This study investigates how immune cells influence Alzheimer’s disease. Using a mouse model, researchers found that removing T cells did not alter amyloid plaque levels but changed microglial behavior, leading to better protection of myelin. The findings suggest T cells may worsen neurodegeneration and highlight new therapeutic possibilities.
This research engineers immune T cells to better fight ovarian cancer. By modifying them to recognize tumor-specific proteins and resist cancer’s suppressive signals, the project strengthens the body’s natural defenses. The goal is to improve immunotherapy effectiveness, overcome tumor resistance, and increase survival rates for women facing this deadly disease.
This research investigates Large Granular Lymphocyte Leukemia, where protective T cells become cancerous. The project explores how DNA methylation silences normal T-cell function and tests drugs that reverse this process. By removing harmful chemical modifications, the goal is to restore immune cells to their healthy, protective “superhero” role.
Pancreatic ductal adenocarcinoma resists immunotherapy by building an immune-suppressive tumor fortress. This research explores how specific bacteria found in long-term survivors may reshape the tumor microenvironment, enhance immune checkpoint therapy, and help immune cells overcome suppression to attack pancreatic cancer more effectively.
This research investigates how T cells influence microglial behavior in Alzheimer’s disease. Using a mouse model, the study found that removing T cells did not alter amyloid-beta plaques but unexpectedly led to healthier microglial activity and reduced myelin damage. The findings suggest T cells may worsen neurodegeneration and reveal new therapeutic avenues.
This research targets the earliest stage of allergic and asthmatic immune reactions by blocking key cytokine “messages” sent from T cells to B cells. Using drug-discovery techniques, the project identifies compounds that prevent immune overreaction before symptoms begin, aiming to develop a new class of long-lasting preventative allergy and asthma treatments.