virus antigen. Specific ³H-Tdr incorporation was markedly reduced when lymph node cells were pretreated with anti-θ and complement, but anti-mouse immunoglobulin also reduced the response. Specifically sensitized cells were present in the draining lymph nodes 3–4 days after primary Sindbis virus infection, peaked at 6 days, and returned to control levels by 16 days. The response in the spleen appeared later and disappeared later. Neutralizing antibody appeared by Day 4, rose rapidly, and plateaued at a high level. The secondary cellular response differed from the primary response by being somewhat earlier and being elicitable with an amount of inactivated virus antigen which was insufficient to produce a primary response.     

Nematospiroides dubius: mechanisms of host immunity. I. Parasite counts, histopathology, and serum transfer involving orally or subcutaneously sensitized mice

The immune response of mice sensitized to Nematospiroides dubius by 2 different procedures was studied. Worm counts, histopathology and serum transfers were employed as parameters of comparison between the 2 sensitization groups.The profile of the parasite elimination curve over 16 days postchallenge, was strikingly different for orally and subcutaneously sensitized mice. The precipitous reduction in parasite burden of the orally sensitized (OS) group was evident 24 hr after challenge, and was essentially completed by Day 7. Conversely, there was no significant reduction in the parasite population of subcutaneously sensitized (SS) mice until Day 3, and a considerable number of worms persisted in this group until Day 16, at which time both OS and SS animals had comparable levels of parasitism.Histopathologic observations of the small intestine revealed fewer active granulomatous lesions in OS mice when compared to their SS counterparts. However, the composition and size of the granulomas encapsulating the smaller histotropic larval stages were similar in both sensitization groups. In SS animals, large numbers of eosinophils were commonly observed enveloping medium sized worms in the intestinal tunica muscularis after Day 5.Serum transfer demonstrated the presence of growth suppressing antibody in the sera of both sensitization groups. In addition, significantly fewer worms could be recovered from OS serum recipients.     

B-Lymphocyte differentiation in lethally irradiated and reconstituted mice. II. Recovery of humoral immune responsiveness.

The recovery of humoral immune responsiveness was studied in lethally irradiated, fetal liver-reconstituted mice. By means of both membrane fluorescence and antibody formation to sheep red blood cells (SRBC) as a functional assay, the rate of recovery of the compartments of B and T lymphocytes was determined in various lymphoid organs. The recovery of the immunoglobulin-positive (B) cell compartment after irradiation and reconstitution started in the spleen. This organ was also found to be the first in which the recovery of the B-cell population was completed. The interval between the recovery of the B-cell population in the spleen and that in the other organs tested was found to increase when the irradiated mice were reconstituted with spleen colony cells instead of fetal liver cells. This proved to be caused by the number and nature of the reconstituting hemopoietic stem cells. The immunoglobulin-positive (B) cells were found to appear before SRBC-reactive B cells could be demonstrated in spleen, lymph nodes, and Peyer's patches. The appearance of T lymphocytes in the various lymphoid organs required even more time. By means of cell transfer experiments, a sequential appearance of the precursors of anti-SRBC IgM-, IgG-, and IgA-plaque-forming cells could be demonstrated in spleen, bone marrow, lymph nodes, and Peyer's patches.     

Further evidence for the existence of B-lymphocyte subpopulations.

We have studied the homing properties of B lymphocytes by using ⁵¹Cr-labeled lymphoid cells obtained from athymic, nu/nu mice, and animals made T-lymphocyte deficient by thymectomy and lethal irradiation followed by reconstitution with syngeneic bone marrow. Comparison was made to the patterns of distribution observed when cell preparations containing normal numbers of T and B lymphocytes were migrated. A small but significant percentage of labeled lymphocytes from lymph nodes, spleen, Peyer's Patches, and bone marrow of T-cell-deficient animals was shown to be lymph node seeking. Secondary transfers of lymph node cells from primary recipients caused enrichment of this lymph node-seeking population. Treatment of T-lymphocyte-deficient lymphoid cell preparations with neuraminidase reduced the percentages of cells homing to the lymph nodes. The data showed that B lymphocytes exhibit unique homing properties when injected into normal recipients. In addition, direct comparison of the homing patterns of B lymphocytes prepared from spleen and lymph nodes of athymic mice revealed differences suggesting that these lymphoid organs contained unique mixtures of at least two different kinds of B cell. The evidence supports the notion that the B-lymphocyte populations contain at least two subpopulations, one of which possesses the ability to home to lymph nodes.     

Echinostoma caproni (Trematoda): Differential in vivo cytokine responses in high and low compatible hosts

In order to investigate the factors determining the expulsion of intestinal trematodes, we have analyzed the in vivo cytokine responses at several levels and the local responses against Echinostoma caproni (Trematoda) in two host species displaying different compatibility with the parasite. The response of the high compatible host (mice) is characterized by a mixed Th1/Th2 phenotype in the spleen, Peyer’s patches and mesenteric lymph nodes. At the intestine, a marked Th1 response with a marked increase of IFN-γ together with elevated number of mucosal neutrophils and expression of induced nitric oxide synthase were observed. The responses in the host of low compatibility (rats) with the parasite at the spleen, Peyer’s patches and mesenteric lymph node did not show clear differences with regard to the mice. However, the response in the intestine was markedly different. In rats, a Th2 response with increase in the levels of IL-5, IL-6 and IL-13 expression was detected. According to these results, the local production of IFN-γ and the local inflammatory responses with neutrophilic infiltration are associated with the development of chronic infections, whereas the worm expulsion is related with the development of Th2 responses and appears to be based on effects on non-bone narrow-derived cells.     

Kinetics and localization of parasite-specific IgE in Paragonimus ohirai-infected rats

Ikeda T., Oikawa Y. and Fujita K. 1982. Kinetics and localization of parasite-specific IgE in Paragonimus ohirai-infected rats. International Journal for Parasitology12: 395–398. In Wistar rats infected with Paragonimus ohirai (P.O.), P.O.-specific IgE responses of the mesenteric and mediastinal lymph nodes and spleen were determined by homologous adoptive cutaneous anaphylaxis (ACA) assay since P.o. -specific IgGa was not detected by either 2 h or 4 h PCA. Intraperitoneal (i.p.) infection with metacereariae elicited similar patterns of ACA response in the three lymphoid tissues examined, with the mediastinal lymph node giving the highest response. ACA positive cells were detected 2 weeks after infection, peaked at 3 weeks and then declined. These kinetics of ACA responses nearly paralleled the kinetics of serum P.o.-specific IgE titre. In intrapleural infection with metacereariae, on the other hand, the mediastinal lymph node gave a high ACA response comparable to the lymph node in i.p. infection, but the mesenteric lymph node and spleen gave negligible ACA responses. In infection established by i.p. transplantation of 4–5-week-old worms, only the mediastinal lymph node of the three lymphoid tissues responded and its response was at a low ACA level. The level of serum P.O.-specific IgE was much lower in the above two infections than in i.p. infection with metacercariae.     

Colony-stimulating factor (CSF-1): its enhancement of plasminogen activator production and inhibition of cell growth in a mouse macrophage cell line

The cell-mediated immune response by the gut-associated lymphoid tissues to antigens within the intestinal tract is poorly understood. Our objective was to investigate the antigen-specific T cell proliferative response and cytotoxic T lymphocyte (CTL) response of cells from the GALT after enteric immunization with vaccinia virus. Lymphocytes able to proliferate in the presence of vaccinia virus in vitro were found in large numbers in mesenteric lymph nodes (MLN) 6 days after the injection of vaccinia virus into the lumen of the small bowel. The MLN at this time also contained vaccinia-specific CTL, but unlike the proliferating cells, which were found for several weeks after immunization, the CTL were demonstrable in the MLN for only a few days. Peyer's patches were found to contain neither antigen-stimulated proliferating cells nor CTL. The viral-specific proliferating lymphocytes from the MLN 10 days after immunization were sIg-, monoclonal antibody W3/25+, MRC OX-8- large lymphoblasts. The vaccinia-specific CTL were also large lymphoblasts, but they belonged to the W3/25-, OX-8+ subset. Thus, a strong T helper and cytotoxic T lymphoblast response is generated within the MLN after viral challenge of the gut.