Amyotrophic lateral sclerosis (ALS) is an auto-immune neurodegenerative disorder affecting the motor-neurons. The causes of ALS are heterogeneous, and are only partially understood to date. We studied percentage and function of immune cell subsets in particular natural killer (NK) and CD8+ T cells in an ALS patient and compared the results to those obtained from his genetically identical healthy twin in a longitudinal study. We found several basic mechanisms which were potentially involved in the disease induction and progression. Our findings demonstrate that ALS patient's peripheral blood contained higher NK and B cells and, lower T cell percentages compared with the healthy twin brother's peripheral blood. Significantly increased interferon-gamma secretion by anti-CD3/28 monoclonal antibody-treated peripheral blood mononuclear cells, and sorted CD8+ T cells were observed in the ALS patient, suggesting that hyper-responsiveness of T cell compartment could be a potential mechanism of ALS progression. Significant increase in NK cell function due to genetic mutations in ALS associated genes may partly be responsible for the increase expansion and function of CD8+ T cells with effector/memory phenotype, in addition to direct activation and expansion of antigen specific T cells by such mutations. Weekly N-acetyl cysteine infusion to block cell death in patient in addition to a number of other therapies listed in this paper were not effective, and even though the treatments might have extended the patient's life, it was not curative. Therefore, activated CD8+ T and NK cells are likely cells targeting motor neurons in the patient, and strategies should be designed to decrease the aggressive nature of these cells to achieve longer lasting therapeutic benefits.