Abstract
IL-2 is critical to the activation, growth, and survival of T cells and NK cells, and maintains the delicate balance between auto-immunity and anti-neoplasm surveillance. High IL-2 doses have clear antitumor capabilities, but also have severe side effects that limit its clinical use. Side effects include the vascular leak syndrome (VLS), which results in lung edema and liver damage. Therefore, a new version of IL-2 that does not induce organ toxicity would improve IL-2-based immunotherapy. We conducted a systematic screening by changing one amino acid at a time at the interaction area of IL-2 with its receptor IL-2R to select one particular mutant IL-2, FSD13, in which the proline at position 65 was substituted by lysine (P65L). FSD13 had a greater ability than wild-type IL-2 in stimulating CD4+ T, CD8+ T, and NK cell proliferation, enhancing the expression of CD69, CD183, CD44, and CD54 in these cells, and triggering cancer cell apoptosis. FSD13 had three-time lower than wild-type IL-2 in inducing CD4+ T to Tregs. Compared with wild-type IL-2, FSD13 greatly limited the growth, invasion into adjacent tissues, and metastasis of melanoma metastatic into the lung. In contrast to wild-type IL-2, high dose of FSD3 did not alter structures and induce any pathogenic changes in the liver and lung. Thus, we generated a novel the IL-2 mutant, FSD13, by targeting a different area than previously reported. FSD13 surpasses the wild-type IL-2’s ability in stimulating the antitumor immune cell functions, but exerts much less systemic toxicity.
Highlights
Interleukin-2 (IL-2), a small (15.5 kDa), four α-helical bundle cytokine, which is mainly produced by CD4+ Th1 cells, activates CD8+ T cells and natural killer (NK) cells
IL-2 can bind to CD25 alone, a heterodimer consisting of IL-2Rβ (CD122) and IL-2Rγ, or a heterotrimer consisting of CD25, CD122, and CD132
We examined the cellular level of IFN-γ secretion in NK cells induced by wild-type IL-2 and FSD13 using intracellular staining followed by fluorescence-activated cell sorting (FACS) analysis
Summary
Interleukin-2 (IL-2), a small (15.5 kDa), four α-helical bundle cytokine, which is mainly produced by CD4+ Th1 cells, activates CD8+ T cells and natural killer (NK) cells. IL-2 has crucial roles during both the immune system’s resting and activated states[1]. IL-2 can bind to CD25 alone, a heterodimer consisting of IL-2Rβ (CD122) and IL-2Rγ, or a heterotrimer consisting of CD25, CD122, and CD132. These three different constructions of IL-2R form. The use of IL-2 to stimulate an effective immune response against metastatic cancers, such as melanoma and renal cell carcinoma, dates back to the early 1980s. High doses of IL-2 led to the regression of advanced cancers in selected patients with metastatic renal cell cancer, melanoma, colorectal cancer, and non-Hodgkin’s lymphoma[3]. Administration of unmodified IL-2, either alone or with antigen-specific treatments, has resulted in remarkable long-term survival of certain patients suffering from metastatic melanoma[4]
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