Timely resolution of bacterial infections critically depends on phagocytosis of invading pathogens by polymorphonuclear neutrophil granulocytes (PMNs), followed by PMN apoptosis and efferocytosis.

Research has found that, similar to a spider trapping its prey, the immune system’s neutrophil and macrophage cells can cooperate to capture and “eat” bacteria. Researchers at the Vanderbilt Institute ...

A research team from Umeå University, Sweden, in collaboration with Ghent University, Belgium, has made a groundbreaking discovery about how the body's first immune defense, neutrophils, orchestrate ...

A new research study identifies a critical inhibitory step that is a key component of the feedback circuit regulating the balance between neutrophil production and destruction. The research, published ...

Neutrophils produce “spider webs” that trap invading bacteria and improve macrophages’ ability to phagocytose and kill harmful pathogens. A research team at the Vanderbilt University Medical Center ...

A research team from Umeå University, Sweden, in collaboration with Ghent University, Belgium, has made a groundbreaking discovery about how the body's first immune defense, neutrophils, orchestrate ...

A research team from Umeå University, in collaboration with Ghent University, has made a groundbreaking discovery about how the body's first immune defense, neutrophils, orchestrate the mobilization ...

BioWorld - Wednesday, August 2, 2023 Home » Antibody targeting of multiple P. aeruginosa evasion mechanisms enhances neutrophil-mediated phagocytosis and killing efficacy X ...