Our Discoveries
Master regulators flip the switch on neuroblastoma’s developmental state
Waves of regulatory changes can transform self-renewing neuroblastoma cells into neurons.
Read More
Benign nail condition linked to rare syndrome that greatly increases cancer risk
Researchers from CCR and the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) discovered the presence of a benign nail abnormality may lead to the diagnosis of a rare inherited disorder that increases the risk of developing cancerous tumors. The study suggests conducting nail evaluation of affected patients and at-risk family members.
Read More
New AI tool classifies brain tumors using images of tumor slides
A new artificial intelligence model has been found to be highly effective at identifying brain tumor subtypes — with 95% accuracy — simply by analyzing a standard pathology image of the tumor tissue.
Read More
New research identifies a protein essential to maintaining chromosomal stability
Researchers discovered how overproduction of a protein called CENP-A can lead to chromosomal abnormalities, which are found in many types of cancer.
Read More
New database of sarcoma cell line data will drive rare cancer research
CCR researchers have developed the largest publicly accessible sarcoma cell line database called Sarcoma CellMinerCDB. The tool merges previously available and new sarcoma cell line data that can be used to identify new therapeutic targets for these cancers.
Read More
NIH researchers develop AI tool with potential to more precisely match cancer drugs to patients
In a proof-of-concept study published on April 18, 2024, in Nature Cancer, CCR researchers have developed an artificial intelligence (AI) tool that uses data from individual cells inside tumors to predict whether a person’s cancer will respond to a specific drug. The team, led by Eytan Ruppin, M.D., Ph.D., Chief of the Cancer Data Science Laboratory, suggests that such single-cell RNA sequencing data could one day be used to help doctors more precisely match cancer patients with drugs that will be effective in treating their cancer.
Read More
Cellular processing reverses molecule’s effect on anticancer immunity
Immune cells convert an immunosuppressive lipid into an anticancer immunity enhancer.
Read More
New research on liver cell diversity could help scientists understand tumor complexity
Hepatocytes, the main cell type in the liver, differ in function according to their location in the liver. A new study shows that mitochondrial responses to nutrients drive this diversity — a finding that could help researchers better understand tumor cell heterogeneity.
Read More
New biomaterial enhances cancer vaccine effectiveness to help eliminate cancer in mice
Scientists have created a new type of cancer vaccine approach that uses a biomaterial that attracts immune cells and localizes the delivery of the vaccines. In mice, the biomaterial combined with a cancer vaccine was able to cure 50 to 75% of their tumors.
Read More
India’s First Homegrown CAR T-Cell Therapy Has Roots in NCI Collaboration
In October 2023, India’s counterpart to the US Food and Drug Administration, the Central Drugs Standard Control Organization, approved NexCAR19, an effective, low-cost CAR-T cell therapy. The development of the therapy was made possible by a years-long collaborative journey between the Indian Institute of Technology Bombay and Tata Memorial Centre in Mumbai with NCI researchers at the NIH Clinical Center. As India’s first approved CAR-T cell therapy, the treatment will be manufactured in Mumbai and is affordable for many.
Read More