The deficiency of myelin in the mutant taiep rat induces a differential immune response related to protection from the human parasite Trichinella spiralis.

Taiep rat is a myelin mutant with a progressive motor syndrome characterized by tremor, ataxia, immobility episodes, epilepsy and paralysis of the hindlimbs. Taiep had an initial hypomyelination followed by a progressive demyelination associated with an increased expression of some interleukins and their receptors. The pathology correlated with an increase in nitric oxide activity and lipoperoxidation. In base of the above evidences taiep rat is an appropriate model to study neuroimmune interactions. The aim of this study was to analyze the immune responses in male taiep rats after acute infection with Trichinella spiralis. Our results show that there is an important decrease in the number of intestinal larvae in the taiep rat with respect to Sprague-Dawley control rats. We also found differences in the percentage of innate and adaptive immune cell profile in the mesenteric lymphatic nodes and the spleen that correlated with the demyelination process that took place on taiep subjects. Finally, a clear pro-inflammatory cytokine pattern was seen on infected taiep rats, that could be responsible of the decrement in the number of larvae number. These results sustain the theory that neuroimmune interaction is a fundamental process capable of modulating the immune response, particularly against the parasite Trichinella spiralis in an animal model of progressive demyelination due to tubulinopathy, that could be an important mechanism for the clinical course of autoimmune diseases associated with parasite infection.

Characterization of spontaneous dermatitis in beige rats with IgE hyperproduction.

BACKGROUND: Atopic dermatitis (AD) is a common skin disease characterized by chronic recurrent eczematous lesions, but its exact etiology and mechanism are unclear. We found that beige rats (DAbg/bg), a mutant model of Chediak-Higashi syndrome, develop skin lesions characterized by pruritus, excoriation, erosion and alopecia. We describe the beige rat and examine its possible usefulness as an AD model. METHODS: Beige rats of 4, 8, 13, 16, 26 and 52 weeks were used. Histological analysis of the skin was performed. Plasma IgE and cytokines were measured. Th1 and Th2 cytokines and RANTES mRNA expression of skin and lymph nodes were evaluated. Passive cutaneous anaphylaxis (PCA) reactions were examined, and maximization tests were conducted. RESULTS: Skin lesions begin to develop with increases in serum IgE levels and the expression of IL-4 mRNA in the lymph node and skin. Histologically, skin lesions are characterized by acanthosis, ulceration and inflammatory cell infiltration in the dermis. Inflammatory cells consist of CD3+, CD4+, ED1+, ED2+ and I-A+ mononuclear cells, eosinophils, degranulated mast cells and neutrophils accompanying interleukin (IL)-4, interferon (IFN)-gamma and RANTES mRNA expressions of the skin. Inflammatory cells are reduced during chronification with decreased expressions of IL-4, IFN-gamma and RANTES mRNA. In addition, the rats show a high sensitivity to PCA reactions and maximization tests. CONCLUSIONS: Our results show that some of the skin lesions of beige rats are morphologically similar to human AD, being characterized by inflammatory cell composition in the acute phase, and increased IgE and RANTES levels. However, the inflammatory process and cytokine expression pattern are different from those in human AD.

BB rat lyp mutation and Type 1 diabetes.

BioBreeding (BB) rats spontaneously develop an autoimmune diabetic syndrome similar to that observed in humans and NOD mice. One of the diabetes susceptibility loci maps to the lyp locus on chromosome 4. In this article we describe the consequences of the BB rat lyp mutation on T-cell homeostasis, repertoire and function, as well as its role in the pathogenesis of type I diabetes.

Contrasting outcomes of donor-specific blood transfusion: effectiveness against cell-mediated but not antibody-mediated rejection.

BACKGROUND: Giving recipients a prior donor-specific blood transfusion (DST) is effective in prolonging organ allograft survival in some inbred strains but not in others. The present investigation analyzed two such contrasting strains of rats in an attempt to define the basis for this variation. METHODS AND RESULTS: The survival of fully mismatched Dark Agouti (RT1a) cardiac allografts was significantly prolonged (from 7 to 44 days, median survival times) in PVG (RT1c) rats given a prior (-14 day) DST, whereas it shortened survival in the high-responder PVG-RT1u strain. Injecting PVG recipients with blood from strains bearing defined differences indicated that each disparity contributed to the increased survival time in an incremental way: blood and heart matched at the MHC class I (A) and/or class II (B/D) loci had a major influence on survival; class I-like (C) and non-MHC antigens made only minor contributions. MHC disparities had contrasting effects in RT1u rats. Blood transfusions from Dark Agouti or PVG-R8 (AaB/DuCu) rats induced accelerated rejection and anti-Aa alloantibody formation; transfusing PVG-R23 (AuB/DaCa) blood, a class II and class I-like difference, induced indefinite R23 heart allograft survival. Although produced in high titer, anti-class II antibody was not able to induce rejection in RT1u rats. Specific anti-Aa alloantibody was able, after passive transfer, to destroy class I-disparate allografts in both RT1u nude and PVG nude recipients. However, under normal circumstances, acute rejection in the PVG strain occurred in the absence of anti-Aa antibodies, presumably by a cell-mediated mechanism. CONCLUSION: Anti-class I alloantibody, when produced, seemed to override the unresponsiveness induced by DST. The results indicated that DST was effective only when rejection was induced by a cell-mediated response. The two contrasting response patterns in animals may reflect the experience of transplant patients who either benefit from DST or become sensitized instead.

Interstrain variability of autoimmune encephalomyelitis in rats: multiple encephalitogenic myelin basic protein epitopes for DA rats.

We investigated T cell epitopes of guinea pig myelin basic protein (MBP) that induce experimental autoimmune encephalomyelitis (EAE) in DA rats, using synthetic peptides that correspond to regions of the guinea pig MBP molecule that are homologous to rat MBP. Four peptides were encephalitogenic when tested in DA rats. MBP63-81, which partially overlaps the dominant encephalitogenic MBP epitope for Lewis (LEW) rats, caused severe EAE in the DA strain but did not elicit EAE in LEW rats. MBP66-81 and MBP63-76 were also encephalitogenic for DA but not LEW rats. MBP79-99 also induced EAE in DA rats, although MBP87-99, the minor encephalitogenic LEW epitope, was inactive. This indicates that part of the 79-86 sequence is necessary for encephalitogenic activity in the DA strain. MBP101-120, and MBP142-167 were also encephalitogenic for DA rats. T cells from DA rats immunized with intact MBP proliferated in response to the whole protein and to MBP79-99, but were not stimulated to a significant extent by the other encephalitogenic peptides, suggesting that these may represent cryptic or subdominant epitopes. However, MBP63-81-specific T cell lines could be isolated by repeated restimulation with peptide, indicating that the peptide-specific T cells were present in DA rats at low frequency.

Characterization of complement C6 deficiency in a PVG/c rat strain.

Complement C6 plays an important role in the effector phase of complement-mediated cell lysis. Recently, a PVG/c rat strain deficient in haemolytic C6 activity was discovered. In the present study we show that these rats lack both antigenic and functional C6, and that repetitive immunization of these rats with PVG/c+ serum results in generation of specific anti-rat C6 antibodies. The observed absence of rat C6 was further investigated at the genomic and transcriptional level using a 492-bp cDNA of rat C6, cloned from a rat liver cDNA library using full length human C6 as a probe. Northern blot analysis revealed the presence of C6 mRNA in livers of both PVG/c- and PVG/c+ rats, corresponding to a size of approximately 3.3 kb, although the level of C6 mRNA expression was approximately 100-fold less in PVG/c- rats. In addition, using rat C6-specific primers, positive signals were obtained in kidneys of both rat strains by reverse transcriptase-polymerase chain reaction (RT-PCR) analysis. Southern blot analysis of digested genomic DNA did not reveal evidence for large C6 gene deletions. We conclude that the lack of C6 protein in the PVG/c- rat strain is not due to a (large) C6 gene deletion, but presumably is caused by an unstable mRNA or a point mutation in the C6 gene resulting in an aberrant transcription of the C6 gene. Alternatively, a gene coding for a product involved in C6 biosynthesis that acts in trans may carry a mutation.

Hereditary C6 deficiency in a strain of PVG/c rats.

A chance observation has led to the discovery of a strain of PVG rats (PVG/c-) which are deficient in complement (C) component C6. Analysis of total haemolytic activity (CH50) of PVG/c- serum revealed an absent CH50 activity compared with serum of other rat strains and of a PVG/c rat (PVG/c+) that showed normal C activity. Thus, the PVG/c- rat was unable to activate the C5b-9 membrane attack complex. To gain insight into the complement abnormalities, analysis of individual C components was performed. Testing the PVG/c- serum in a C6 haemolytic assay and using deficient human sera showed a deficiency of C6 in the PVG/c- rat. Highly purified human C6 and human sera deficient in other components were able to reconstitute the CH50 activity of the PVG/c- rat. The possibility that an inactivator of C was present in PVG/c- serum was excluded. The deficiency was found to be inheritable and under the control of an autosomal recessive gene. Furthermore, tissue antigens and immunity of the PVG/c- rat were found to be identical to those determined in the PVG/c+ rat. With regard to their health status, the PVG/c- animals seem to have no disadvantages compared with PVG/c+ rats when held under the same conditions within the protected environment of animal facilities. Taken together, both rat strains provide an unique animal model for studying the biological role of C, particularly the C5b-9 membrane attack complex in experimental medicine.

Intestinal intra-epithelial lymphocytes in LEC mutant rats.

LEC rat is a novel strain showing a maturational arrest from CD4+8+ to CD4+8- cells but not to CD4-8+ cells in the thymus. In this study, we examined if this mutation affects the differentiation of intestinal intra-epithelial lymphocytes (IEL) in LEC rats. In normal rat IEL, all 4 subsets with respect to the CD4/CD8 expression were observed. The CD4-8+ population was dominant and a unique population, CD4+8+, was observed as already shown in previous papers. Both CD4+8- and CD4+8+ cells were CD3+, TCR-alpha/beta +, CD45RC-, and CD5+, whereas CD4-8+ cells consisted of a heterogeneous population, being CD3+, TCR-alpha/beta +/-, CD45RC+/-, and CD5-. In LEC rat IEL, CD4+8- and CD4+8+ cells existed normally and distribution of CD4/CD8 subsets was not different from that of normal rat IEL. Furthermore, the expression pattern of CD3, TCR-alpha/beta, CD45RC and CD5 was not different from that of normal rat IEL in each subset. These results suggest that maturational arrest of CD4+8- thymocytes does not affect IEL maturation, especially maturation of CD4+8- IEL, suggesting that the IEL maturation mechanism for CD4+8- cells is independent of that of thymocytes.

IL-1 beta modulation of spontaneous autoimmune diabetes and thyroiditis in the BB rat.

Long term effects of in vivo treatment with human rIL-1 beta on diabetogenesis and thyroid disease were determined in the Biobreeding rat. Administration of high dose (10 micrograms/kg) IL-1 beta accelerated the onset of insulin-dependent diabetes mellitus compared to saline-injected controls. High dose treatment resulted in goiter development, pronounced LT, reduced serum T4 levels, and overall growth reduction. In contrast, low dose IL-1 beta (0.5 microgram/kg) administration significantly reduced the frequency of insulin-dependent diabetes mellitus (48%) compared to placebo (86%) and high dose IL-1 beta (93%) treatment groups. Rats protected by low dose IL-1 beta had unaffected growth rates and minimal to no pancreatic and thyroid pathology. Our results demonstrate that exogenous administration of IL-1 beta modulates Biobreeding rat idiopathic autoimmune diabetes and thyroid disease in a dose-dependent manner.

Identification of the mononuclear cell infiltrate in the superior cervical ganglion of athymic nude and euthymic rats after guanethidine-induced sympathectomy.

Guanethidine sulphate 40 mg/kg intraperitoneally for 14 days induced chromatolysis and nerve cell death in the superior cervical ganglia of athymic nude (rnu/rnu) LEW/Mol rats and their euthymic (+/rnu) LEW/Mol heterozygous littermates. Histologically the sympathetic ganglia were dominated by an infiltration of small inflammatory cells. By means of monoclonal antibodies these cells were identified. The number of B-lymphocytes increased following guanethidine in both athymic and euthymic rats. The number of T-lymphocytes increased to a great extent in euthymic rats, but was virtually missing in athymic rats. The number of NK-cells and monocytes/macrophages increased in both athymic and euthymic rats. The conclusion is, that guanethidine exerts a direct effect on sympathetic ganglion cells followed by a thymus-independent immune response.

The origin of T cells in permanently reconstituted old athymic nude rats. Analysis using chromosome or allotype markers.

Athymic PVG-rnu/rnu rats receiving a single intravenous injection of syngeneic euthymic thoracic duct lymphocytes (TDL) develop normal levels of CD4+ T lymphocytes and survive for more than 2 years in a conventional animal house. We investigated the origin of the T cells (and B cells) in reconstituted nude recipients by transferring TDL carrying either the 3T chromosome marker or the RT6b + Igk-1b allotype or the RT7b (leucocyte-common) allotype markers. Karyotype analysis of spleen and lymph node (LN) cells from 1- to 2-year-old PVG-3T/3T-reconstituted nude recipients, stimulated in vitro with phytohaemagglutinin (PHA), unexpectedly revealed that a majority (79-97%) of dividing cells were of nude origin. However, extensive nude cell division was also recorded in PHA-stimulated cultures using mixtures of euthymic (PVG-3T/3T) and unreconstituted nude spleen cells; the assumption that only T cells divide in PHA-stimulated cultures thus appears to be erroneous. In contrast to the karyotype analysis, sIg- RT6b+ LN cells obtained from nude recipients reconstituted 2 years earlier with PVG-RT6b allotype-marked TDL, were all of donor origin with no indication of a nude-derived sIg- RT6a+ population. Igk-1b+ donor B cells were not found in these same recipients. Dual fluorescence analysis of TDL from 18- to 20-month RT7b-reconstituted nudes showed that 91-100% of CD4+ cells were donor-derived. When tested functionally, sIg- RT7b+ (donor) cells, but not sIg- RT7b- (nude-derived) cells, were able to reject skin allografts and induce local graft-versus-host (GVH) responses. Donor T cells, in contrast to CD4+ cells of nude origin, divided extensively in nude recipients; FACS-purified RT7b+ (donor) TDL retransferred from 17-month primary reconstituted nude rats, expanded further (60-100-fold) in secondary nude recipients. In conclusion, only the donor-derived CD4+ cells in reconstituted nude rats displayed T-cell function; evidence to the contrary from karyotype analysis was flawed. At no stage in their life did uninjected or T-cell reconstituted nude rats develop endogenous cells that in any way resembled CD4+ products of the thymus.

T cell differentiation in athymic nude rats (rnu/rnu): demonstration of a distorted T cell subset structure by flow cytometry analysis.

The expression of T cell-associated antigens was analyzed on extrathymically differentiated T cells from athymic nude (rnu/rnu) rats. Two-color flow cytometry and monoclonal antibodies were used to compare the subset structure of the rnu/rnu T cell population with that of normal T cells. In adult nude rats CD4+ and CD8+ cells were found which co-expressed the OX19 antigen (CD5) clearly defining them as T cells. Double-positive (CD4+CD8+) cells were not detected in nylon wool-enriched rnu/rnu T cells. The ratio of CD4+ to CD8+ cells in nude rat lymph node cells did not significantly differ from normal T cells. However, the composition of the nude rat CD4+ and CD8+ subsets [as identified by the subset-dividing monoclonal antibodies OX22 and P4/16 (anti-RT6)] differed from that found in control rats. The most striking observation among the rnu/rnu CD4+ subset was an inversion in the ratio of OX22+ to OX22- cells (0.5) compared to normal rats (2.3). Only 61% of the nude rat CD4+ cells were found to be RT6+ compared to 85% of rnu/+ CD4+ cells. In the rnu/rnu CD8 subset the proportion of RT6 co-expressing cells was also markedly reduced (38% vs. 77% of the CD8+ subset). Furthermore, the nude rat CD8+ subset contained a substantial number of OX22- cells which were nearly absent in normal rats. The demonstration of cells bearing T cell markers in adult athymic rats further confirms the existence of an extrathymic pathway of T cell differentiation. The unusual T cell subset composition found in athymic rats, however, indicates that T cell subset generation and/or maintenance along this pathway differs from normal T cell development.

Cellular requirements for renal allograft rejection in the athymic nude rat.

This study has examined the ability of adoptively transferred CD4+ and CD8+ T cells to mediate rejection of a fully allogeneic DA renal graft in the PVG nude rat. Transfer, at the time of transplantation, of naive CD4+ T cells caused rapid graft rejection and primed CD4+ cells were several times more potent. In contrast, naive or specifically sensitized CD8+ cells were entirely ineffective at mediating renal allograft rejection. Whereas nonrejecting grafts showed only a mild cellular infiltrate, rejecting grafts in CD4+ reconstituted animals showed a substantial infiltrate and many of the infiltrating cells had a phenotype (MRC OX8+, MRC OX19-), consistent with NK cells. Experiments using a mAb (HIS 41) against an allotypic determinant of the leukocyte common antigen confirmed that the majority (greater than 80%) of the cellular infiltrate in rejecting grafts derived from the host rather than from the CD4+ inoculum. Infiltrating mononuclear cells, obtained from rejecting allografts 7 d after transplantation in CD4+-injected PVG nude hosts, showed high levels of in vitro cytotoxicity against not only kidney donor strain Con A blasts but also third-party allogeneic Con A blasts, as well as against both NK and LAK susceptible targets. When splenocytes from nontransplanted nude PVG rats were tested in vitro they also demonstrated high levels of lytic activity against both NK and LAK susceptible targets as well as allogeneic Con A blasts, which were not susceptible to lysis by spleen cells from euthymic rats. These findings suggest that injected CD4+ cells may cause renal allograft rejection by the recruitment of extrathymically derived, widely alloreactive cells into the kidney in this model of graft rejection.

Natural killer cell activity in vasopressin-deficient rats (Brattleboro strain).

Several lines of evidence suggest that the neuropeptide vasopressin is involved in the regulation of the immune system. We explored this possibility by comparing the cytotoxic activity of natural killer (NK) cells in Brattleboro (DI) rats, which are homozygous for diabetes insipidus and lack vasopressin, and Long-Evans (LE) rats, the strain from which DI rats were derived. Additionally, we compared the effects of swim stress, morphine administration and vasopressin replacement on NK cell activity in these two strains. In DI rats, NK cell activity, determined by a standard 4-h chromium-release assay, was significantly higher than in LE rats. Both swim stress and morphine administration suppressed NK activity in DI and LE rats. There was no difference in the level of suppression between the two strains. Vasopressin replacement normalized water intake in DI rats, but had no significant effect on NK cell activity. DI rats exhibited lower plasma corticosterone levels, which were not elevated by vasopressin replacement. The results suggest that the lack of vasopressin in DI rats elevates baseline NK cell activity, probably via mechanisms that are secondary to the vasopressin deficiency (e.g. lower corticosterone levels). Neither vasopressin nor other hormones affected by vasopressin deficiency seem to be involved in the acute modulating effects of stress and morphine on NK cells.

Autoimmunity-prone BB rats lack functional cytotoxic T cells.

BB rats are prone to develop an autoimmune form of insulin-dependent diabetes mellitus (IDDM) and thyroiditis. Development of autoimmunity is thymus dependent. Previous studies have shown that BB rats lack a population of T cells bearing the RT6 antigen and have very low numbers of suppressor/cytotoxic T cells. In this study, we confirm that BB rats have decreased numbers of phenotypic T suppressor/cytotoxic (Ts/c) cells (OX19+, OX8+ cells) in their lymphoid organs. Moreover, we find that the phenotypic Ts/c cells of BB rats lack apparent cytotoxic activity. These T cells fail to kill allogeneic target cells in a cell-mediated lympholysis assay and fail to generate lectin-dependent cytotoxicity. The addition of interleukin 2, gamma-interferon, and other lymphokines to cultures of BB T cells does not induce functional cytotoxic T lymphocytes. We find that the activated T cells of newly diabetic rats are incapable of killing major-histocompatibility-complex-matched islet cells, despite the ability of these cells to cause IDDM in passive transfer experiments. We conclude that autoimmune disease occurs in BB rats in the absence of functional cytotoxic T cells.

Serological evidence for a defect in RT1.B (I-A) expression by the BDIX rat strain.

Astrocytes, astrocytic cell lines and endothelium from BDIX rats were stimulated with recombinant interferon-gamma (IFN-gamma) and the expression of MHC molecules quantified using an enzyme immunoassay (EIA). Using the two mouse anti-RT1.B monoclonal antibodies MRC OX4 and OX6, previously described as recognizing a monomorphic determinant on RT1.B, as well as polyvalent rabbit anti-rat class II antisera, we were unable to demonstrate any induction of RT1.B molecules on these cells under conditions that induced RT1.B expression in all other strains tested. In contrast, RT1.D locus class II molecules, detectable by the antibody MRC OX17, are more strongly expressed in BDIX than in other strains. In experiments using BDIX lymphocytes, this serologically detected defect in RT.1B expression was confirmed using four additional mouse anti-mouse I-Ak monoclonal antibodies, which cross-reacted on all rat strains tested except BDIX. It appears likely that BDIX rats lack either a structural or controlling gene required for RT1.B expression.

BioBreeding/Worcester (BB/Wor) rats are deficient in the generation of functional cytotoxic T cells.

The BioBreeding/Worcester (BB/Wor) rat provides a good model of spontaneous autoimmune diabetes. There are several sublines of the BB/Wor rat. The diabetes prone (DP) sublines develop diabetes at a frequency of 50 to 80% from 60 to 120 days of age. The DP rats are lymphopenic, have a severe deficit in phenotypic OX 19+ OX 8+ cytotoxic T cells (Tc), and lack RT 6.1 T cells. These rats have a relative increase in OX 19- OX 8+ natural killer (NK) cells and in NK activity as compared with the diabetes resistant (DR) sublines. The DR sublines have a normal complement of phenotypic Tc and RT 6.1 T cells, fewer NK cells, and lower NK activity than the DP rat. The ability to elicit functional Tc in the BB/Wor rat has not been well studied. In these experiments, by using a model of lymphocytic choriomeningitis virus (LCMV) infection in DP and DR rats, we have studied the functional activity of Tc in these lines. Seven days after infection with LCMV, DR rats develop lymphocytes which are cytotoxic for LCMV-infected syngeneic fibroblasts. These cytotoxic lymphocytes are phenotypic Tc (OX 19+ OX 8+), and do not kill Pichinde virus-infected syngeneic fibroblasts or LCMV-infected allogeneic fibroblasts. This cytotoxic activity is accompanied by an increase in phenotypic Tc from 17 to 33%. DP rats produced neither functional nor phenotypic Tc. These studies confirm that NK cells are the predominant cytotoxic lymphocyte in the BB/Wor rat and suggest that these rats may not utilize a Tc mechanism in islet destruction or another immunologic process such as graft rejection.

The stable and permanent expansion of functional T lymphocytes in athymic nude rats after a single injection of mature T cells.

Athymic nude rats (PVG.rnu/rnu) were injected at 6 to 10 wk of age with 1 to 200 million thoracic duct lymphocytes (TDL) containing 40 to 60% mature T cells. Thereafter TDL-injected nude recipients were monitored for evidence of T cell function for up to 2 yr. W3/25+ T helper (Th) cells in lymph nodes (LN) increased from 7% at 2 wk to 30% at 8 wk after TDL transfer. The percent of W3/25+ cells remained elevated for the life of the recipient (up to 2 yr), approximating normal levels. The total size of the recirculating pool expanded in TDL-injected nude rats to reach 2/3 the level of euthymic controls by 16 wk, an increase of 10-fold to 15-fold in W3/25+ cells. The expansion of the W3/25+ population was independent of initial TDL dose. With time spleen and LN acquired a normal histological appearance including the development of germinal centres and a marked increase in cellularity in T cell traffic areas. TDL-injected nude rats rejected skin allografts with near normal kinetics. In addition graft vs host (GVH) responsiveness, assessed by the popliteal LN assay, progressively increased reaching a level 9 mo to 1 yr after replacement that resembled the GVH activity in euthymic controls.