Studies of experimental allergic encephalomyelitis by using encephalitogenic T cell lines and clones in euthymic and athymic mice

The role of T-T cell interactions in the clinical course of acute experimental allergic encephalomyelitis (EAE) in mice was investigated. Myelin basic protein (MBP)-reactive and encephalitogenic T cell clones were established from long-term lines derived from susceptible strain SJL/J mice and resistant strain DDD/1 mice. The lines and clones from DDD/1 mice were obtained by immunization of congenitally athymic mice of DDD/1 origin, which had been reconstituted with syngeneic Lyt-2+-depleted splenic T cells. The clones derived from both strains bore surface phenotypes of Lyt-1+, 2- and L3T4+, and proliferated well in response to rat, rabbit, bovine, and guinea pig MBP in the presence of antigen-presenting cells with I-As. Passive EAE could be induced in syngeneic normal recipients by these clones as well as by the lines from which the clones were derived. The clinical features of the clone-induced EAE were essentially the same as those of the line-induced EAE. Furthermore, DDD/1 athymic recipients developed signs of acute EAE by the adoptive transfer of I-A-compatible syngeneic and allogeneic T cell clones, in which there was no significant difference in time of onset, maximum severity, or prognosis. These results indicate that the entire clinical course of acute EAE can be elicited by a single population of MBP-reactive T cells in the absence of the thymus and other populations of primed or unprimed T cells.     

Development of Central Nervous System Autoimmunity Is Impaired in the Absence of Wiskott-Aldrich Syndrome Protein

Wiskott-Aldrich Syndrome protein (WASP) is a key regulator of the actin cytoskeleton in hematopoietic cells. Defective expression of WASP leads to multiple abnormalities in different hematopoietic cells. Despite severe impairment of T cell function, WAS patients exhibit a high prevalence of autoimmune disorders. We attempted to induce EAE, an animal model of organ-specific autoimmunity affecting the CNS that mimics human MS, in Was^−/− mice. We describe here that Was^−/− mice are markedly resistant against EAE, showing lower incidence and milder score, reduced CNS inflammation and demyelination as compared to WT mice. Microglia was only poorly activated in Was^−/− mice. Antigen-induced T-cell proliferation, Th-1 and -17 cytokine production and integrin-dependent adhesion were increased in Was^−/− mice. However, adoptive transfer of MOG-activated T cells from Was^−/− mice in WT mice failed to induce EAE. Was^−/− mice were resistant against EAE also when induced by adoptive transfer of MOG-activated T cells from WT mice. Was^+/− heterozygous mice developed an intermediate clinical phenotype between WT and Was^−/− mice, and they displayed a mixed population of WASP-positive and -negative T cells in the periphery but not in their CNS parenchyma, where the large majority of inflammatory cells expressed WASP. In conclusion, in absence of WASP, T-cell responses against a CNS autoantigen are increased, but the ability of autoreactive T cells to induce CNS autoimmunity is impaired, most probably because of an inefficient T-cell transmigration into the CNS and defective CNS resident microglial function.     

Influence of the donors' clinical status on in vitro and in vivo tumor-cytotoxic activation of interleukin-2-exposed lymphocytes and their circulation in different organs

Summary In-vitro-generated lymphokine-activated killer (LAK) cells of BALB/c mice, bearing the syngeneic colon carcinoma C-26 for 7 days, were as efficient as those from normal mice in lysing C-26 cells whereas LAK cells from 14-day tumor-bearing and 5- and 14-day tumor-resected animals had a lower C-26 cytotoxicity. The level of C-26 lysis returned to normal values 30 days after surgery. To identify the best source of LAK cells in vivo, groups of normal mice were treated with 10⁴, 3×10⁴ or 10⁵ U/day of interleukin 2 (IL-2) for 7 days intraperitoneally (i. p.) or intravenously (i. v.) (3×10⁴ dose only). The highest lysis on C-26 was obtained from peritoneal exudate cells of mice given 3×10⁴ and 10⁵ U whereas spleen cells were lytic only when taken from mice treated with 10⁵ U IL-2. Peripheral blood lymphocytes lacked any cytotoxicity except for the group of mice which received IL-2 i. v. The kinetics of in vivo LAK activation in different organs showed a peak of anti-(C-26) lytic activity at day 5 in peritoneal exudate cells and spleen cells of mice given IL-2 for 5 days whereas administration of LAK cells alone had no effect; IL-2 plus LAK cells gave a lower peak of LAK activity as compared with IL-2 alone. A lower level of in vivo LAK activation was found in mice whose tumor was resected 5 days before; such impairment was evident even 14 days after surgery. Homing experiments were carried out with i. v. injected ⁵¹Cr-labelled LAK cells in normal or tumor-resected mice. In normal mice the highest radioactivity at 30 min was found in the lungs; liver and spleen also showed high radioactivity whereas blood had a negligible amount of radioactivity. Radioactivity declined rapidly in lungs (less than 10% after 24 h) while remaining at appreciable levels in the liver after 24 h and 48 h; spleen showed constant levels of 12%–15%. Homing of LAK cells was altered in mice receiving IL-2 i. p. for 5 days with slower and lower radioactivity peaks in the lung and higher levels in liver. In tumor-excised mice lower levels of radioactivity were found in lungs. These results show that: (a) alterations in LAK activity occur in early-tumor-resected and large-tumor-bearing animals; (b) the route of IL-2 administration is critical in LAK activation in vivo; (c) treatment with IL-2 modifies LAK homing.This study was in part supported by grant no. 87.01565.44 of the Finalized Project Oncology of CNR (Rome, Italy)     

Pregnancy-associated murine protein-1 plasma levels during oestrus cycle, pseudopregnancy and pregnancy in the mouse.

A cyclic variation in plasma levels of pregnancy-associated murine protein-1 (PAMP-1) during the oestrus cycle in outbred Pan: Thei mice was recorded. PAMP-1 plasma levels were significantly elevated in dioestrus as compared with the three other stages of the murine oestrus cycle. Until day 7 of gestation the PAMP-1 plasma levels remained low, and no significant differences could be observed between pregnant and pseudopregnant female mice. The PAMP-1 levels increased markedly in the circulation on day 8 of pregnancy, and continued to increase until peak values were reached at day 11 of pregnancy. In the latter half of pregnancy the PAMP-1 levels declined until day 17 of pregnancy, at which stage the normal non-pregnant values were recorded.     

Non-cytotoxic activity of pyran copolymer-induced macrophages associated with potentiation of tumour vaccine in recipient mice

Summary Mice inoculated with both L1210 murine tumour vaccine and pyran copolymer were more resistant to L1210 than those inoculated with either of these agents alone. Rabbit anti-mouse thymocyte globulin and silica reduced the augmented resistance of these mice, suggesting the involvement of activated anti-tumour T cells and macrophages in the augmented resistance. We studied the activation of these two cells separately and examined the possible contribution of pyran copolymer-induced peritoneal cells to the augmented resistance to an inoculation of live tumour. Pyran copolymer-induced peritoneal cells endowed the tumour vaccine-primed mice, but not unprimed mice, with resistance to implanted L1210 and, among those peritoneal cell populations, macrophages but not T cells were responsible for this effect since the activity was associated with a cell population which was (1) adherent to nylon wool columns, (2) sensitive to silica and (3) insensitive to anti-Thy 1.2 antibody plus complement. The pyran copolymer-induced peritoneal cells had very little antiproliferative activity when tested against L1210 in vitro and mice inoculated with these peritoneal cells did not survive a challenge of live L1210 cells much longer (<1 day) than L1210 inoculated control mice. Furthermore, the survival of L1210 vaccine-primed mice inoculated with one-tenth the amount of live L1210 (10²) was still much shorter than that of mice primed with L1210 vaccine plus pyran copolymer and challenged with ten times as many (10³) live L1210 cells. Therefore, direct tumouricidal activity was probably not a major factor in the in vivo immunological augmenting activity of the pyran copolymer-induced macrophages.     

The radiosensitivity of spermatogonial stem cells in C3H/101 F1 hybrid mice

The radiosensitivity of spermatogonial stem cells of C3H/HeH × 101/H F₁ hybrid mice was determined by counting undifferentiated spermatogonia at 10 days after X-irradiation. During the spermatogenic cycle, differences in radiosensitivity were found, which were correlated with the proliferative activity of the spermatogonial stem cells. In stage VIII_irr, during quiescence, the spermatogonial stem cells were most radiosensitive with a D₀ of 1.4 Gy. In stages XI_irr−V_irr, when the cells were proliferatively active, the D₀ was about 2.6 Gy. Based on the D₀ values for sensitive and resistant spermatogonia and on the D₀ for the total population, a ratio of 45:55% of sensitive to resistant spermatogonial stem cells was estimated for cell killing.

When the present data were compared with data on translocation induction obtained in mice of the same genotype, a close fit was obtained when the translocation yield (Y; in % abnormal cells) after a radiation dose D was described by Y = e^τD, with τ = 1 for the sensitive and τ = 0.1 for the resistant spermatogonial stem cells, with a maximal e^τD of 100.     

Activity and Properties of Macrophage Migration Inhibitory Factor produced by Mixed Lymphocyte Cultures

THE macrophage migration test is an in vitro demonstration of delayed hypersensitivity. Supernatant fluids of sensitive lymphocytes cultured for 24 h in the presence of specific antigen contain migration inhibitory factor (MIF) that arrests the migration of macrophages of unsensitized animals in vitro¹,². In vivo, it induces delayed skin reactions³. The use of the macrophage migration test, based on differences of transplantation antigens in donor and recipient, to show histocompatibility has been suggested⁴. The test was also recommended as an indicator of immunological reactivity after organ transplantation, to demonstrate impending rejection⁵. It can demonstrate homograft sensitivity, for migration of peritoneal exudate cells (containing lymphocytes and macrophages) of CBA mice previously sensitized by grafts from A/Jax donors was inhibited when they were mixed with peritoneal exudate cells of the donor strain. However, histocompatibility was not demonstrated, for mixtures of peritoneal exudate cells of ungrafted CBA mice and A/Jax mice migrated regularly during the 24 h test⁶.     

Epithelial V-Like Antigen Mediates Efficacy of Anti-Alpha4 Integrin Treatment in a Mouse Model of Multiple Sclerosis

Natalizumab inhibits the transmigration of activated T lymphocytes into the brain and is highly efficacious in multiple sclerosis (MS). However, from a pharmacogenomic perspective, its efficacy and safety in specific patients remain unclear. Here our goal was to analyze the effects of epithelial V-like antigen (EVA) on anti-alpha₄ integrin (VLA4) efficacy in a mouse model of MS, experimental autoimmune encephalomyelitis (EAE). EVA has been previously characterized in human CD4 T lymphocytes, mouse thymic development, and choroid plexus epithelial cells. Further analysis here demonstrated expression in B lymphocytes and an increase in EVA⁺ lymphocytes following immunization. Following active induction of EAE using the MOG^35–55 active immunization model, EVA deficient mice developed more severe EAE and white matter tissue injury as compared to wild type controls. This severe EAE phenotype did not respond to anti-VLA4 treatment. In both the control antibody and anti-VLA4 conditions, these mice demonstrated persistent CNS invasion of mature B lymphocyte (CD19⁺, CD21⁺, sIgG⁺), increased serum autoantibody levels, and extensive complement and IgG deposition within lesions containing CD5⁺IgG⁺ cells. Wild type mice treated with control antibody also demonstrated the presence of CD19⁺, CD21⁺, sIgG⁺ cells within the CNS during peak EAE disease severity and detectable serum autoantibody. In contrast, wild type mice treated with anti-VLA4 demonstrated reduced serum autoantibody levels as compared to wild type controls and EVA-knockout mice. As expected, anti-VLA4 treatment in wild type mice reduced the total numbers of all CNS mononuclear cells and markedly decreased CD4 T lymphocyte invasion. Treatment also reduced the frequency of CD19⁺, CD21⁺, sIgG⁺ cells in the CNS. These results suggest that anti-VLA4 treatment may reduce B lymphocyte associated autoimmunity in some individuals and that EVA expression is necessary for an optimal therapeutic response. We postulate that these findings could optimize the selection of treatment responders.     

Neonatal susceptibility to MHV3 infection in mice. I. Transfer of resistance.

Up to 3 weeks of age, mice of the resistant A/J strain are fully susceptible to mouse hepatitis virus type 3 infection (MHV3). Immune deficiency, however, resulting from neonatal thymectomy or long term ALS administration led A/J animals to remain susceptible when tested at adult age. Whole spleen cells transferred from normal adult A/J donor mice protected suckling syngeneic recipients from i.p. infection with MHV3. Such a protective capacity of spleen cells was abolished after treatment with anti-theta serum and complement. Spleen cell separation by means of adherence to plastic also showed that neither the nonadherent nor the adherent populations injected separately were able to confer resistance to young mice challenged with the virus. Protection was not achieved with peritoneal cells originating from adult syngeneic animals. Transfer of resistance to MHV3 was obtained, however, when peritoneal cells were associated with adherent spleen cells. This study indicated that two types of mature cells, at least, were required for transferring MHV3 resistance into newborn mice of the A/J strain: T lymphocytes and an adherent spleen cell population.     

Increased apoptosis during the early phase of experimental paracoccidioidomycosis as a phenotypic marker of resistance

Paracoccidiodomycosis (PCM) is a systemic mycosis that presents a wide spectrum of clinical manifestations caused by Paracoccidiodes brasiliensis. The experimental murine model has been used to approach the disease with susceptible and resistant mouse strains that reproduce most of the main human immunological features. We investigated whether the pattern of apoptosis of peritoneal cells from two polar strains of mice after infection with P. brasiliensis could be associated with the susceptibility or resistance to this pathogen. Apoptosis of A/J mouse cells (resistant), cultured in the presence or absence of LPS as stimuli, was observed as early as on the first day of infection. Cells from the infected susceptible strain BALB/c did not exhibit apoptosis in absence of LPS and persistently at a lesser degree than that observed in resistant mice. The apoptosis induced by the infection in resistant mice was not due to nitric oxide, since its blockage either in vitro or in vivo did not revert it. Analysis of additional strains of polar susceptibilities to PCM assured the dissociation of NO production and apoptosis. Interestingly, IL-6 and IL-10 were secreted in high amounts, by BALB/c cells and might be involved in shielding cells from apoptosis induced by P. brasiliensis. Furthermore, IFNgamma(-/-) mice did not show apoptosis of peritoneal cells while the Wt controls presented levels similar to those of A/J strain that secreted high amounts of IFNgamma and IL-1beta. The expression of Fas was increased in both strains and in Wt mice, whereas FasL was decreased in the susceptible strain and not significantly modulated in TNFRI and IFNgamma KO mice. These results suggest that apoptosis might be a mechanism of control of engagement of cells that could otherwise contribute to the susceptible phenotype observed in some strains of mice.     

Effect of injection of adult mouse peritoneal macrophages on suppressor cell activity in neonatal mice

Injection of adult mouse peritoneal exudate cells into newborn mice results in a premature decrease of splenic suppressor cell activity in the neonates. The effect becomes apparent 4–5 days after ip injection of 10–15 × 10⁶ thioglycollate-induced peritoneal exudate cells into mice on the day of birth. The macrophage in the peritoneal exudate is the responsible cell type. The effect is not H-2 restricted or strain limited. Heat-killed peritoneal exudate cells or peritoneal cells from unstimulated donors can also decrease neonatal suppressor cell activity prematurely. Adult spleen cells, injected into neonatal mice, do not affect suppressor cell activity. The data are discussed in light of the hypothesis that macrophages control suppressor activity in neonatal mice and that an increase in the number and/or function of macrophages shortly after birth results in a decrease in the number and/or function of suppressor cells, allowing for immunological competence to emerge.     

DYNAMICS OF LEUKOCYTE MIGRATION INTO THE MOUSE ASCITES TUMOR

There is a marked increase in the number of peritoneal leukocytes (lymphocytes, monocytes and granulocytes) during the growth of Ehrlich ascites tumor in mice. No local proliferation (as indicated by a labeling at 1 hr following a single ³H-TdR injection) was observed in the normal peritoneal leukocytes or those in the ascites tumor, except for a very minor labeling of some tumor macrophages. Kinetics of peritoneal leukocytes was studied with a series of twelve injections of ³H-thymidine (20 μCi every 8 hr) in normal mice as well as mice injected with 10⁶ tumor cells i.p. 2 hr after the last ³H-TdR injection. Animals were sacrificed at intervals up to 6 days. Granulocyte labeling in the blood as well as peritoneal space was near 100% in both groups of animals at all the intervals. Temporal changes in the labeling of lymphocytes (from 10% at 0 day to 22% at day 6), and monocytes (from 20% at 0 day to 57% at day 6) were identical in the blood and peritoneal space of normal animals, indicating a free exchange of cells between these compartments. Higher labeling indices than those in the controls were attained in the blood of tumor-bearing hosts (viz 40% for lymphocytes and 80% for monocytes at 6 days) suggesting an increased turnover of these cells in the circulation. In addition, peritoneal mononuclear cells of tumor-bearing mice showed even a higher labeling than those in the blood (viz 65% for lymphocytes and 92% for monocytes at 6 days) indicating a selective migration and/or retention of newly formed cells within the tumor, in contrast to a random migration into the normal peritoneal cavity. Furthermore, an identical labeling of macrophages to that of monocytes within the tumor indicated a short monocyte-macrophage transition. The preferential accumulation of young mononuclear cells into the tumor may be of functional importance.     

Does the frequency and avidity spectrum of the neuroantigen-specific T cells in the blood mirror the autoimmune process in the central nervous system of mice undergoing experimental allergic encephalomyelitis?

In humans, studies of autoreactive T cells that mediate multiple sclerosis have been largely confined to testing peripheral blood lymphocytes. Little is known how such measurements reflect the disease-mediating autoreactive T cells in the CNS. This information is also not available for murine experimental allergic encephalomyelitis (EAE); the low number of T cells that can be obtained from the blood or the brain of mice prevented such comparisons. We used single-cell resolution IFN-gamma ELISPOT assays to measure the frequencies and functional avidities of myelin basic protein (MBP:87-99)-specific CD4 cells in SJL mice immunized with this peptide. Functional MBP:87-99-specific IFN-gamma-producing cells were present in the CNS during clinical signs of EAE, but not during phases of recovery. In contrast, MBP:87-99-specific T cells persisted in the blood during all stages of the disease, and were also present in mice that did not develop EAE. Therefore, the increased frequency of MBP:87-99-reactive T cells in the blood reliably reflected the primed state, but not the inflammatory activity of these cells in the brain. The functional avidity of the MBP:87-99-reactive T cells was identical in the brain and blood and did not change over 2 mo as the mice progressed from acute to chronic EAE. Therefore, high-affinity T cells did not become selectively enriched in the target organ, and avidity maturation of the MBP:87-99-specific T cell repertoire did not occur in the observation period. The data may help the interpretation of measurements made with peripheral blood lymphocytes of multiple sclerosis patients.     

Optimal Attenuation of Experimental Autoimmune Encephalomyelitis by Intravenous Immunoglobulin Requires an Intact Interleukin-11 Receptor

Background

Intravenous immunoglobulin (IVIg) has been used to treat a variety of autoimmune disorders including multiple sclerosis (MS); however its mechanism of action remains elusive. Recent work has shown that interleukin-11 (IL-11) mRNAs are upregulated by IVIg in MS patient T cells. Both IVIg and IL-11 have been shown to ameliorate experimental autoimmune encephalomyelitis (EAE), an animal model of MS. The objective of this study was to determine whether the protective effects of IVIg in EAE occur through an IL-11 and IL-11 receptor (IL-11R)-dependent mechanism.

Methods

We measured IL-11 in the circulation of mice and IL-11 mRNA expression in various organs after IVIg treatment. We then followed with EAE studies to test the efficacy of IVIg in wild-type (WT) mice and in mice deficient for the IL-11 receptor (IL-11Rα^−/−). Furthermore, we evaluated myelin-specific Th1 and Th17 responses and assessed spinal cord inflammation and demyelination in WT and IL-11Rα^−/− mice, with and without IVIg treatment. We also examined the direct effects of mouse recombinant IL-11 on the production of IL-17 by lymph node mononuclear cells.

Results

IVIg treatment induced a dramatic surge (>1000-fold increase) in the levels of IL-11 in the circulation and a prominent increase of IL-11 mRNA expression in the liver. Furthermore, we found that IL-11Rα^−/− mice, unlike WT mice, although initially protected, were resistant to full protection by IVIg during EAE and developed disease with a similar incidence and severity as control-treated IL-11Rα^−/− mice, despite initially showing protection. We observed that Th17 cytokine production by myelin-reactive T cells in the draining lymph nodes was unaffected by IVIg in IL-11Rα^−/− mice, yet was downregulated in WT mice. Finally, IL-11 was shown to directly inhibit IL-17 production of lymph node cells in culture.

Conclusion

These results implicate IL-11 as an important immune effector of IVIg in the prevention of Th17-mediated autoimmune inflammation during EAE.     

Some effects of chlorambucil on nuclear protein phosphorylation in the yoshida ascites sarcoma

The ability of nuclei, isolated from Yoshida ascites sarcoma cells, to phosphorylate nuclear proteins in the presence of [γ-³²P] ATP has been investigated. Comparisons were made between a strain sensitive to the effects of the alkylating agent, chlorambucil, with a corresponding resistant strain both before and after drug-treatment of tumour-bearing animals.There was no gross quantitative differences between the drug-sensitive and -resistant untreated cells but treatment resulted in increased levels in the sensitive strain.Qualitative differences were seen before treatment in the phosphorylation pattern of the tris-saline-soluble nuclear sap fraction. The high molecular weight species in the fraction from sensitive cells showed phosphorylations which were absent, or present at very low levels, in the corresponding fraction from drug-resistant cells.Changes were observed in the tris-saline-soluble and non-histone protein fractions from drug-sensitive cells following treatment of tumour-bearing animals. Only minor alterations in patterns of phosphorylation were seen in fractions from drug-resistant cells.     

Synergistic cytolytic activity by combined populations of peritoneal T lymphocytes and macrophages during the L5178Y cell tumor-dormant state in DBA/2 mice

It was previously reported that the establishment of the L5178Y cell tumor-dormant state in DBA/2 mice is mediated principally by a peritoneal cytolytic T-cell response that reaches peak levels 4 days after L5178Y cell challenge, lyses more than 99% but less than 100% of peritoneal L5178Y cells, and gradually wanes to background levels by 40–70 days postchallenge (DPC). At this time the majority of mice are clinically normal, and contain a relatively small number of L5178Y cells in the peritoneal cavity. During the tumor-dormant state, mice that harbor more than 10⁴ L5178Y cells contain peritoneal macrophage-mediated cytolytic activity. We report here that tumor-dormant mice that contain fewer than 10⁴ peritoneal L5178Y cells also produce cytolytic activity in vitro, but that it is synergistic, in that the cytolytic activity of adherent (AD) peritoneal cells (PEC) and nonadherent (NAD) PEC cultured together is greater than the additive lysis produced by these cell populations when cultured separately. This synergistic cytolytic activity is: (1) effector cell density dependent, (2) dependent on the tumor-dormant status of the NAD and AD PEC donor mice, (3) protracted in its kinetics during a 48-hr in vitro assay, and (4) dependent on an interaction between NAD T cells and AD phagocytic macrophages. The consistent detection of this in vitro-assayed cytolytic activity in PEC of tumor-dormant mice which harbor small endogenous tumor burdens suggests that it reflects an in vivo cytotoxic effector mechanism involved in the long-term maintenance of the tumor-dormant state.     

Comparison of antigen specificity, class II major histocompatibility complex restriction, and in vivo behavior of myelin basic protein-specific T cell lines and clones derived from (BALB/c x SJL/J) mice

Immunization with myelin basic protein (BP) causes experimental allergic encephalomyelitis (EAE) in certain strains of mice. SJL/J (H-2s) is the prototype sensitive strain. Although BALB/c (H-2d) is resistant to EAE through use of an identical immunization protocol, (BALB/c x SJL/J)F1 hybrid mice develop EAE after immunization with BP. T cell clones specific for BP have been isolated from a highly encephalitogenic line of (BALB/c x SJL/J)F1 hybrid T cells raised against bovine BP. The clones were examined for their H-2 restriction and specificity for heterologous forms of BP (mouse, rat, and bovine BP). The results revealed the clones cross-reacting with mouse (self) BP were almost always restricted to F1 hybrid class II major histocompatibility complex (MHC) elements. In contrast, mouse cross-reactive clones derived from a nonencephalitogenic (BALB/c x SJL/J) T cell line raised against rat BP were largely restricted to H-2d elements. These clones did not cross-react with bovine BP. Four additional lines were generated by carrying the original rat and bovine F1 T cell lines on parental antigen-presenting cells thus generating lines biased toward homozygous (SJL/J, H-2s, or BALB/c, H-2d) restriction elements. These "parentally restricted" T cell lines did not induce EAE when injected in vivo. These results suggest that in this F1 strain sensitivity to T cell-induced EAE is associated with epitopes on murine BP that associate with F1 class II MHC restricting elements. In contrast, nonencephalitogenic T cell lines contain a high proportion of murine cross-reactive clones restricted to H-2d, the haplotype of the classically resistant BALB/c mouse. This work illustrates the use of T cell lines and clones in a model system to further analyze the role of MHC restriction elements in autoimmune disease occurring in heterozygous individuals.     

Protective or Deleterious Role of Scavenger Receptors SR-A and CD36 on Host Resistance to Staphylococcus aureus Depends on the Site of Infection

Staphylococcus aureus is a major human opportunistic pathogen responsible for a broad spectrum of infections ranging from benign skin infection to more severe life threatening disorders (e.g. pneumonia, sepsis), particularly in intensive care patients. Scavenger receptors (SR-A and CD36) are known to be involved in S. aureus recognition by immune cells in addition to MARCO, TLR2, NOD2 and α5β1 integrin. In the present study, we further deciphered the contribution of SR-A and CD36 scavenger receptors in the control of infection of mice by S. aureus. Using double SR-A/CD36 knockout mice (S/C-KO) and S. aureus strain HG001, a clinically relevant non-mutagenized strain, we showed that the absence of these two scavenger receptors was protective in peritoneal infection. In contrast, the deletion of these two receptors was detrimental in pulmonary infection following intranasal instillation. For pulmonary infection, susceptible mice (S/C-KO) had more colony-forming units (CFU) in their broncho-alveolar lavages fluids, associated with increased recruitment of macrophages and neutrophils. For peritoneal infection, susceptible mice (wild-type) had more CFU in their blood, but recruited less macrophages and neutrophils in the peritoneal cavity than resistant mice. Exacerbated cytokine levels were often observed in the susceptible mice in the infected compartment as well as in the plasma. The exception was the enhanced compartmentalized expression of IL-1β for the resistant mice (S/C-KO) after peritoneal infection. A similar mirrored susceptibility to S. aureus infection was also observed for MARCO and TLR2. Marco and tlr2 -/- mice were more resistant to peritoneal infection but more susceptible to pulmonary infection than wild type mice. In conclusion, our results show that innate immune receptors can play distinct and opposite roles depending on the site of infection. Their presence is protective for local pulmonary infection, whereas it becomes detrimental in the peritoneal infection.