Glucocorticoids induce a maladaptive epithelial stress response to aggravate acute kidney injury.

Glucocorticoids induce a maladaptive epithelial stress response to aggravate acute kidney injury.

Publication date: Oct 02, 2024

Acute kidney injury (AKI) is a frequent and challenging clinical condition associated with high morbidity and mortality and represents a common complication in critically ill patients with COVID-19. In AKI, renal tubular epithelial cells (TECs) are a primary site of damage, and recovery from AKI depends on TEC plasticity. However, the molecular mechanisms underlying adaptation and maladaptation of TECs in AKI remain largely unclear. Here, our study of an autopsy cohort of patients with COVID-19 provided evidence that injury of TECs by myoglobin, released as a consequence of rhabdomyolysis, is a major pathophysiological mechanism for AKI in severe COVID-19. Analyses of human kidney biopsies, mouse models of myoglobinuric and gentamicin-induced AKI, and mouse kidney tubuloids showed that TEC injury resulted in activation of the glucocorticoid receptor by endogenous glucocorticoids, which aggravated tubular damage. The detrimental effect of endogenous glucocorticoids on injured TECs was exacerbated by the administration of a widely clinically used synthetic glucocorticoid, dexamethasone, as indicated by experiments in mouse models of myoglobinuric- and folic acid-induced AKI, human and mouse kidney tubuloids, and human kidney slice cultures. Mechanistically, studies in mouse models of AKI, mouse tubuloids, and human kidney slice cultures demonstrated that glucocorticoid receptor signaling in injured TECs orchestrated a maladaptive transcriptional program to hinder DNA repair, amplify injury-induced DNA double-strand break formation, and dampen mTOR activity and mitochondrial bioenergetics. This study identifies glucocorticoid receptor activation as a mechanism of epithelial maladaptation, which is functionally important for AKI.

Concepts Keywords
Bioenergetics Acute Kidney Injury
High Animals
Kidney COVID-19
Maladaptation Dexamethasone
Myoglobinuric Dexamethasone
Disease Models, Animal
Epithelial Cells
Female
Glucocorticoids
Glucocorticoids
Humans
Kidney Tubules
Male
Mice
Myoglobin
Myoglobin
Receptors, Glucocorticoid
Receptors, Glucocorticoid
SARS-CoV-2
Stress, Physiological

Semantics

Type Source Name
disease MESH acute kidney injury
disease MESH morbidity
disease MESH critically ill
disease MESH COVID-19
disease IDO site
disease MESH rhabdomyolysis
drug DRUGBANK Gentamicin
drug DRUGBANK Dexamethasone
drug DRUGBANK Folic Acid
pathway REACTOME DNA Repair
disease MESH Disease Models Animal
disease MESH Stress Physiological

Original Article

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