Abstract 36P
Background
MCL-1 protein belongs to the Bcl-2 family consisting of both pro- and anti-apoptotic proteins. It serves as a master pro-survival factor by inhibiting apoptosis in a broad range of human malignancies. MCL-1 is involved in cancer resistance to different types of therapies, thus its targeting appears very attractive. Although several MCL-1 inhibitors have been studied in clinical trials, none has been approved for clinical use so far. Degradation of a target protein offers several advantages over traditional inhibitors, e.g. potential to overcome resistance to inhibitors, greater response even at a lower dose, extended pharmacodynamics, better selectivity and many others. This approach has recently emerged as a novel therapeutic modality in drug discovery. In this report, we present an in vitro and in vivo characterization of a newly-developed compound capable of degrading MCL-1.
Methods
A series of biophysical methods (FP, SPR, AlphaLisa) have been utilized to characterize compound interactions with MCL-1 protein and E3 Ligase. The biological properties of the reported molecule have been determined using cancer cell culture models (cell viability assessment using Cell Titer-Glo Assay), molecular biology techniques (western blots to confirm target protein degradation, apoptosis induction and the MoA) as well as a MV-4-11 xenograft in vivo model.
Results
The reported compound binds both E3 Ligase and target protein MCL-1 with high affinity and forms a ternary complex in vitro. In cancer cells, it induces the degradation of MCL-1 which results in apoptosis induction and cell death. The compound shows a desirable PK and PD profile, as well as causes in vivo tumor growth inhibition in a human AML MV4-11 xenograft mouse model.
Conclusions
Presented results indicate that targeting MCL-1 protein by induction of its degradation could represent a new and effective strategy for cancer treatment.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
Captor Therapeutics Inc.
Funding
Captor Therapeutics Inc.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
28P - Development 68Ga trastuzumab Fab and bioevaluation by PET imaging in HER2/neu-expressing breast cancer patients
Presenter: Yogesh Rathore
Session: Poster viewing 01
29P - Targeting CXCR4 promotes antitumor immunity through TOX-mediated CD8+ T cell activation
Presenter: Canhui Cao
Session: Poster viewing 01
30P - Investigation of KRAS G12C inhibitor JAB-21822 as a single agent and in combination with SHP2 inhibitor JAB-3312 in preclinical cancer models
Presenter: Peng Wang
Session: Poster viewing 01
31P - Photothermal responsive, nucleolin-targeted bimetallic nano-vehicle delivered the combinational therapeutics for improved pancreatic cancer treatment
Presenter: Kandasamy Saravanakumar
Session: Poster viewing 01
32P - Tumor growth inhibition effect of PLAG by regulation of neutrophil infiltration in ICI insensitivity B16F10 melanoma
Presenter: Guen Tae Kim
Session: Poster viewing 01
33P - Establishment of personalized therapeutic for salivary gland cancers based on patients-derived salivary tumoroid model
Presenter: Yoonjin Roh
Session: Poster viewing 01
34P - Association of ACRBP gene polymorphism (+26A/G) to liver cancer and diabetes leads to novel biomarker discovery
Presenter: Md Shariful Islam
Session: Poster viewing 01
35P - Exploring plerixafor as a vector molecule in nuclear medicine for targeting CXCR4 receptor overexpression in vivo
Presenter: Tamanna Lakhanpal
Session: Poster viewing 01
37P - Development of splice switching antisense oligonucleotides targeting midkine
Presenter: Graham Robertson
Session: Poster viewing 01
38P - Hormonal modulation of photodynamic therapy efficacy in breast cancer 3D spheroid culture model
Presenter: MN Leung
Session: Poster viewing 01