Drug Repurposing as a Source of Innovative Therapies in Pancreatic Cancer
Drug Repurposing as a Source of Innovative Therapies in Pancreatic Cancer
Objectives
Pancreatic cancer (pancreatic ductal adenocarcinoma, PDAC) is one of the deadliest tumors with 5-year survival rates still under 10%. Few drugs have been able to make significant improvements in patient outcomes and, albeit that there is a pipeline of new agents, many fail in phase 2/3 clinical trials. Drug repurposing, an alternative development pathway, seeks to reuse existing drugs as the source of new treatment options. Repurposing benefits from existing data on safety, dosing and clinical experience.
Our goal was to provide a non-exhaustive listing of non-cancer drugs for which there is published evidence that they inhibit pancreatic tumor cells per se or the stromal stellate cells and immune cells that indirectly support the tumor.
Methods
We used the Repurposing Drugs in Oncology (ReDO) list of 240 approved non-cancer drugs. We queried PubMed (February 2018) for these drugs and the term ‘pancreatic cancer’. Of these, we highlight some drugs with strong preclinical data and stratify them according to mechanism of action (MOA) on pancreatic tumor cells or their microenvironment.
Results
From the 240 drugs, 51% have been reported in relation to PDAC in one or more relevant scientific publications. Amongst the drugs that directly target the tumor epithelium, we list disulfiram (acting on Aldh+ cancer stem cells), pimozide and haloperidol (acting on dopamine receptor D2), metformin(inhibiting mTOR signaling), penfluridol and chloroquine (acting on autophagy), plerixafor (C-X-C chemokine receptor type 4, CXCR4) and propranolol (antagonizing beta-adrenergic receptors). Within the group of drugs that have effects on fibrosis and pancreatic stellate cells, potentially interesting are fasudil (inhibiting Rho-associated protein kinase), pirfenidone (inhibiting Transforming Growth Factor beta), plerixafor (inhibiting CXCR4), calcitriol (binding Vitamin D receptor) and losartan (an Angiotensin receptor 1 antagonist). We list doxycycline as an inhibitor of MMP9-mediated angiogenesis, produced by immune cells. Non-steroidal anti-inflammatory drugs (NSAIDs) and plerixafor also have reported effects on the inflammatory context that supports PDAC.
Conclusion
FDA-approved drugs currently used outside of oncology have shown activity against PDAC. Many of these warrant clinical investigation, as a complementary approach to commercially-driven clinical research. The data on MOA and molecular profiling of the tumours can assist in patient stratification.