Contingent upon concentration, reactive oxygen species (ROS) influence cancer evolution
in apparently contradictory ways, either initiating/stimulating tumorigenesis and supporting …

Stimuli-responsive polymers can respond to internal stimuli, such as reactive oxygen
species (ROS), glutathione (GSH), and pH, biological stimuli, such as enzymes, and external …

Nanorobotic manipulation to access subcellular organelles remains unmet due to the
challenge in achieving intracellular controlled propulsion. Intracellular organelles, such as …

Reactive oxygen species (ROS), a group of highly reactive ions and molecules, are
increasingly being appreciated as powerful signaling molecules involved in the regulation of …

The importance of reactive oxygen species (ROS) has been gradually acknowledged over
the last four decades. Initially perceived as unwanted products of detrimental oxidative …

Cancer cells could be eradicated by promoting generation of excessive intracellular reactive
oxygen species (ROS) via emerging nanomedicines. However, tumor heterogeneity and …

Innovative anticancer therapies based on the activation of the immune system offer promise
in the battle against cancers resistant to traditional treatments. Examples of such therapeutic …

The reception and integration of the plethora of signals a cell receives from its
microenvironment determines the cell's fate. CD44 functions as a receptor for hyaluronan …

Antioxidants have drawn the attention of the scientific community due to being related to the
prevention of various degenerative diseases. The antioxidant capacity has been extensively …

Leukemia stem cells (LSCs) are thought to drive the genesis of acute myeloid leukemia
(AML) as well as relapse following chemotherapy. Because of their unique biology …