Macrophage endocytosis in resolving lung inflammation
National Jewish Health, Denver CO
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): Inflammation is an essential effector process for responses to parasitism, infection and tissue injury. On the other hand, it also contributes to the pathogenesis of most human diseases. This paradox results in part from the fact that inflammation itself can, and often does; itself induce injury to the tissues in the process of resolving the infection or healing the wound. Optimally, therefore, an acute inflammatory response completes its protective (and pro-immunogenic) functions and then rapidly resolves, allowing the tissue to return to normal structure and function. A key element in this resolution is removal of the inflammatory cells themselves as well as the cell and tissue debris that is produced as an inevitable accompaniment to the process. This clearance function is primarily carried out by uptake of debris and cells into macrophages that accumulate at the site as part of the inflammatory process. Studies of macrophages in inflammation have tended in the past to focus on their contribution to recognizing the injurious stimulus in the first place, and in controlling the inflammation by virtue of their sequential production of pro- and then anti- inflammatory mediators. More recently, however, their participation in the resolution phase is becoming better understood, and, we hypothesize, results from a change in macrophage function that we identify as a change in programing state. In particular, the reparative macrophages are hypothesized to gain a substantial capacity for macropinocytosis, the ingestion process suggested to remove both dying inflammatory cells and the particulate, and even soluble, debris that accompanies inflammation. Questions that are to be addressed in the proposal include: 1) demonstrating that macrophages with specifically high capability for macropinocytosis develop in the resolving inflamed lung and are effective scavengers of both debris and dying inflammatory cells, 2) distinguishing between incoming monocytes or previously macropinocytosis-poor macrophages as the source for such scavenger cells, 3) exploring the mechanism driving the macrophage programing by testing a proposed phosphatidylserine/IL- 4/PPARgamma signaling pathway (i.e. suggesting that it develops as a response to the presence of the activated and dying inflammatory cells themselves), 4) demonstrating that the pro-macropinocytic programing state and thus, clearance of inflammatory debris, can be enhanced in vivo by stimulating these pathways to improve the resolution.
View original record on NIH RePORTER →