The exact mechanisms of multiple sclerosis evolution are still unknown. However, the progress in C57BL/6 mice of experimental autoimmune encephalomyelitis (EAE, similar to human multiple sclerosis) happens as a result of the contravention of bone marrow hematopoietic stem cells differentiation profiles integrated with the production of toxic for human’s auto-antibodies-abzymes splitting myelin basic protein (MBP), myelin oligodendrocyte glycoprotein (MOG), histones, DNA and RNA as well as IgGs with catalase and peroxidase activities. Here, we first analyzed the change in the relative amylase activity of IgGs from C57BL/6 mice blood over time at different stages of the EAE evolution: onset, acute, and remission phases. It was shown that the amylase activity of IgGs during spontaneous development of EAE first noticeably increases from 50 to 80, then sharply decreases to 100-130, and again sharply increases to 150 days of mice life. Immunization of 3-month-old mice (time zero) with the DNA-histone complex leads to a decrease, while their treatment with MOG results in a substantial increase in the amylase activity of IgGs. The relative activities of all IgG-abzymes indicated above corresponding to various stages of EAE development were compared. The data shows that spontaneous EAE and immunization of mice with DNAhistones complex and MOG leads to a different and very expanded formation of various B lymphocytes, producing abzymes with several diverse catalytic activities. In addition, the relative number of lymphocytes producing diverse antibodies with distinct enzymatic activities (including their relative activities) significantly depend both on the stages of spontaneous and antigen-induced accelerations of EAE development.