The virus was discovered by virologistMax Theiler in 1937 while working at the Rockefeller Institute. Theiler discovered the encephalomyelitis virus during research on poliovirus-like paralysis symptoms in mice. That year Theiler had completed work on developing a vaccine for yellow fever, for which he is best known; in 1951 he received the Nobel Prize for that achievement.
Strains
The several different strains of TMEV are characterized by their pathology as well as genetic sequencing and proteomics. The two major groups are listed below; there are several other strains in the same group as DA.
The TMEV DA strain, in contrast, is characterized by chronic encephalomyelitis in susceptible mice. Infection initiates in astrocytes and microglia, but persists in macrophages. This strain has been used as an acceptable model for human multiple sclerosis. The DA strain has also been shown to inhibit IRF-3 phosphorylation, by inhibiting an unknown intermediate step after RIG-I/MDA5 activation of IKKε and TBK1 kinases. The L protein has been shown to be critical in this process, although the mechanism is unknown. The DA strain of TMEV also encodes for a L* protein that is likely involved in viral persistence in macrophages. This protein's influence on the murine immune system, therefore, could be beneficial in understanding immune-mediated demyelination in diseases such as multiple sclerosis.
Analogies with multiple sclerosis/pathology
Multiple Sclerosis is a chronic disease that results in demyelination of the axons in brain and spinal cord, which often leads to severe neurological problems and eventually paralysis. The symptoms of MS are largely immune mediated, but the mechanism of the immune system's initiation in this disease is unknown. It is likely that both genetic and environmental factors play a large role in the initiation and progression of the disease. There are a number of animal models for MS. A common one is known as Experimental autoimmune encephalomyelitis, while TMEV occurs via injection of TMEV, and is thus distinct from EAE. One hypothesis for the initiation is that an infection stimulates the innate immune system, specifically perivascular microglia. This allows the entrance of T-cells, and microglia spread viral epitopes, along with myelin epitopes, to T cells, which then are activated to "attack" the myelin cells. This is the proposed course of disease in TMEV infection in mice. Many bacteria and viruses infect humans without pathology in normal individuals. If certain individuals are genetically predisposed to immunological intolerance of these commensal organisms, pathology can occur. The Saffold virus, a human virus discovered in 2007, has been shown to have high prevalence in humans. It may be an important link between the study of mouse TMEV-induced encephalomyelitis and human Multiple Sclerosis. The majority of mouse strains are not susceptible to the pathology associated with TMEV infection. As SJL/J mice are notoriously susceptible, the majority of studies exploring factors that could lead to MS utilize this strain. Max Theiler also used the SJL/J strain to study the progression of a polio-like disease in mice.