Research

PARP Inhibitor Drugs Found to Have Hidden Talent

In recent years, scientists have discovered that targeted drugs known as CDK4/6 inhibitors and certain chemotherapy agents not only hamper the internal workings of cancer cells but can also make them the prey of an immune system attack. A new study in Cancer Discovery by Dana-Farber scientists adds another class of drugs to the list: PARP inhibitors.

In the paper, Dana-Farber researchers and colleagues found that in triple-negative breast cancer, treatment with olaparib lures legions of immune system CD8+ T cells inside the tumor, where they wage battle against it. The investigators traced the chain of events, within the cancer cells and the surrounding tissue, that sets the attack in motion.

“Our results indicate that the anti-cancer effect of PARP inhibitors is two-pronged,” says Geoffrey Shapiro, MD, PhD, a co-senior author of the study. “The loss of a DNA-repair pathway weakens tumor cells internally and exposes them to a powerful immune response at the same time.”

AI tool identifies cancer outcomes using radiology reports

Dana-Farber scientists have demonstrated that an artificial intelligence tool can perform as well as human reviewers – and much more rapidly – in extracting clinical information regarding changes in tumors from unstructured radiology reports for patients with lung cancer.

The AI tool performed comparably to trained human “curators” in detecting the presence of cancer; and whether it was responding to treatment interventions, stable or worsening.

The goal of the study, said Kenneth Kehl, MD, MPH, a medical oncologist and faculty member of Dana-Farber's Population Sciences Department, was to determine whether artificial intelligence tools can extract the most high-value cancer outcomes from radiology reports, which are a ubiquitous but unstructured data source.

New Transactions

Two Collaboration Agreements with pharmaceutical companies and research institutions

Three Sponsored Research Agreements with pharmaceutical companies

Three Non-Exclusive License Agreements with pharmaceutical companies

Three Exclusive License Agreements with pharmaceutical companies and a Dana-Farber spin-out company

Two Service Agreements with pharmaceutical and biotechnology companies

One Letter Agreement with a research institution

One Material Evaluation Agreement with a pharmaceutical company

New Publications by Dana-Farber Investigators

• Immuno-PET identifies the myeloid compartment as a key contributor to the outcome of the antitumor response under PD-1 blockade.
• EglN3 hydroxylase stabilizes BIM-EL linking VHL type 2C mutations to pheochromocytoma pathogenesis and chemotherapy resistance.
• Cyclin D1 is a mediator of gastrointestinal stromal tumor KIT-independence.
• Pharmacological enhancement of KCC2 gene expression exerts therapeutic effects on human Rett syndrome neurons and Mecp2 mutant mice.
• Myocarditis in the Setting of Cancer Therapeutics: Proposed Case Definitions for Emerging Clinical Syndromes in Cardio-Oncology.
• Glioblastoma in the elderly: making sense of the evidence.
• Targeted Inhibition of CD47-SIRPα Requires Fc-FcγR Interactions to Maximize Activity in T-cell Lymphomas.

New Patents

• Non-invasive blood based monitoring of genomic alterations in cancer
• A sik inhibitor for use in a method of treating an inflammatory and/or immune disorder
• Flavivirus neutralizing antibodies and methods of use thereof
• Small molecules for the modulation of mcl-1 and methods of modulating cell death, cell division, cell differentiation and methods of treating disorders
• Method of attenuating reactions to skin irritants