SubsidieMeestersUnraveling mechanisms of drug resistance: APOBEC3A as a genomic and post-transcriptional driver of treatment resistance in pancreatic cancer
The ADRIP study aims to investigate the role of APOBEC3A in driving drug resistance and intra-tumoral heterogeneity in pancreatic cancer, with potential therapeutic implications.
Projectdetails
Introduction
Pancreatic cancer is predicted to become the third leading cause of cancer-related death in Europe. Drug resistance to even the most effective anti-cancer-targeted therapies constitutes a major contributor to poor prognosis in pancreatic ductal adenocarcinoma (PDAC).
KRAS Mutations
Kirsten rat sarcoma virus (KRAS) mutations are found in >90% of PDAC, being an important oncogenic driver. Although KRAS-targeted therapies have the potential to transform the clinical management of PDAC drastically, only a subset of patients respond, and resistance is frequent.
Drug Resistance Mechanisms
The extent to which genomic and post-translational processes drive drug resistance remains largely unknown. Genomic analyses have identified the APOBEC family as a key driver of mutagenesis in cancer, including PDAC. Among family members, APOBEC3A (A3A) is involved in genomic alteration and post-transcriptional RNA editing, both mechanisms causative for intra-tumoral heterogeneity (ITH) and drug resistance.
Preliminary Findings
My preliminary data reveal that A3A induces chromosomal instability and likely ITH. In addition, I found that A3A-mediated RNA editing is prevalent in human PDACs and a mouse model for A3A. Importantly, I observed that A3A expression increases during KrasG12D targeted therapy, reduces sensitivity, and facilitates clonal outgrowth, and thus, is likely to drive drug resistance in PDAC.
ADRIP Study Aims
The ADRIP study will utilize murine and human models for A3A to unravel for the first time whether A3A plays a dominant role in increasing ITH in PDAC (Aim 1).
- Aim 1: Determine the role of A3A in increasing ITH in PDAC.
- Aim 2: Elucidate whether A3A-mediated genomic or post-translational modifications drive pre-existing and acquired KRAS inhibitor resistance.
- Aim 3: Identify novel regulators of A3A that could serve as therapeutic targets using a multi-omics approach.
Clinical Implications
Importantly, the ADRIP study may have direct clinical implications as the basis for future pre-clinical/clinical intervention trials that target A3A to prevent drug resistance in KRAS mutant cancers.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.880.615 |
| Totale projectbegroting | € 1.880.615 |
Tijdlijn
| Startdatum | 1-9-2025 |
| Einddatum | 31-8-2030 |
| Subsidiejaar | 2025 |
Partners & Locaties
Projectpartners
- KLINIKUM RECHTS DER ISAR DER TECHNISCHEN UNIVERSITAT MUNCHENpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Exposing hidden targets of drug resistance in cancer by mapping the epitranscriptome at single-cell resolutionThis project aims to develop a method for single-cell m6A mapping in breast cancer to uncover novel drug resistance targets and improve therapeutic strategies against chemoresistance. | ERC Starting... | € 1.496.578 | 2024 | Details |
APOBEC Mutagenesis: a novel Achilles heel of Breast cancerThe AMBER project aims to unravel APOBEC mutagenesis in breast cancer to identify prevention and treatment strategies, potentially transforming it into a targetable vulnerability. | ERC Advanced... | € 2.499.990 | 2022 | Details |
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KRAS-AlphaTACs: a novel class of biotherapeutics to target KRASThe project aims to develop and pre-clinically validate AlphaTACs for targeted degradation of KRAS proteins to advance cancer therapy and support a new spin-off company. | ERC Proof of... | € 150.000 | 2023 | Details |
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Exposing hidden targets of drug resistance in cancer by mapping the epitranscriptome at single-cell resolution
This project aims to develop a method for single-cell m6A mapping in breast cancer to uncover novel drug resistance targets and improve therapeutic strategies against chemoresistance.
APOBEC Mutagenesis: a novel Achilles heel of Breast cancer
The AMBER project aims to unravel APOBEC mutagenesis in breast cancer to identify prevention and treatment strategies, potentially transforming it into a targetable vulnerability.
Actionable metabolite supplements to improve treatment response in pancreatic cancer
The ACT-PC project aims to preclinically validate microbiota-derived metabolites to enhance chemotherapy efficacy and anti-tumor immunity in metastatic pancreatic cancer patients.
KRAS-AlphaTACs: a novel class of biotherapeutics to target KRAS
The project aims to develop and pre-clinically validate AlphaTACs for targeted degradation of KRAS proteins to advance cancer therapy and support a new spin-off company.
Targeted Protein Degradation as a New Experimental and Therapeutic Approach for Pancreatic Ductal Adenocarcinoma
PROTAC-PDAC aims to develop targeted PROTAC therapies to degrade key oncogenic transcription factors in pancreatic cancer, enhancing treatment efficacy while minimizing toxicity.
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