Abstract 5827
Background
Immunotherapies are considered the most promising therapeutic approach for cancer and the immunosuppressive activity of ARG1 has been recognized as an important mechanism of the tumor immune evasion. This prompted the development of arginase inhibitors, which in preclinical models, enhanced antitumor immunity as a monotherapy and in combination with other immune checkpoint inhibitors. On the other hand, ARG2, but not ARG1, is highly expressed in neoplastic cells in many tumors and its expression is correlated with malignant phenotype. Preclinical studies confirmed that ARG2 promotes the proliferation of cancer cells and the growth of tumor xenografts independently of its immunosuppressive activity. Generation of polyamines to facilitate the growth of hypoxic and nutrient-deprived tumors, as well as specific metabolic adaptations including increased reliance on protein catabolism are the major mechanisms underlying the tumorigenic activity of ARG2. Hence, the tumor cell intrinsic activity of ARG2 represents an attractive intracellular target for novel therapies with arginase inhibitors.
Methods
The compound activity was determined using human ARG1 and ARG2, and in CHO-K cells expressing ARG1 and ARG2. ARG1 and ARG2 expression in cancer cell lines and dissected tumors was assessed by WB and qPCR. CellTiter-Glo was used to assess the antiproliferative activity of the compound. In vivo antitumor activity was evaluated in murine CT26 (syngeneic) and human K562 (xenograft) subcutaneous mouse models.
Results
The expression of the endogenous ARG2 was confirmed in multiple human cancer cell lines and xenografts. We developed a highly potent dual ARG1 and ARG2 inhibitor, OATD-02, with a good cellular activity. We demonstrated that OATD-02 inhibited proliferation of multiple human cancer cell lines expressing ARG2 and suppressed the growth of human xenografts. OATD-02 also strongly inhibited the growth of the syngeneic CT26 tumors.
Conclusions
OATD-02, a potent ARG1 and ARG2 inhibitor, exerts its antitumor efficacy not only by the reactivation of the immune response but also by directly suppressing the ARG2-dependent proliferation of cancerous cells. Thus, OATD-02 is a very promising compound for the treatment of hypoxic tumors which are particularly resistant to therapies.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
OncoArendi Therapeutics SA.
Funding
National Centre for Research and Development in Poland.
Disclosure
M.M. Grzybowski: Full / Part-time employment: OncoArendi Therapeutics SA. J. Pęczkowicz-Szyszka: Full / Part-time employment: OncoArendi Therapeutics SA. P. Wolska: Full / Part-time employment: OncoArendi Therapeutics SA. P.S. Stańczak: Full / Part-time employment: OncoArendi Therapeutics SA. M. Welzer: Full / Part-time employment: OncoArendi Therapeutics SA. E. Nikolaev: Full / Part-time employment: OncoArendi Therapeutics SA. A.M. Siwińska: Full / Part-time employment: OncoArendi Therapeutics SA. R. Błaszczyk: Full / Part-time employment: OncoArendi Therapeutics SA. B. Borek: Full / Part-time employment: OncoArendi Therapeutics SA. M. Dzięgielewski: Full / Part-time employment: OncoArendi Therapeutics SA. A. Gzik: Full / Part-time employment: OncoArendi Therapeutics SA. J. Nowicka: Full / Part-time employment: OncoArendi Therapeutics SA. J. Brzezińska: Full / Part-time employment: OncoArendi Therapeutics SA. K. Jędrzejczak: Full / Part-time employment: OncoArendi Therapeutics SA. J. Chrzanowski: Full / Part-time employment: OncoArendi Therapeutics SA. A. Gołębiowski: Leadership role, Full / Part-time employment: OncoArendi Therapeutics SA. J. Olczak: Leadership role, Full / Part-time employment: OncoArendi Therapeutics SA. P. Dobrzański: Leadership role, Full / Part-time employment: OncoArendi Therapeutics SA. All other authors have declared no conflicts of interest.
Resources from the same session
4634 - Comparative molecular analyses between microsatellite stable BRAFV600E mutant colorectal cancers and BRAFV600E mutant melanomas.
Presenter: Mohamed Salem
Session: Poster Display session 3
Resources:
Abstract
3264 - A novel preclinical model of RAF-independent MEK1 mutant tumors and its treatment with novel ATP competitive MEK inhibitor
Presenter: Luca Hegedus
Session: Poster Display session 3
Resources:
Abstract
4918 - HER2 inhibition in Aggressive Squamous Cell Carcinomas driven by a common MET Sema Domain Polymorphism
Presenter: Nur Afiqah Mohamed Salleh
Session: Poster Display session 3
Resources:
Abstract
2426 - ADAM9 as a target for lung cancer treatment
Presenter: Yuh-pyng Sher
Session: Poster Display session 3
Resources:
Abstract
5537 - Novel polyurea/polyurethane nanocapsules loaded with a tambjamine analog to improve cancer chemotherapy delivery and safety in lung cancer
Presenter: Marta Perez Hernandez
Session: Poster Display session 3
Resources:
Abstract
1597 - Discovery of Clinical Candidate DBPR112, a Furanopyrimidine-based Epidermal Growth Factor Receptor Inhibitor for the Treatment of Non-Small Cell Lung Cancer
Presenter: Hsing-pang Hsieh
Session: Poster Display session 3
Resources:
Abstract
3543 - Molecular characteristics in lung squamous cell carcinomas dependent on TP53 status – putative targets
Presenter: Vilde Haakensen
Session: Poster Display session 3
Resources:
Abstract
4111 - Comparison of molecular profiles between primary tumour and matched metastasis in non-small cell lung cancer
Presenter: Asuka Kawachi
Session: Poster Display session 3
Resources:
Abstract
4559 - Treatment with BLU-667, a potent and selective RET inhibitor, provides rapid clearance of ctDNA in Patients with RET-altered Non-Small Cell Lung Cancer (NSCLC) and Thyroid Cancer
Presenter: Giuseppe Curigliano
Session: Poster Display session 3
Resources:
Abstract
2501 - Triple MET/SRC/PIM inhibition in MET addicted tumors
Presenter: Ilaria Attili
Session: Poster Display session 3
Resources:
Abstract