Suppression of the immune response to Trichuris muris in lactating mice.

Mice infected with Trichuris muris during lactation were unable to expel the infection at the normal time, but expulsion occurred when lactation was terminated. Suppression of expulsion was uniform in mice suckling more than five young but variable with smaller litters. Mice exposed to a primary infection while lactating were shown to have serum antibodies capable of passively transferring immunity to recipient mice and showed near normal immunity to a secondary infection given after lactation had ceased. Acquired immunity to T. muris was also suppressed by lactation, but the worms which became established in lactating resistant mice were fewer and smaller than those in non-lactating, non-resistant controls. It is suggested that the suppressive effect of lactation in this host-parasite relationship is exerted on the second, lymphoid cell-mediated phase of worm expulsion.     

The characterization of intraepithelial lymphocytes, lamina propria leukocytes, and isolated lymphoid follicles in the large intestine of mice infected with the intestinal nematode parasite Trichuris muris

Despite a growing understanding of the role of cytokines in immunity to the parasitic helminth Trichuris muris, the local effector mechanism culminating in the expulsion of worms from the large intestine is not known. We used flow cytometry and immunohistochemistry to characterize the phenotype of large intestinal intraepithelial lymphocytes (IEL) and lamina propria leukocytes (LPL) from resistant and susceptible strains of mouse infected with T. muris. Leukocytes accumulated in the epithelium and lamina propria after infection, revealing marked differences between the different strains of mouse. In resistant mice, which mount a Th2 response, the number of infiltrating CD4+, CD8+, B220+, and F4/80+ IEL and LPL was generally highest around the time of worm expulsion from the gut, at which point the inflammation was dominated by CD4+ IEL and F4/80+ LPL. In contrast, in susceptible mice, which mount a Th1 response, the number of IEL and LPL increased more gradually and was highest after a chronic infection had developed. At this point, CD8+ IEL and F4/80+ LPL were predominant. Therefore, this study reveals the local immune responses underlying the expulsion of worms or the persistence of a chronic infection in resistant and susceptible strains of mouse, respectively. In addition, for the first time, we illustrate isolated lymphoid follicles in the large intestine, consisting of B cells interspersed with CD4+ T cells and having a central zone of rapidly proliferating cells. Furthermore, we demonstrate the organogenesis of these structures in response to T. muris infection.     

Impairment of primary expulsion of Trichuris muris in mice concurrently infected with Nematospiroides dubius

Primary immune expulsion of Trichuris muris was markedly delayed by concurrent infection with Nematospiroides dubius. Maximum delay of expulsion was dependent on size and timing of N. dubius infection relative to T. muris infection. In NIH mice infection with 400 N. dubius larvae immediately before or after T. muris infection was found to be most effective in suppressing expulsion. Infection on day 8 of T. muris infection, when mice are sensitized to T. muris, also impaired expulsion. From this evidence it is suggested that the larvae of N. dubius are immunosuppressive and that the efferent role of the immune response to T. muris is inhibited. The results are discussed in terms of non-specific immunosuppression and their relevance to the tropical disease situation is emphasized.     

The effect of Plasmodium berghei and Trypanosoma brucei infections on the immune expulsion of the nematode Trichuris muris from mice

The effects of concurrent P. berghei or T. brucei infections on the immune expulsion of primary and challenge infections of T. muris from CFLP strain mice have been examined. CFLP mice usually expel the nematode 18–21 days after a primary infection and within 4–6 days after a challenge infection. Both acute malaria and trypanosome infections initiated at the same time as the T. muris infection suppressed worm expulsion; when the protozoal infections were started 7 days after the T. muris infection worm expulsion was suppressed in a proportion of the mice. Acute trypanosome and malaria infections delayed the expulsion of a challenge infection from immune mice, but in the case of P. berghei the delay was short-lived.     

Genetic control of immune responses to parasites: selection for responsiveness and non-responsiveness to Trichuris muris in random-bred mice.

Populations of Schofield strain, random-bred mice were shown to have a bimodal variation in ability to bring about immune expulsion of the nematode Trichuris muris. This variation was genetically determined and independent of the size of infection experienced. The proportion of mice unable to achieve worm expulsion (non-responders) was relatively constant in various populations of the strain but was increased by selective breeding from mice of known status. Crosses made between non-responder and responder mice produced progeny that were almost all (92%) of responder phenotype, showing that the ability to achieve worm expulsion was inherited as a dominant characteristic. It is suggested that the genetic control involves a small number of genes; the possible immunological mechanisms by which control is mediated are briefly discussed.     

Trichuris muris: effect of concurrent infections with rodent piroplasms on immune expulsion from mice.

Mice concurrently infected with the rodent piroplasms Babesia hylomysci or B. microti during a primary infection with the nematode Trichuris muris showed marked immunodepression, and the normal immune expulsion of the nematode was delayed. Immunodepression was most severe when the Babesia infections reached peak parasitaemia during the preexpulsion phase of the worm infection. Decline in parasitaemia to subpatent levels was associated with a reappearance of the immune response and expulsion of the worm. Babesia infections had little effect upon the expulsion of challenge infections of T. muris from mice previously immunized against the worm. Acute Babesia infections were found to exert a profound immunodepressive effect upon the agglutinating antibody response of mice to sheep red blood cells.     

Genetic control of immune responses to parasites: immunity to Trichuris muris in inbred and random-bred strains of mice.

A comparison has been made of the responses of random-bred CFLP and inbred NIH mice to infection with Trichuris muris. Random-bred mice showed greater variation in worm burdens and less uniformity in worm expulsion. Irradiation prior to infection reduced variation, but did not increase the mean level of infection above that shown by the most susceptible unirradiated mice. In NIH mice, however, irradiation raised the level of infection in all mice. The factors responsible for variation between CFLP mice and for the level of infection in NIH mice came into play after the fifth day of infection and were inactivated by cortisone acetate. It is suggested that these factors are immunologically mediated and under direct genetic control. Uniformity of infection and expulsion in NIH mice is therefore seen as a consequence of genetic uniformity; variability in CFLP mice as a consequence of genetic variation. The time of worm expulsion was found to differ markedly between inbred strains of mice. Hybrid progeny showed the expulsion time characteristic of the parental strain with the most rapid expulsion; greater resistance was therefore inherited as a dominant characteristic. The genetic control of immunity to T. muris is discussed in the context of the antibody- and cell-mediated components of the expulsion process.     

Changes in the bacterial cecal flora of mice infected with Trichuris muris (Schrank, 1788).

Cecal microorganisms of mice were categorized and enumerated weekly during the developmental cycle of infection with the whipworm, Trichuris muris. The cecal bacterial population consisted of Escherichia coli, Proteus spp, Acinetobacter lwoffi (Mima polymorpha), aerobic lactobacilli, staphylococci, enterococci, and anaerobes (bacteroides, streptococci, and lactobacilli) in control and T. muris-infected mice. The aerobic lactobacilli and the anaerobes constituted the greatest number of organisms in both groups. In week three there was a decrease in the number of these organisms, and in week four fewer of these and of all other organisms in the worm-infected mice when compared to controls. The most significantly reduced bacterial counts were observed during the period of T. muris self-cure.     

The absence of resistance in congenitally athymic nude mice toward infection with the intestinal nematode, Trichuris muris: resistance restored by lymphoid cell transfer

Congenitally athymic (nude) mice maintained infections of Trichuris muris for at least 40 days post-infection, whereas phenotypically normal mice expelled the worms by 18 days post-infection. Complete worm expulsion occurred in nude mice which had been given spleen cells. On the other hand, a partial resistance to the infection was observed in nude mice which received thymus or mesenteric lymph node cells. No significant worm reduction was seen by injection of immune serum.     

Cellular and humoral immune responses to Candida albicans in subcutaneously infected mice

Pure mycelial and yeast cultures of Candida albicans were produced in a low sulphate medium. Groups of mice were injected subcutaneously with increasing doses of viable or heat-killed mycelial or yeast cells and the kinetics of delayed-type hypersensitivity (DTH), anti-mycelial and anti-yeast antibodies were studied. Both the dose and the morphological phase of C. albicans showed an influence on the development of the DTH, but the viability is the factor which showed the highest influence on this reaction, since on the one hand mice infected with viable yeast or mycelial cells developed higher DTH levels than mice injected with heat killed cells, and on the other hand this factor seems to play an important role in the kinetics of DTH response. The enzyme-linked immunosorbent assay has been adapted to detect antibodies to yeast and mycelial phase cytoplasmic antigens of C. albicans. In contrast with the DTH reactions, neither dose, morphological phase nor viability played an important role on the antibody titer developed. However, the use of mycelial cytoplasmic antigens seems to be better than the yeasts to detect anti -Candida antibodies over the last days studied.     

Cell-mediated immune responses in mice infected with fonsecaea pedrosoi

Time course of cellular and humoral immune responses in mice infected with Fonsecaea pedrosoi was investigated by using an antigen prepared from culture filtrate of this fungus. Mice were infected by intravenous injection with yeast-like cells of the fungus. Viable fungus was recovered from the brain of the infected mice until the 36th day after inoculation, and from the other organs examined until 14th to 16th day. Inflammatory lesions were observed in the brain, lung, heart, liver, spleen, kidney and intestine during the first 30 days after inoculation. Macrophage migration inhibition factor response in these mice was insignificant until 8 days after inoculation. A significant response was developed at day 10 and persisted until day 63. This response returned negative by 95 days after inoculation. Lymphocyte transformation response of these mice was negative until 4 days after inoculation. At day 6 blastogenic index increased to 1.5, and at day 10, 14 and 16 the indices were 1.8, 2.4 and 1.7 respectively. Precipitin response to this fungus could not be detected in these mice until 16 days after inoculation. Positive results were obtained at day 21 and lasted until 51 days after inoculation. The precipitin titers, however, did not exceed one fold in any of these mice.     

Cellular changes in the intestinal lymph of sheep infected with the enteric nematode, Trichostrongylus colubriformis

Some changes produced in the cell populations of intestinal lymph by infection with the enteric nematode, Trichostrongylus colubriformis, were studied in sheep regularly re-infused with all discharged lymph. Lymphocyte traffic through the intestinal lymphatic duct was reduced until day 35 of primary infection, mainly due to the absence of lymphocytes with smaller cell volumes, but was increased two-fold after day 70 and in immune sheep. Antigen-reactive lymphocytes in blood and lymph were assayed by the uptake of 3H-thymidine in cell culture stimulated by extracts from the larvae of T. colubriformis. Cells from the blood and lymph of immune sheep were highly reactive to worm antigen. A relatively smaller reactivity was present in the blood of worm-free sheep and was abolished during the first 12 days of primary infection. Antigen reactive cells were not detected in intestinal lymph until 12 days after primary infection, and in vitro antigen reactivity in intestinal lymph of immune sheep was increased after challenge with infective larvae. Responses to the mitogens, concanvalin A and phytohaemagglutinin, in cultures of cells from both intestinal lymph and blood were depressed on days 7 and 12 of primary infection. It is proposed that the diminished traffic of lymphocytes in intestinal lymph and the reduced numbers of mitogen and nematode antigen-reactive lymphocytes in both blood and intestinal lymph during the early stages of infection with T. colubriformis is closely related to the slow development of protective immunity to this parasite.     

Ultrastructural studies of early stages of oogenesis in a trichuroid nematode,Trichuris muris

Oogenesis within the hologonic ovary of the trichuroid nematode, Trichuris muris, was observed by light and electron microscopy. Early germinal stages in the form of oogonia and young primary oocytes were characterised by a high nuclear-cytoplasmic ratio, numerous ribosomes and several mitochondrial clusters. Previtellogenic primary oocytes contained a prominent nucleus with a nuclear envelope punctuated by pores. They also contained increased amounts of granular endoplasmic reticulum (GER), often arranged as annulate lamellae, several Golgi complexes and limited amounts of lipid. The appearance of three types of cytoplasmic inclusion, in the form of lipid, dense yolk granules and reticulate granules, indicated the onset of vitellogenesis. At this stage of oogenesis, all three types were distributed throughout the ooplasm. The possible role of the granules is discussed. During passage along the oviduct the oocyte was coated by an additional unit membrane and associated fibrillar layer external to the oolemma. It is suggested that this may be synthesised by the oocyte.     

Response of pre-adult and adult stages of Trichuris muris to common anthelmintics in mice.

The common anthelmintics, oxantel, mebendazole, albendazole and pyrantel were assessed for their comparative activity against Trichuris muris in mice. Mice were infected with T. muris and the infection was maintained by a brief cortisone administration during the second week of infection. Mice carrying the infection with different life cycle stages, viz. fourth stage larvae (L4), pre-adult and adult stages were dosed with anthelminitics. The worm burdens in control infection groups varied although infection dose and other conditions were uniformly followed. With various dose regimens tested, oxantel was highly potent; it eliminated completely pre-adult and adult stages, respectively at 25 and 12.5 mg kg-1 dose levels with significant activity also against adult worms at a 1.56 mg kg-1 dose level and against pre-adults at a 6.25 mg kg-1 level. Pre-adults required twice the dose given to that of adults for complete (100%) activity. Mebendazole was the next most active; a dosage of 37.5 mg kg-1 was completely active against pre-adults whereas a dosage of 2 x 50 mg kg-1 was required for complete elimination of adult worms. In addition, about 90% of the worms were eliminated with a single dose of 150 mg kg-1. However, a significant activity was seen against adults at a 25 mg kg-1 level and pre-adults at 37.5 mg kg-1, the lowest level tested. In comparison, albendazole did not induce complete clearance of pre-adult and adult stages even when tested at dose levels as high as 150 and 2 x 75 mg kg-1, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunity to Trichuris muris in the laboratory mouse

Of all the laboratory models of intestinal nematode infection, Trichuris muris in the mouse is arguably the most powerful. This is largely due to the fact that the ability to expel this parasite is strain dependent. Thus, most mouse strains readily expel T. muris. However certain mouse strains, and indeed some individuals within particular mouse strains, are unable to mount a protective immune response and harbour long term chronic infections. This unique model thus presents an opportunity to examine the immune events underlying both resistance to infection and persistent infection within the same host species, and in some cases, the same host strain.     

Trichuris muris: host intestinal epithelial cell hyperproliferation during chronic infection is regulated by interferon-gamma.

Chronic infection with the intestinal nematode Trichuris muris is associated with an inappropriate type 1 cytokine response (production of predominantly IFN-gamma), whereas resistance to infection requires the induction of a protective type 2 response with the production of interleukin (IL)-4, IL-5, IL-9, and IL-13. T. muris inhabits an intracellular niche within murine intestinal epithelial cells of the caecum and in common with other intestinal helminth infections is associated with gross morphological changes in gut architecture. The purpose of this study was to characterise cytokine production during chronic infection in AKR and severe-combined-immunodeficient (SCID) mice and investigate what effect the anti-parasite response had on epithelial cell proliferation and so regulation of intestinal pathology. Pulse labeling with tritiated thymidine is employed to generate a sensitive cell position-linked proliferation index of the intestinal epithelium at various times postinfection. Infection in AKR mice is characterized by a marked elevation in antigen specific IFN-gamma production from restimulated mesenteric lymph node cells and a significant increase in proliferation of pluripotent epithelial stem cells and transit cells within the crypts. Similarly, elevated IFN-gamma production was observed in the mesenteric lymph nodes and intestinal mucosa of infected SCID mice, with epithelial cell hyperproliferation and the development of crypt hyperplasia in the caecum. Critically, in vivo depletion of IFN-gamma during infection in SCID mice resulted in no significant increase in epithelial cell proliferation and effectively precluded the development of crypt hyperplasia without altering infection outcome. Taken together, the data provides the first detailed cell position linked analysis of epithelial dysregulation during chronic T. muris infection and identifies a critical role for IFN-gamma, either directly or indirectly, in regulation of epithelial cell proliferation during the chronic intestinal inflammation associated with infection.     

Cellular immune responses of mice to influenza virus infection

Mice infected with influenza virus develop cytotoxic T lymphocytes (CTL) specific for viral antigens prior to the appearance of virus-specific antibody-forming cells (AFCs). Effector T cells were detected at a time coincident with a precipitous decline in pulmonary virus titer. CTLs of draining lymph nodes and spleen were found to be cross-reactive among H-2 compatible cells infected with influenza type A virus subtypes. AFCs were observed to be primarily hemagglutinin specific. Virus-specific IgA-secreting AFCs were detected in mediastinal lymph nodes of infected mice.