Immunization of sheep against infection with larvae of the blowfly Lucilia cuprina

Sheep were repeatedly exposed to a second stage excretory-secretory antigen preparation of Lucilia cuprina by intradermal injection (S group) or intranasal aerosol (I group) in an attempt to induce immunity to the larvae. Hypersensitivity responses to the injections were monitored and correlated with larval numbers at subsequent challenge. Intradermal injections showed that the immediate or IgE-mediated and the intermediate or Arthus response were the major skin hypersensitivity reactions to the larval antigens. At challenge there was no significant reduction in larval numbers between the S and the control group, however the Arthus reaction did show some correlation with larval recoveries in the S group. There was a significant reduction in larval numbers (P < 0.005 Mann-Whitney U Test) between the I and the control group. In addition, the animals which showed respiratory hypersensitivity to the aerosol during the immunization period had the lowest larval recoveries. The results of a second challenge in the I group did not show continued protection. It is suggested that the protective response was suppressed by exposure to antigens at the first challenge infection. Exudate samples recovered during the infection were analysed for protein amount and the results were correlated with larval survival. They suggested that two separate mechanisms of resistance are operating in this experiment. The first occurs early in the infection, is probably associated with immediate hypersensitivity, and may control the initiation of protein leakage. The second occurs later in the infection and may result in the leakage of proteins able to control larval survival.     

Immunologic-mediated Protection of Trypanosoma congolense-Infected Mice by Polyribonucleotides

SYNOPSIS. When the synthetic polyribonucleotides polyinosinic acid-polycytidylic acid (poly I poly C) and polyadenylic acid-polyuridylic acid (poly A poly U) were tested against mice infected with varying numbers of Trypanosoma congolense the results varied with the method of passage of trypanosomes in mice. Thus, when 100 flagellates were passaged every 7th day and experiments were initiated with these trypanosomes from mice on the 7th day of their infection, the protective effects of poly I poly C and poly A poly U apparently varied independently of each other as assayed by the mean parasitemias and cumulative mortalities of infected mice. Poly I poly C-resistant and poly I poly C-susceptible variants (“R” and “S”, respectively) were isolated and maintained in mice by passage of 10⁶ trypanosomes every 4th day. Mice infected with these variants responded consistently to poly I poly C and poly A poly U injections in that mice infected with the “R” variant showed no response to either polyribonucleotide but those infected with the “S” variant consistently had a decrease in mean parasitemias and cumulative mortality when treated with poly I poly C, but not with poly A poly U. Using mice infected with the “S” variant, the protective effect of poly I poly C was dose-dependent and best protection was afforded when 1st injections of poly I poly C were given around the time of infection of the mice. The protective effects of the synthetic polyribonucleotides used in these experiments are probably due to their immunologic enhancing capacities and not to interferon. To support this, injections of Newcastle disease virus, a strong inducer of interferon in mice, did not protect against T. congolense in mice. It was not possible to determine whether serum from poly I poly C-treated mice had a greater neutralizing effect upon trypanosomes in vitro than serum from saline-treated mice since any effect of antibody was masked by a naturally occurring inhibitor in normal mouse serum which was reduced during infection. The protective effects of poly I poly C in T. congolense-infected mice were reversed by treatment with cyclophosphamide. This strong immunosuppressant, however, could not reverse the protective effects of poly I poly C against mice infected with Semliki Forest virus, strongly suggesting that the protective mechanisms stimulated by poly I poly C in these 2 infections were different. The response of mice infected with the “R” and “S” variants of T. congolense to synthetic polyribonucleotides is discussed in relation to antigenic variation of trypanosomes.     

Regulation of guinea-pig immune functions by interleukin 2: critical role of natural killer activity in acute HSV-2 genital infection

We have previously demonstrated that recombinant interleukin 2 (rIL 2) has a protective effect against acute HSV-2 infection in guinea pigs with a biphasic dose response which peaked between 4 and 20 X 10(4) U/kg, whereas 8 X 10(5) U/kg showed no effect on disease. Animals that escaped infection appeared lack immunologic memory to HSV-2, suggesting a nonspecific immune mechanism. In this study we have found that NK activity of fresh splenocytes measured against HSV-2 infected human foreskin fibroblast (HFF) is stimulated in vitro and in vivo by rIL 2 in a biphasic dose range similar to that determined for protection against disease. In contrast, lymphokine-activated killer (LAK)-mediated lysis of P815 showed a linear response to increasing concentrations of rIL 2 both in vitro and in vivo. Transfer of LAK cells did not alter the rate of infection after HSV-2 challenge. Anti-asialo GM-1 eliminated rIL 2 protection against HSV-2 infection. It also blocked HSV-2/HFF lysis and partially decreased P815 lysis in vitro; however, in vivo it inhibited both natural killer (NK) activity and LAK generation, failing to distinguish which of the lytic cells was responsible for the effect against infection. Early IgG production (7 days post-infection) was enhanced by rIL 2 administration before viral inoculation, but it did not influence the rate of infection as compared with controls. Polyclonal IgM secretion was not found to play a role in acute protection. Circulating serum interferon levels were enhanced with increasing concentrations of rIL 2 but did not correlate with the biphasic dose curve for protection. Therefore of these mechanisms the one that is most closely related to the protective effect of rIL 2 against primary HSV-2 infection appears to be NK-mediated lysis, although the other mechanisms may add to this effect.     

C-reactive protein mediates protection from lipopolysaccharide through interactions with Fc gamma R

C-reactive protein (CRP) is a component of the acute phase response to infection, inflammation, and trauma. A major activity of acute phase proteins is to limit the inflammatory response. It has been demonstrated that CRP protects mice from lethal doses of LPS. In the mouse, CRP binds to the regulatory receptor, FcgammaRIIb, and to the gamma-chain-associated receptor, FcgammaRI. The goal ofthis study was to determine whether FcgammaRs are necessary for the protective effect of CRP. The ability of CRP to protect mice from a lethal dose of LPS was confirmed using injections of 500 and 250 micro g of CRP at 0 and 12 h. CRP treatment of FcgammaRIIb-deficient mice increased mortality after LPS challenge and increased serum levels of TNF and IL-12 in response to LPS. CRP did not protect FcR gamma-chain-deficient mice from LPS-induced mortality. Treatment of normal mice, but not gamma-chain-deficient mice, with CRP increased IL-10 levels following LPS injection. In vitro, in the presence of LPS, CRP enhanced IL-10 synthesis and inhibited IL-12 synthesis by bone marrow macrophages from normal, but not gamma-chain-deficient mice. The protective effect of CRP appears to be mediated by binding to FcgammaRI and FcgammaRII resulting in enhanced secretion of the anti-inflammatory cytokine IL-10 and the down-regulation of IL-12. These results suggest that CRP can alter the cytokine profile of mouse macrophages by acting through FcgammaR leading to a down-regulation of the inflammatory response.     

Attempts to vaccinate ewes and their lambs against natural infection with Haemonchus contortus in a tropical environment

A vaccine containing integral membrane glycoproteins from the intestine of Haemonchus contortus was evaluated in three groups of grazing sheep each containing 13 ewes and their 16 lambs naturally infected with gastrointestinal nematodes. Two groups were vaccinated with either 5 or 50 μg of the antigen per immunisation, while the third, the control group, received adjuvant alone. The sheep were immunised six times at 3 week intervals, partly because the vaccine antigens are hidden and thus no immunological boost would be delivered by subsequent infection and partly because the level of Haemonchus spp. challenge was expected to be high. The vaccinated ewes, first immunised approximately 1 month before lambing, showed a circulating antibody response but no signs of reduced anaemia or Haemonchus spp. egg counts, compared with control ewes. Several ewes with severe haemonchosis in all three groups had to be given precautionary treatment with anthelmintic drugs. In contrast, vaccinating their lambs with either 5 or 50 μg of the antigen per immunisation resulted in 10 fold higher antibody titres. In the case of the lower antigen dose this was associated with significantly less anaemia, 72% reduction in the overall number of Haemonchus spp. eggs produced and significantly fewer worms compared with control lambs. It is hypothesised that the heavily pregnant or lactating ewes did not have sufficient physiological reserves to mount a protective response following vaccination in the tropical weather and high challenge conditions that prevailed. Nevertheless, the vaccine could afford useful protection for lambs against H. contortus.     

The onset of immune protection in acute experimental chagas' disease in C3H(HE) mice

The onset of protective immunity against Trypanosoma cruzi in mice was determined by adoptively immunizing newly infected recipients with spleen cells from normal or infected donor mice. It was found that spleen cells from animals with 3 day and 6 day infections did not provide protection but that spleen cells from infections of 9, 12, 15 and 18 days significantly increased longevity in infected recipient animals. The protective capacity per spleen cell was found to increase in proportion to the duration of infection of donor mice. It was further noted that immune protection, as reflected in increased longevity, did not result in decreased development of parasitemia. Immunized mice which demonstrated the greatest longevity developed parasitemias over twice that observed in contrrol groups.     

Trypanosoma cruzi: effects of anti-thymocyte serum in mice and neonatal thymectomy in rats

CF₁ mice were given eight injections of normal rabbit serum (NRS), Hanks' balanced salt solution (HBSS), or rabbit anti-mouse thymocyte serum (ATS) beginning 3 days prior to and at 3-day intervals subsequent to intraperitoneal (ip) inoculation with 5 × 10⁴ trypomastigotes of a Brazil strain of Trypanosoma cruzi. Markedly enhanced parasitemia, increased numbers of tissue stages (amastigotes), and higher mortality occurred in ATS-treated mice as compared to NRS- or HBSS-treated controls. Administration of three injections of ATS at 3-day intervals during the latter stages of acute Chagas' disease, i.e., when numbers of parasites were declining, resulted in a transitory relapse (increase in numbers) of blood and tissue parasites. No relapse occurred in mice when ATS was administered at 3-day intervals over a period of 15 days during the subacute stage of the disease, i.e., after parasites had disappeared from the blood.Parasitemia and mortality were enhanced in neonatally thymectomized rats when compared to that observed in sham-operated and unoperated control rats following ip injection of 2 × 10⁵ trypomastigotes of T. cruzi. Serum obtained from thymectomized and control rats 5 weeks after inoculation with T. cruzi at a time when the blood of all animals had become microscopically negative for parasites were equally protective in passive transfer experiments, while serum from uninfected controls gave no protection.Gamma globulin levels significantly increased in thymectomized as well as intact rats by the third to fourth week of infection with T. cruzi, reached maximum concentrations in 5–6 wk, and remained elevated significantly at the twelfth week post infection as compared with uninfected controls. No significant changes occurred in total serum proteins or α and β fractions of any group, infected or uninfected.Total circulating leukocytes, especially lymphocytes, were diminished in mice and rats subjected to treatment with ATS or neonatal thymectomy.These data clearly indicate that neonatal thymectomy of rats and ATS treatment of mice suppress the acquired immune response to T. cruzi. Further, passive transfer experiments in rats confirm the protective role of circulating antibody in acquired immunity to Chagas' disease.     

Resistance to Taenia pisiformis larvae in rabbits: immunization against infection using non-living antigens from in vitro culture.

Heath D. D. 1976. Resistance to Taenia pisiformis larvae in rabbits: Immunization against infection using non-living antigens from in vitro culture. International Journal for Parasitology6: 19–24. A 97 % protection of rabbits against infection with Taenia pisiformis larvae was stimulated by subcutaneous injections of killed larvae cultured in vitro for 6 or 9 days, combined with the concentrated culture media in which the larvae grew. Larvae cultured in vitro for 3 days or less stimulated only 60% protective immunity.Exogenous antigens produced by 10-day old larvae in vitro were collected free of contaminating macromolecules, and were partially characterized. There appeared to be 6 exogenous antigens. Rabbits were immunized with either frozen larvae, or the exogenous complex, or both, using one subcutaneous injection of antigens adsorbed on aluminium phosphate. Exogenous antigens stimulated an 88% protection against challenge infection 14 days later, while only 52% protection was stimulated by somatic antigens from frozen larvae. The effects of the two antigen complexes were not additive. The protective ability of exogenous antigens was destroyed by exposure to air.     

The use of a water-in-oil adjuvanted vaccine in an attempt to immunize lambs against Taenia ovis cysts in the presence of maternal antibody

An attempt was made to actively immunize lambs during the period when they had maternally-acquired antibody, so that there would be no time when lambs were susceptible to Taenia ovis infection. A slow-release water-in-oil adjuvanted vaccine containing T. ovis oncosphere products was used. Half the ewes were vaccinated prior to parturition and lambs were vaccinated at approx. 5 weeks of age. At necropsy, after challenge infection, vaccinated lambs had a mean of 39 cysts, compared to 131 in unvaccinated control lambs (p < 0.05), but there was no effect on development or survival of the established cysts. The presence of passively-acquired anti-oncosphere antibody at the time of vaccination did appear to influence the degree of antibody response, and the level of protection induced. However, there was no correlation between levels of antibody at vaccination and levels of protection induced, because of the considerable individual variation between lambs. In non-vaccinated control lambs, the serological response to challenge infection was also highly variable.Some vaccinated lambs developed a strong primary serological response and were mostly (5/7) fully protected. Lesser degrees of primary response in other lambs did not fully protect. All vaccinated lambs gave a rapid secondary response after challenge, but it was too late to be protective. The immunization procedure, although effective in some lambs and partially effective in most, cannot be recommended.     

Preweaning mortality in piglets in loose-housed herds: etiology and prevalence

Preweaning mortality in piglets is a welfare issue, as well as an ethical and economic concern in commercial pig farming. Studying the causes of preweaning mortality and their prevalence is necessary to reduce losses. Preweaning piglet mortality was investigated in a field study including 347 sows from 14 loose-housed Norwegian piglet-producing herds. A total of 5254 piglets were born in these herds during the study period, and 1200 piglets were necropsied. The cause of death was based on pathoanatomical diagnosis (PAD). Preweaning mortality of all piglets in the study was 23.4%, including 6.3% stillborn. The two main causes of preweaning mortality in live-born piglets (n=4924) were trauma (7.1%) and starvation (2.7%). Piglets dying of an infection accounted for 2.0%. Among the necropsied piglets (n=1200), 29.1% had died due to trauma, 26.8% were categorized as stillborn and 11% had died of starvation. Piglets that had died of trauma, had a mean time of death of 1 lactation day (LD 1), ranging from LD 0 to LD 21. The mean time of death of piglets that died due to bacterial infection was LD 9, ranging from LD 0 to LD 31, with Escherichia coli accounting for most infections found in necropsied piglets. Farmers were able to identify death by trauma in piglets, but were less able to identify death due to hunger. Most piglets that died in the preweaning period, died of trauma. Surprisingly, this included large and well-fed piglets. The second most prevalent cause of preweaning mortality was starvation. Improved monitoring may reveal piglets with low body mass index, and additional nutrition may contribute to increase the survival rate.     

Monoclonal antibody protection from age-dependent poliomyelitis: implications regarding the pathogenesis of lactate dehydrogenase-elevating virus.

Over 90% of cyclophosphamide-treated, 6- to 7-month-old C58/M mice developed fatal paralytic disease after infection with a virulent strain of lactate dehydrogenase-elevating virus (LDV), with a mean onset of paralysis of about 16 days. Passive immunization with polyclonal antibodies or with a group of anti-LDV monoclonal antibodies (MAbs) with single-epitope specificity 1 day before or at the time of LDV infection prevented the development of paralytic disease without interfering with the replication of LDV in permissive macrophages, the primary host cells of LDV. In situ hybridization of spinal cord sections with an LDV-specific cDNA probe indicated that the MAb specifically prevented the cytocidal infection of motor neurons by LDV without blocking the infection of smaller nonneuronal cells in the spinal cord. The protective antibodies recognize at least two different epitopes on the glycoprotein of LDV, VP-3. Passive immunizations with other anti-LDV MAbs, which recognize at least three other epitopes on VP-3 of LDV, afforded no protection. In contrast to the protective effect of anti-LDV MAb injection before or at the time of LDV infection, their administration postinfection exerted relatively little protection, though it delayed the appearance of paralytic symptoms. However, repeated injections of MAbs until at least 7 days postinfection also afforded a high degree of protection. The results indicate that protective MAbs may interfere with two stages in the development of LDV-induced paralytic disease. When administered at the time of LDV infection, they prevent the initial infection of spinal cord motor neurons. After this initial event, repeated injections of MAb are required to inhibit the spread of LDV between neurons until the endogenous production of protective anti-LDV antibodies in these mice.     

Neutralization of endogenous granulocyte-macrophage colony-stimulating factor subverts the protective immune response to Histoplasma capsulatum.

We examined the influence of endogenous GM-CSF on the course of primary and secondary pulmonary histoplasmosis. A high proportion (>/=75%) of C57BL/6 mice given mAb to GM-CSF did not survive primary infection, whereas 88-94% of infected controls survived. Analysis of leukocytes revealed significantly fewer CD4+ and CD8+ cells in lungs, but not airways, of anti-GM-CSF-treated mice as compared with infected controls. However, the histopathology was similar between the two groups. Lungs of mice given mAb to GM-CSF manifested depressed levels of TNF-alpha, IFN-gamma, and reactive nitrogen intermediates and elevated levels of IL-4 and IL-10. Administration of mAb to IL-4, to IL-10, or both restored protective immunity in GM-CSF-neutralized mice. In secondary infection, administration of mAb to GM-CSF exacerbated infection but did not alter survival over 30 days. The character of the inflammatory response was similar, and no differences were detected in Th1 or Th2 cytokine production between the two groups. Thus, endogenous GM-CSF is essential for survival in primary but not secondary infection, and blockade perturbs protective immunity. These findings reveal a new mechanism whereby GM-CSF contributes to host protection and demonstrate differences in control of primary and secondary histoplasmosis.     

Protection against Nippostrongylus brasiliensis by adoptive immunization with immune thoracic duct lymphocytes

The protective capacities of different sources of immune lymphocytes against Nippostrongylus brasiliensis infection were examined. Thoracic duct lymphocytes (TDL) drained from donors on the tenth day of a primary infection (Day 10 TDL) conferred greater protection against adult worms established by larval infection than either mesenteric lymph node cells (MLNC) or TDL drained from hyperimmune donors. Day 10 TDL also conferred a high degree of protection against intraduodenally implanted “normal” and “damaged” worms. These results suggest that the different susceptibilities of “normal” and “damaged” worms to adoptive protection is a quantitative rather than a qualitative phenomenon. The results also emphasise that kinetic and dose-response experiments are important in evaluating the protective capacities of transferred cells.     

Vectorial Capacity of Aedes aegypti for Dengue Virus Type 2 Is Reduced with Co-infection of Metarhizium anisopliae

Background

Aedes aegypti, is the major dengue vector and a worldwide public health threat combated basically by chemical insecticides. In this study, the vectorial competence of Ae. aegypti co-infected with a mildly virulent Metarhizium anisopliae and fed with blood infected with the DENV-2 virus, was examined.

Methodology/Principal Findings

The study encompassed three bioassays (B). In B1 the median lethal time (LT₅₀) of Ae. aegypti exposed to M. anisopliae was determined in four treatments: co-infected (CI), single-fungus infection (SF), single-virus infection (SV) and control (C). In B2, the mortality and viral infection rate in midgut and in head were registered in fifty females of CI and in SV. In B3, the same treatments as in B1 but with females separated individually were tested to evaluate the effect on fecundity and gonotrophic cycle length. Survival in CI and SF females was 70% shorter than the one of those in SV and control. Overall viral infection rate in CI and SV were 76 and 84% but the mortality at day six post-infection was 78% (54% infected) and 6% respectively. Survivors with virus in head at day seven post-infection were 12 and 64% in both CI and SV mosquitoes. Fecundity and gonotrophic cycle length were reduced in 52 and 40% in CI compared to the ones in control.

Conclusion/Significance

Fungus-induced mortality for the CI group was 78%. Of the survivors, 12% (6/50) could potentially transmit DENV-2, as opposed to 64% (32/50) of the SV group, meaning a 5-fold reduction in the number of infective mosquitoes. This is the first report on a fungus that reduces the vectorial capacity of Ae. aegypti infected with the DENV-2 virus.     

Anti-Leptospira immunoglobulin profiling in mice reveals strain specific IgG and persistent IgM responses associated with virulence and renal colonization

Leptospira interrogans is a pathogenic spirochete responsible for leptospirosis, a neglected, zoonotic reemerging disease. Humans are sensitive hosts and may develop severe disease. Some animal species, such as rats and mice can become asymptomatic renal carriers. More than 350 leptospiral serovars have been identified, classified on the basis of the antibody response directed against the lipopolysaccharide (LPS). Similarly to whole inactivated bacteria used as human vaccines, this response is believed to confer only short-term, serogroup-specific protection. The immune response of hosts against leptospires has not been thoroughly studied, which complicates the testing of vaccine candidates. In this work, we studied the immunoglobulin (Ig) profiles in mice infected with L. interrogans over time to determine whether this humoral response confers long-term protection after homologous challenge six months post-infection. Groups of mice were injected intraperitoneally with 2×10⁷ leptospires of one of three pathogenic serovars (Manilae, Copenhageni or Icterohaemorrhagiae), attenuated mutants or heat-killed bacteria. Leptospira-specific immunoglobulin (IgA, IgM, IgG and 4 subclasses) produced in the first weeks up to 6 months post-infection were measured by ELISA. Strikingly, we found sustained high levels of IgM in mice infected with the pathogenic Manilae and Copenhageni strains, both colonizing the kidney. In contrast, the Icterohaemorrhagiae strain did not lead to kidney colonization, even at high dose, and triggered a classical IgM response that peaked at day 8 post-infection and disappeared. The virulent Manilae and Copenhageni serovars elicited high levels and similar profiles of IgG subclasses in contrast to Icterohaemorrhagiae strains that stimulated weaker antibody responses. Inactivated heat-killed Manilae strains elicited very low responses. However, all mice pre-injected with leptospires challenged with high doses of homologous bacteria did not develop acute leptospirosis, and all antibody responses were boosted after challenge. Furthermore, we showed that 2 months post-challenge, mice pre-infected with the attenuated M895 Manilae LPS mutant or heat-killed bacterin were completely protected against renal colonization. In conclusion, we observed a sustained IgM response potentially associated with chronic leptospiral renal infection. We also demonstrated in mice different profiles of protective and cross-reactive antibodies after L. interrogans infection, depending on the serovar and virulence of strains.     

Yellow fever vaccine protects mice against Zika virus infection

Zika virus (ZIKV) emerged as an important infectious disease agent in Brazil in 2016. Infection usually leads to mild symptoms, but severe congenital neurological disorders and Guillain-Barré syndrome have been reported following ZIKV exposure. Creating an effective vaccine against ZIKV is a public health priority. We describe the protective effect of an already licensed attenuated yellow fever vaccine (YFV, 17DD) in type-I interferon receptor knockout mice (A129) and immunocompetent BALB/c and SV-129 (A129 background) mice infected with ZIKV. YFV vaccination provided protection against ZIKV, with decreased mortality in A129 mice, a reduction in the cerebral viral load in all mice, and weight loss prevention in BALB/c mice. The A129 mice that were challenged two and three weeks after the first dose of the vaccine were fully protected, whereas partial protection was observed five weeks after vaccination. In all cases, the YFV vaccine provoked a substantial decrease in the cerebral viral load. YFV immunization also prevented hippocampal synapse loss and microgliosis in ZIKV-infected mice. Our vaccine model is T cell-dependent, with AG129 mice being unable to tolerate immunization (vaccination is lethal in this mouse model), indicating the importance of IFN-γ in immunogenicity. To confirm the role of T cells, we immunized nude mice that we demonstrated to be very susceptible to infection. Immunization with YFV and challenge 7 days after booster did not protect nude mice in terms of weight loss and showed partial protection in the survival curve. When we evaluated the humoral response, the vaccine elicited significant antibody titers against ZIKV; however, it showed no neutralizing activity in vitro and in vivo. The data indicate that a cell-mediated response promotes protection against cerebral infection, which is crucial to vaccine protection, and it appears to not necessarily require a humoral response. This protective effect can also be attributed to innate factors, but more studies are needed to strengthen this hypothesis. Our findings open the way to using an available and inexpensive vaccine for large-scale immunization in the event of a ZIKV outbreak.     

Effect of macrophage blockade on the resistance of inbred mice toParacoccidioides brasiliensis infection

The effect of macrophage blockade on the natural resistance and on the adaptative immune response of susceptible (B10.D2/oSn) and resistant (A/Sn) mice toParacoccidioides brasiliensis infection was investigated. B10.D2/oSn and A/Sn mice previously injected with colloidal carbon were infected ip with yeast cells to determine the 50% lethal dose, and to evaluate the anatomy and histopathology, macrophage activation, antibody production and DTH reactions. Macrophage blockade rendered both resistant and susceptible mice considerably more susceptible to infection, as evidenced by increased mortality and many disseminated lesions.P. brasiliensis infection and/or carbon treatment increased the ability of macrophages from resistant mice to spread up to 25 days after treatment. In susceptible mice the enhanced spreading capacity induced by carbon treatment was impaired at all assayed periods except at 1 week after infection. Macrophage blockade enhanced DTH reactions in resistant mice, but did not alter these reactions in susceptible mice, which remained anergic. To the contrary, macrophage blockade enhanced specific antibody production by susceptible mice, but did not affect the low levels produced by resistant mice. The effect of macrophage blockade confirms the natural tendency of resistant animals to mount DTH reactions in the course of the disease and the preferential antibody response developed by susceptible mice afterP. brasiliensis infection. On the whole, macrophage functions appear to play a fundamental role in the natural and acquired resistance mechanisms toP. brasiliensis infection.     

A human astrocytoma cell line is highly susceptible to infection with Trypanosoma cruzi

Astrocytes play a vital role in neuronal protection, homeostasis, vascular interchange and the local immune response. Some viruses and parasites can cross the blood-brain barrier and infect glia. Trypanosoma cruzi, the aetiological agent of Chagas disease, can seriously compromise the central nervous system, mainly in immune-suppressed individuals, but also during the acute phase of the infection. In this report, the infective capacity of T. cruzi in a human astrocyte tumour-derived cell line was studied. Astrocytes exposed to trypomastigotes (1:10 ratio) produced intracellular amastigotes and new trypomastigotes emerged by day 4 post-infection (p.i.). At day 6 p.i., 93% of the cells were infected. Using flow cytometry, changes were observed in both the expression of major histocompatibility complex class I and II molecules and the chemokine secretion pattern of astrocytes exposed to the parasite. Blocking the low-density lipoprotein receptor on astrocytes did not reduce parasite intracellular infection. Thus, T. cruzi can infect astrocytes and modulate the immune response during central nervous system infection.     

Immunization of Woodchucks with Plasmids Expressing Woodchuck Hepatitis Virus (WHV) Core Antigen and Surface Antigen Suppresses WHV Infection

DNA vaccination can induce humoral and cellular immune response to viral antigens and confer protection to virus infection. In woodchucks, we tested the protective efficacy of immune response to woodchuck hepatitis core antigen (WHcAg) and surface antigen (WHsAg) of woodchuck hepatitis virus (WHV) elicited by DNA-based vaccination. Plasmids pWHcIm and pWHsIm containing WHV c- or pre-s2/s genes expressed WHcAg and WHsAg in transient transfection assays. Pilot experiments in mice revealed that a single intramuscular injection of 100 μg of plasmid pWHcIm DNA induced an anti-WHcAg titer over 1:300 that was enhanced by boost injections. However, two injections of 100 μg of pWHcIm did not induce detectable anti-WHcAg in woodchucks. With an increase in the dose to 1 mg of pWHcIm per injection, transient anti-WHcAg response and WHcAg-specific proliferation of peripheral mononuclear blood cells (PMBCs) appeared in woodchucks after repeated immunizations. Four woodchucks vaccinated with pWHcIm were challenged with 10⁴ or 10⁵ of the WHV 50% infective dose. They remained negative for markers of WHV replication (WHV DNA and WHsAg) in peripheral blood and developed anti-WHs in week 5 after challenge. In contrast, woodchucks not immunized or immunized with the control vector pcDNA3 developed acute WHV infection. Two woodchucks immunized with 1 mg of pWHsIm developed WHsAg-specific proliferative response of PBMCs but no measurable anti-WHsAg response. A rapid anti-WHsAg response developed during week 2 after virus challenge. Neither woodchuck developed any signs of WHV infection. These data indicate that DNA-based vaccination with WHcAg and WHsAg can elicit immunity to WHV infection.