Tag Archives: drug

New technique allows anti-breast cancer drugs to cross blood-brain barrier

To facilitate drug delivery to brain metastases, John Connell of the CRUK/MRC Gray Institute for Radiation Oncology and Biology, Churchill Hospital, Oxford, UK, and colleagues utilized the human pro-inflammatory cytokine, tumor necrosis factor (TNF), which they had previously shown could disrupt the BBB in rat brains. The researchers first verified the expression of TNF receptors in mouse as well as human brain metastases by immunohistochemistry. They then induced brain metastases in mice by injection of mouse breast carcinoma cells labeled with green fluorescent protein…

Chemotherapy drug improves survival following surgery for pancreatic cancer

"Pancreatic cancer is a disease with a poor prognosis, mainly because of the inability to detect the tumor at an early stage, its high potential for early dissemination, and its relatively poor sensitivity to chemotherapy or radiation therapy," according to background information in the article. Even after complete removal of the tumor, the vast majority of patients relapse within 2 years, leading to a 5-year survival rate of less than 25 percent. No consensus has been reached on a standard treatment approach for additional therapy…

Scientists identify potential new drug for inherited cancer

The new study showed the drug candidate — known as FRAX97 — slowed the proliferation and progression of tumor cells in animal models of Neurofibromatosis type 2. This inherited type of cancer, caused by mutations in the anti-tumor gene NF2, leads to tumors of the auditory nerve that connects the inner ear to the brain…

Cutting off all points of escape for melanoma cells

They found that resistant melanomas acquired a mutation in the MEK2 gene and multiple copies of the mutant BRAF oncogene, simultaneously decreasing the sensitivity to both drug targets. Their findings also uncovered a new potential target for melanoma therapy, a protein called S6K. Additionally, early studies in a laboratory model for melanoma show that a triple combination of drug inhibitors halted the growth of resistant tumors. "Melanoma tumors are particularly adept at rewiring themselves so that anticancer drugs lose their effectiveness, and we must continue to outthink the disease in order to block off all points at which it can evade therapy," said Jessie Villanueva, Ph.D., assistant professor in Wistar’s NCI-designated Cancer Center and member of The Wistar Institute Melanoma Research Center. …

Molecular marker predicts patients most likely to benefit longest from two popular cancer drugs

The U.S. Food and Drug Administration-approved drugs, gefitinib (Iressa) and erlotinib (Tarceva), are prescribed for lung and pancreatic cancer patients but only a few who have mutations in the EGFR gene usually benefit with a prolonged reduction of tumor size. The two drugs block the gene’s ramped-up protein production, but patients’ response to the drug varies widely — from no survival benefit to several years. The average is several months. …

Targeted therapy identified for protein that protects and nourishes cancer

Reporting this week in the journal Cell, the researchers describe the first compound that directly binds to and blocks Skp2, a protein they previously showed both turns off a cellular defense against cancer and switches on a cancer-feeding metabolic pathway. "The beauty of this study is we identified an inhibitor and showed how it functions to block Skp2. Inhibitors often are discovered without an initial understanding of how they work," said co-senior author Hui-Kuan Lin, Ph.D., associate professor of Cellular and Molecular Oncology at MD Anderson. …

New hope for hormone resistant breast cancer

Seventy percent of breast cancer patients have estrogen receptor positive cancer, and most patients respond well to anti-estrogen therapies, for a few years at least. Within 15 years, however, 50% will relapse and eventually die from the disease. Dr Andrew Stone, Professor Susan Clark and Professor Liz Musgrove, from Sydney’s Garvan Institute of Medical Research, in collaboration with scientists from Cardiff University, have demonstrated that the BCL-2 gene becomes epigenetically ‘silenced’ in resistant tumours. This process is potentially detectable in the blood, providing a diagnostic marker. …