The paradox of the neutrophilˈs role in tissue injury

GB Segel, MW Halterman… - Journal of leukocyte …, 2011 - Wiley Online Library
Journal of leukocyte biology, 2011Wiley Online Library
The neutrophil is an essential component of the innate immune system, and its function is
vital to human life. Its production increases in response to virtually all forms of inflammation,
and subsequently, it can accumulate in blood and tissue to varying degrees. Although its
participation in the inflammatory response is often salutary by nature of its normal interaction
with vascular endothelium and its capability to enter tissues and respond to chemotactic
gradients and to phagocytize and kill microrganisms, it can contribute to processes that …
The neutrophil is an essential component of the innate immune system, and its function is vital to human life. Its production increases in response to virtually all forms of inflammation, and subsequently, it can accumulate in blood and tissue to varying degrees. Although its participation in the inflammatory response is often salutary by nature of its normal interaction with vascular endothelium and its capability to enter tissues and respond to chemotactic gradients and to phagocytize and kill microrganisms, it can contribute to processes that impair vascular integrity and blood flow. The mechanisms that the neutrophil uses to kill microorganisms also have the potential to injure normal tissue under special circumstances. Its paradoxical role in the pathophysiology of disease is particularly, but not exclusively, notable in seven circumstances: 1) diabetic retinopathy, 2) sickle cell disease, 3) TRALI, 4) ARDS, 5) renal microvasculopathy, 6) stroke, and 7) acute coronary artery syndrome. The activated neutrophilˈs capability to become adhesive to endothelium, to generate highly ROS, and to secrete proteases gives it the potential to induce local vascular and tissue injury. In this review, we summarize the evidence for its role as a mediator of tissue injury in these seven conditions, making it or its products potential therapeutic targets.
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