OR26-4 Glucocorticoid Receptor Expression and Signaling During Critical Illness, in Relation to the Duration of Illness and the Systemic Glucocorticoid Availability: A Prospective, Observational, Cross-Sectional Human and a Translational Mouse Study

Abstract

Abstract Critically ill patients are thought to develop maladaptive glucocorticoid-resistance which convinces many clinicians to administer stress doses of glucocorticoids to overcome this state of glucocorticoid-resistance. However, supportive data arises mainly from whole blood cells. It is currently not known if the observed changes in regulators and markers of glucocorticoid signaling and activity are also present in other cell and tissue types with a role in critical illness. We quantified regulators and markers of glucocorticoid signaling and activity in several cell and tissue types in critically ill humans and animals and in healthy controls. We found that throughout critical illness, glucocorticoid activity appeared suppressed in neutrophils, but upregulated in monocytes and skeletal muscle. Also in vital tissues GRα-signaling was altered in a tissue-specific, largely time-independent manner. Increasing systemic glucocorticoid availability increased glucocorticoid activity in adipose tissue, diaphragm and lung, whereas in immune cells and other tissues regulatory pathways counteracted. These data argue against glucocorticoid-treatable generalized glucocorticoid resistance and rather point towards an adaptive response in each specific cell or tissue type to optimally guide the beneficial actions of glucocorticoids to the tissues that need it while protecting collateral undesirable effects in tissue that are harmed by elevated systemic glucocorticoid availability. Presentation: Monday, June 13, 2022 11:45 a.m. - 12:00 p.m.