Malignant glioma is the most frequent type in brain tumors. The prognosis of this tumor has not been significantly improved for the past decades and the average survival of patients is less than one year. Thus, an effective novel therapy is urgently needed. TNF-related apoptosis inducing ligand (TRAIL), known to have tumor cell-specific killing activity, has been investigated as a novel therapeutic for cancers. We have developed Ad-stTRAIL, an adenovirus delivering secretable trimeric TRAIL for gene therapy and demonstrated the potential to treat malignant gliomas. Currently, this Ad-stTRAIL gene therapy is under phase I clinical trial for malignant gliomas. Here, we report preclinical studies for Ad-stTRAIL carried out using rats. We delivered Ad-stTRAIL intracranially and determined its pharmacokinetics and biodistribution. Most Ad-stTRAIL remained in the delivered site and the relatively low number of viral genomes was detected in the opposite site of brain and cerebrospinal fluid. Similarly, only small portion of the viral particles injected was found in the blood plasma and major organs and tissues, probably due to the brain-blood barrier. Multiple administrations did not lead to accumulation of Ad-stTRAIL at the injection site and organs. Repeated delivery of Ad-stTRAIL did not show any serious side effects. Our data indicate that intracranially delivered Ad-stTRAIL is a safe approach, demonstrating the potential as a novel therapy for treating gliomas.
To achieve successful anti-cancer response with IL-2, it is necessary to develop a method delivering selective IL-2 signaling on CD8 T and NK cells than Tregs We report preclinical results with SLC-3010 that consist of IL-2 conjugate with anti-IL-2 antibody named TCB2 TCB2 is a humanized mouse antibody that specifically recognize the epitope on IL-2 where interact with CD25 as demonstrated with crystallography To develop SLC-3010, stable cell lines producing wild type human IL-2 or TCB2 were separately manufactured using mammalian cell system The pharmacokinetics analysis of SLC-3010 revealed 8-12h of half-life in mouse Although SLC-3010 dose not employ any artificial linker between IL-2 and TCB2, the half-life of SLC-3010 is comparable with other IL-2 based molecules thereby demonstrating stable binding of TCB2 against IL-2 under physiological condition In mouse model, single dosing of SLC-3010 preferentially stimulates CD8 T cells than Tregs in both secondary lymphoid organ and tumor microenvironment SLC-3010 exhibited strong anti-tumor activity which is demonstrated with circulating B cell lymphoma, metastatic solid tumor, and traditional solid tumor models Furthermore, synergistic anti-tumor response was observed by SLC-3010 with various anti-cancer drugs including chemotherapeutic reagents, targeted therapeutics, and checkpoint inhibitors such as anti PD-1 and anti CTLA-4 Once the transplanted tumor was completely cured by SLC-3010, the mice acquired strong memory response against the rejected tumor indicating strong immunological memory formation against recurrent tumors Non-human primate (NHP) efficacy test revealed that single dosing of SLC-3010 expanded CD8 T and NK cells in dose dependent manner, hence the number of CD8 T cells were increased up to 5 fold in the PBMC population with non-toxic dose of SLC3010 The peak of response in NHP was day 6-7 as analyzed the number of CD8 T cells in PBMC The strong activation of CD8 and NK cells with NHP model indicating that the binding of TCB2 and IL-2 is stable in the system as well The SLC-3010 induced selective stimulation of CD8 T cells was also demonstrated with human T cells using humanized NSG mice thereby providing an insight for developing future clinical trials with SLC-3010. Citation Format: Geon-A Kim, Da-Eun Kim, Yoo-Jin Kim, Kyung-Mi Han, Hee-Sung Kim, Soon-Hye Park, Jae-Hyun Park, Eun-Jihn Roh, Gil-Tae Wie, Jun-Young Lee. Strong anti-tumor activity and stability of IL-2/anti IL-2 conjugate SLC-3010 in preclinical experiments [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 689.
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