M.M. Morris

Role of immune responses in protection and pathogenesis during Semliki Forest virus encephalitis

The course of Semliki Forest virus (SFV) A7(74) infection in immunocompetent BALB/c, athymic nu/nu and severe combined immunodeficient (SCID) mice was compared. BALB/c mice remained healthy and exhibited transient viraemia and infectious virus in the brain from days 2 to 7. Antibodies were detectable by day 5. In comparison, SCID mice displayed a high incidence of paralysis and died: the average day of death was day 23. From infection until death, virus was present in blood and brain. No antibodies were detectable. Athymic mice were intermediate with a transient viraemia and a persistent (> 210 days) sub-clinical central nervous system (CNS) infection. These mice produced anti-viral IgM but not IgG. The pattern of infection in BALB/c or nu/nu mice could be recreated in infected SCID mice by transfer of immune serum from BALB/c or nu/nu mice with the important exception that although BALB/c immune serum could abolish infectivity titres in the CNS, scattered cells positive for viral RNA remained. Transfer of serum decreased mortality and delayed the onset of paralysis. Transfer to infected SCID mice of a non-neutralizing IgG anti-E2 monoclonal antibody did not affect the viraemia but could also reduce brain virus titres. Irrespective of specific immune responses, virus replication in CNS cells was restricted, was generally non-cytopathic and in the absence of specific immune responses could persist. From day 14 lesions of inflammatory, primary demyelination were observed throughout the CNS of BALB/c mice. In contrast, despite prolonged brain virus titres, no demyelinating lesions were observed in infected nu/nu or SCID mice. Lesions could be initiated in the latter by transfer of spleen cells but not antibody. In summary, the focal restricted infection in the CNS of adult mice infected with SFV A7(74) is independent of specific immune responses. IgM antibodies clear the viraemia. IgG antibodies including non-neutralizing antibodies reduce and clear infectious virus but cells positive for viral RNA remain. These may normally be cleared by T cell responses which are damaging and give rise to lesions of demyelination.

Characterization of the cellular and cytokine response in the central nervous system following Semliki Forest virus infection

Cytokines are important mediators in the pathogenesis of central nervous system (CNS) inflammatory diseases including multiple sclerosis (MS), experimental allergic encephalomyelitis (EAE), viral encephalitis and virus induced demyelinating diseases. We have used immunohistochemical techniques to characterize the mononuclear cell infiltrate and cytokine profiles in the CNS following infection of mice with the demyelinating A7(74) strain of Semliki Forest virus (SFV), an important viral model of MS. Mononuclear cell infiltrates in the CNS, first observed at 3 days and maximal during clearance of infectious virus, were comprised predominantly of CD8+ lymphocytes. F4/80+ macrophage/microglia and CD45/B220+ B lymphocytes were most numerous during the subsequent phase of demyelination. CD4+ T-lymphocytes were observed at low levels throughout infection. By immunostaining MHC class I, IL-1beta , IL-3 and TGF beta1 were constitutively expressed in normal mice and were upregulated following infection. MHC class II, IL-1alpha, IL-2, IL-2R, TNF-alpha and IL-6 were strongly upregulated in the CNS of SFV-infected mice and mice with chronic relapsing EAE. The spatial and temporal distribution of these cytokines during the course of disease was analysed. Whereas IL-1alpha, IL-1beta, IL-10, and TGF beta1 were observed on day 3 following infection GMCSF, IL-2 and TNF alpha were first apparent at day 7 when the cellular infiltration in the CNS was most intense. In contrast IFN gamma and IL-6 were first observed on day 10 prior to the demyelination phase of disease. Cytokines in the lesions of demyelination suggest a role in the pathogeneisis of myelin damage. Based on cytokine profiles no clear bias of either a Th1 or Th2 response was observed in the CNS during infection.

Optic neuritis in chronic relapsing experimental allergic encephalomyelitis in Biozzi ABH mice: Demyelination and fast axonal transport changes in disease

The encephalitogenicity of optic nerve tissue was demonstrated in Biozzi ABH (H-2(dq1)) mice. Acute experimental allergic encephalomyelitis (EAE) occurred in 11/14 animals and 4/5 exhibited relapse. The involvement of the optic nerve in spinal cord homogenate induced chronic relapsing EAE (CREAE) was demonstrated by mononuclear cell infiltration and myelin degradation in the optic nerve prior to and during clinical disease. During the relapse phase gross pathological assessment revealed swollen and translucent plaques on the optic nerves. Advanced lesions showed widespread demyelination, astrocytic gliosis and fibrotic changes of the blood vessels. Physiologically, the fast axonal transport of proteins from the retina to the optic nerve and superior colliculus was significantly decreased during relapse. The association of inflammation and demyelination with physiological deficit in the optic nerve highlights the usefulness of this model in the study of multiple sclerosis in which acute monosymptomatic unilateral optic neuritis is a common manifestation. Furthermore, the novel induction of CREAE with optic nerve homogenate suggests that optic neuritis is a common significant role in the pathophysiology and progression of neurological disease in CREAE which may be relevant to studies of optic neuritis in multiple sclerosis.

Modulatory action of essential fatty acids on experimental allergic encephalomyelitis (EAE)

Experimental allergic encephalomyelitis (EAE), an autoimmune disease of the CNS mediated by MHC class II restricted CD4 + T lymphocytes, may be induced in mice with spinal cord homogenate (SCH) or the major myelin constituents. Biozzi A B / H (H-2 dql) mice express H-2A n°d, which is homologous to the HLA.DQBI*0302 allele associated with susceptibility to insulin-dependent diabetes and multiple sclerosis in a subset of patients. A B / H mice exhibit a reproducible form of relapsing EAE after induction with SCH. Although the encephalitogenic antigens are restricted to the white matter, there is little information concerning the antigens involved. Using native myelin basic protein (MBP) and proteolipid protein (PLP) or synthetic 15or 16mer peptides based on the whole MBP, PLP and myelin oligodendrocyte glycoprotein molecules we have identified the encephalitogenic determinants of these myelin components for the induction of EAE in the Biozzi A B / H mouse. These share a common peptide motif which may be important in MHC:T cell interactions in animals which bear this haplotype.