On April 10, 2021 Synthekine Inc., an engineered cytokine therapeutics company, reported preclinical data presented at the American Association of Cancer Research Annual Meeting 2021 demonstrating its alpha/beta selective IL-2 partial agonist, STK-012, induced potent anti-tumor activity while avoiding the toxicities that have hindered the development of IL-2 therapeutics, including vascular leak syndrome (VLS) (Press release, Synthekine, APR 10, 2021, View Source [SID1234577862]). Synthekine also presented new data on its orthogonal IL-2 and CD-19 CAR-T system (STK-009 and SYNCAR-001).

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"IL-2 offers a wealth of therapeutic promises and challenges. While wild-type IL-2 is a potent T-cell stimulator and has shown single agent activity in late-stage cancers, its broad and non-specific activation leads to critical, dose-limiting toxicities," said Martin Oft, M.D., chief development officer at Synthekine. "We believe that the efficacy of IL-2 is driven by the proliferation and activation of antigen activated T cells, while the toxicity of IL-2 is driven by its broad and non-specific proliferation, extravasation, and activation of all lymphocytes, including NK cells and naïve T cells. We have designed our alpha/beta IL-2 to selectively bias towards antigen activated T-cells and avoid NK cells and naïve T cells, a new approach designed to improve on both the efficacy and the toxicity of wild-type IL-2. STK-012 demonstrates improved therapeutic index compared to wild-type IL-2 and a non-alpha comparator. We look forward to advancing this program to an IND filing in 2021."

Efficacy of STK-012 was evaluated in multiple mouse models using a mouse surrogate of STK-012 (alpha/beta IL-2). In these studies, the alpha/beta IL-2 achieved superior efficacy in control of tumor growth and rate of complete responses compared to both wild-type IL-2 and a non-alpha IL-2. Synthekine’s alpha/beta IL-2 was significantly more effective than these comparators at increasing intratumoral CD8+ T-cells, including the ratio of CD8 T cells to Tregs. Importantly, studies showed the alpha/beta IL-2 did not induce lethality or VLS at therapeutic or supratherapeutic doses. Both wild-type and non-alpha IL-2 showed vascular toxicity, including VLS and lethality in mice. This finding was also supported by data from non-human primates, with the comparators resulting in significantly more infiltration of inflammatory cells in the lung relative to STK-012.

Synthekine also presented new data on its orthogonal IL-2 and CD-19 CAR-T system (STK-009 and SYNCAR-001). New analyses further demonstrate STK-009 upregulates markers for expansion and activation of SYNCAR-001 cells in a CAR refractory lymphoma model and confers a gene signature indicative of long-term memory T cell development.