Alison Halliday, PhD, Technology Networks | May 19, 2023 | 5 min read
Gaining a better understanding of the dynamic and reciprocal interactions between cancer cells and the tumor microenvironment is essential for improving patient diagnosis and treatment.
The Scientist spoke with Jonathan Kagan about his idea that immune cells respond to “errors” made by unsuccessful pathogens, not the pathogens themselves.
Where and how human papillomavirus integrates itself into the human genome steers the infection’s clinical outcomes, finds a large, multifaceted study.
In vitro and mouse experiments show how cancer cells forced through tiny pores—mimicking the physical experience of metastasis—resisted programmed cell death and avoided detection by the immune cells that would normally kill them.
In chapter 8, “Dr. Shope’s Warty Rabbits,” author Michael P. Branch describes the scientist who unearthed the viral cause of strange growths on wild rabbits.
First, the genetically engineered cells became CD8+ killer T cells that wiped out his leukemia. Then they transformed into a stable population of CD4+ helper T cells that continue to circulate in his body.
This year revealed just how much scientists have learned about the disease, from how animals become naturally cancer-resistant to how tumor cells harness extracellular DNA to develop rapid drug resistance.
Alejandra Manjarrez, PhD | Nov 24, 2021 | 3 min read
The binding of histamine with one of its receptors within the tumor environment makes cancer cells more resistant to immunotherapy, according to a new study. Blocking that binding could improve responses to treatment.
Targeted cancer therapy mayjeopardize the effectiveness of subsequent immunotherapy by reducing dendritic cell numbers and activation, according to study of mice and patient samples.
Following a spate of patient deaths in clinical trials testing modified T cells for the treatment of cancer, researchers work to reduce the treatment’s toxicity without sacrificing efficacy.