Genetic control of susceptibility to experimental allergic encephalomyelitis in mice

The genetic control of susceptibility to experimental allergic encephalomyelitis (EAE) was studied in mice. The results indicate that sensitivity to disease is not inherited in a simple Mendelian dominant way. Susceptibility to EAE is governed by genes located outside of the major histocompatibility complex and not byH-2-linkedIr genes. No correlation was observed between susceptibility to disease and the cellular immune response toward the small encephalitogenic protein.     

Genetic control of susceptibility to experimental autoimmune uveoretinitis in the mouse model. Concomitant regulation by MHC and non-MHC genes.

Experimental autoimmune uveoretinitis (EAU) in animals is a T cell-mediated autoimmune response directed against cells of the neural retina, in particular the photoreceptors. EAU can be induced in susceptible strains of mice by immunization with purified retinal Ag, and serves as a model for human uveitis. Because strong HLA associations have been noted in a number of human uveitic diseases, we investigated the role of MHC vs non-MHC genes in the control of susceptibility to ocular autoimmunity using the mouse EAU model. Selected strains representing most of the known independent H-2 haplotypes, as well as several H-2-recombinant and congenic strains, were immunized with interphotoreceptor retinoid-binding protein. Ocular pathology was induced in strains of the H-2k haplotype and their I-A-matched congenics, as well as in strains of the H-2r, H-2b, and H-2d haplotypes. In a series of experiments utilizing intra-H-2 recombinant strains, MHC control of susceptibility was tentatively mapped to the I-A subregion of the H-2k. Expression of the I-Ek gene product was not required for susceptibility to EAU, and in fact appeared to have an ameliorating effect on disease. Incidence and severity of disease obtained in strains sharing the same H-2 on a different background, or sharing the same background in the context of a different H-2, indicated that non-MHC genes contribute significantly to the regulation of EAU. Disease expression of susceptible H-2 haplotypes was highest in strains with B10 background (permissive) and ranged from intermediate to absent in strains with other (nonpermissive) backgrounds. The data suggest that although the ability to develop ocular pathology is dependent on the I-A subregion of the H-2, the final expression of disease in susceptible haplotypes is largely determined by background, non-MHC genes.     

Niridazole suppression of experimental allergic encephalomyelitis in Lewis rats.

Administration of niridazole to Lewis rats beginning 2 days before sensitization with guinea pig spinal cord in combination with immunologic adjuvants exerted a dose related suppressive influence on development of experimental allergic encephalomyelitis (EAE). A daily dose of 75 mg/kg completely prevented clinical neurologic signs as well as markedly suppressed occurrence of immunohistopathologic manifestations of this autoimmune disease. A higher daily dose level of niridazole, i.e., 100 mg/k, also inhibited EAE but was associated with neurotoxic manifestations.     

Suppressor cell control of unresponsiveness to experimental allergic encephalomyelitis.

Lymph node cells (LNC) from Lewis rats rendered unresponsive to experimental allergic encephalomyelitis (EAE) by pretreatment with myelin basic protein markedly suppressed clinical (but not histologic) EAE in normal recipients later challenged with an encephalitogenic emulsion. Unresponsiveness was immunologically specific, and required viable LNC; serum transfer was ineffective. These findings suggest that suppressor cells exert control over this autoimmune disease.     

Apoptosis of neurons in rats with experimental allergic encephalomyelitis

NPP2, also known as phosphodiesterase-I alpha/autotaxin, is a type-II membrane protein that belongs to the nucleotide pyrophosphatase/phosphodiesterase family (NPP). We have recently demonstrated that NPP2 is expressed and released by differentiating oligodendrocytes during the critical stages of CNS myelination. The structural domains of this secreted macromolecule suggest a functional role in the regulation of oligodendrocyte adhesion. Here, we present data that demonstrates that NPP2 interferes with the ability of oligodendroglial cells to adhere to known CNS adhesion molecules present during the onset of myelination, such as fibronection, vitronectin, and merosin (laminin2). Responses to NPP2 appear to be regulated by a different mechanism depending on the developmental stage of the oligodendrocyte. Although the exact mechanisms for NPP2 mediated counter-adhesion are unknown, our studies have implicated that an active signalling mechanism involving heterotrimeric G proteins is responsible for adhesion modulation. These studies clearly define a role of NPP2 as a matricellular protein modulating oligodendrocyte adhesion and suggest that NPP2 function may represent the first step of oligodendrocyte remodelling when differentiating oligodendrocytes are actively involved in the formation of the myelin sheath.     

Genetic control of rat heart allograft rejection: effect of different MHC and non-MHC incompatibilities

We investigated the genetic control of heterotopic heart allograft rejection using a family of standard inbred, major histocompatibility complex (MHC)-congenic, and intra-MHC recombinant rat strains. Gene products of the various regions within the rat MHC differed markedly in their capacity to induce rejection. Isolated incompatibility at class I antigens encoded by theRT1. A andRT1. C regions failed to induce rejection within the observation period of 100 days, whereas class II antigens encoded by theRT1.B/D region provoked rapid rejection within 10 days. By comparison of the rejection times of isolated and combined incompatibilities a number of functional interactions could be demonstrated between individual MHC regions which either prolonged or shortened allograft survival. In contrast to rapid rejection of MHC-mismatched heart allografts, differences at non-MHC histocompatibility antigens were associated with graft survival beyond 100 days, although chronic rejection of variable severity was detected histologically. Disparity at non-MHC plus class I antigens, however, provoked acute heart allograft rejection.     

Suppression of experimental allergic encephalomyelitis in rats by mercuric chloride

Brown-Norway (BN) rats are uniquely susceptible to development of autoimmune phenomena and enlargement of lymph nodes and spleen after repeated injections of mercuric chloride. Despite its ability to produce autoimmunity, HgCl2 inhibited the development in BN rats of experimental allergic encephalomyelitis (EAE), another autoimmune process. The inhibition by mercury was probably due to lack of the normal absorption and granulomatous reaction to the EAE inoculum in the enlarged lymph nodes draining the inoculation site. Lewis rats did not develop enlarged nodes from HgCl2 treatment. Lewis lymph nodes absorbed the EAE inoculum abundantly and developed an extensive granulomatous reaction despite the mercury treatment, and there was only a slight inhibition of EAE. Therefore, the ability of HgCl2 to produce lymphadenopathy in BN rats may be responsible for the inability of these rats to absorb the inoculated antigen. The mercury-induced failure of absorption was manifested as an inhibition of EAE in BN rats.     

Synthetic Peptide dendrimers block the development and expression of experimental allergic encephalomyelitis

Multiple Ag peptides (MAPs) containing eight proteolipid protein (PLP)(139-151) peptides arranged around a dendrimeric branched lysine core were used to influence the expression and development of relapsing experimental allergic encephalomyelitis (EAE) in SJL mice. The PLP(139-151) MAPs were very efficient agents in preventing the development of clinical disease when administered after immunization with the PLP(139-151) monomeric encephalitogenic peptide in CFA. The treatment effect with these MAPs was peptide specific; irrelevant multimeric peptides such as guinea pig myelin basic protein GPBP(72-84) MAP (a dendrimeric octamer composed of the 72-84 peptide) and PLP(178-191) MAP (a dendrimeric octamer composed of the PLP(178-191) peptide) had no treatment effect on PLP(139-151)-induced EAE. PLP(139-151) MAP treatment initiated after clinical signs of paralysis also altered the subsequent course of EAE; it limited developing signs of paralysis and effectively limited the severity and number of disease relapses in MAP-treated mice over a 60-day observation period. PLP(139-151) MAP therapy initiated before disease onset acts to limit the numbers of Th17 and IFN-gamma-producing cells that enter into the CNS. However, Foxp3(+) cells entered the CNS in numbers equivalent for nontreated and PLP(139-151) MAP-treated animals. The net effect of PLP(139-151) MAP treatment dramatically increases the ratio of Foxp3(+) cells to Th17 and IFN-gamma-producing cells in the CNS of PLP(139-151) MAP-treated animals.     

Histochemistry of oxidative enzymes in experimental allergic encephalomyelitis.

The histoenzymic pattern of oxidative enzymes (G3PD, IDH, SD, G6PD,HBD, NADPH: dehydrogenase) was investigated in experimental allergic encephalomyelitis (EAE) produced in rats according to PATERSON [13]. The results obtained lead to following conclusions: (1) The neuroglia, including the white matter oligodendroglia of immunized rats, exhibits increased oxidoreductase activities; (2) The neuroallergic reaction induces some stimulation of the oxidoreductive metabolism of oligoden-droglia; (3) The enzymatic hyperactivity in EAE does not show any relation to the morphological signs of alterations of the myelin sheath.     

Correlation of cytotoxicity with experimental allergic encephalomyelitis.

Cytotoxicity of immune lymph node cells in experimental allergic encephalomyelitis (EAE) was maximal 9 days after injection of encephalitogenic emulsion. The ability of these cells to passively transfer EAE was also maximal at this time. Immune spleen cells were more cytotoxic than lymph node cells 9 days after injection; however, these cells did not passively transfer EAE. Twelve days after injection of encephalitogenic emulsion immune spleen cells passively transferred EAE with resulting mild histopathologic lesions. At this time the spleen cells were 50% more cytotoxic than comparable lymph node cells. Cyclophosphamide suppressed the development of clinical EAE and the development of cytotoxic lymphoid cells. It also reduced clinical signs and cytotoxic activity of lymph node cells. Spleen cell cytotoxic activity was enhanced by Cyclophosphamide. It was concluded that cytotoxic activity of lymph node and spleen cells was correlated with the ability of these cells to produce EAE. Lymph node cell populations differed qualitatively and/or quantitatively from immune spleen cell populations in EAE. Capacity to passively transfer EAE coincided with the maximal Cytotoxicity of the lymphoid cells from each tissue.     

Effect of vitamin E and thymalin on the development of experimental allergic encephalomyelitis

It has been established in the experiments on rats resistant to encephalomyelitis that vitamin E deficiency promoted and thymaline administration prevented the onset of the disease. The experiments on guinea-pigs sensitive to encephalomyelitis have shown that the combined administration of alpha-tocopherol and thymaline prevented the development of the disease. The results obtained make it possible to suggest that the resistance to encephalomyelitis depends on the level of membrane antioxidant defense and the condition of T-cell immunity.     

Lipid content in brain and spinal cord during experimental allergic encephalomyelitis in rats

Abstract— The content of cerebrosides, sulphatides, gangliosides, cholesterol and phospholipids was evaluated in the brain and spinal cord of rats during the acute and recovery stages of experimental allergic encephalomyelitis (EAE). During the acute stage there was a significant decrease of sulphatides and gangliosides in spinal cord; in brain, only sulphatides were diminished. In the recovery stage, cerebrosides and gangliosides were decreased in the brain, whereas the lipid content of the spinal cord was similar to that in control animals. Cholesterol esters were detected in the brain and spinal cord during both periods. The results show that the changes are not the same for brain and spinal cord during the acute and recovery stages and that glycosphingolipids from either white or grey matter seem to be preferentially altered.     

Autoimmune effector cells. IV. Induction of experimental allergic encephalomyelitis in Lewis rats without adjuvant

Experimental autoimmune encephalomyelitis (EAE) was induced in Lewis rats without the aid of adjuvant. Radioresistant cells were activated from spleens of nonimmune donor rats by in vitro culture with myelin basic protein (BP). After adoptive transfer, these cells recruited EAE effector cells in normal syngeneic recipients, as demonstrated after transfer to secondary hosts. The induction of EAE without adjuvant may lead to a better understanding of the mechanisms of autoimmune disease induction.