Cross regulation between the molecular clock and kidney inflammatory, metabolic and fibrotic responses

Chronic kidney disease is a highly prevalent condition that remains a major clinical and biomedical challenge. Tubulo-interstitial fibrosis is the common pathological substrate for many causes that lead to chronic kidney disease. It is characterized by profound derangements in metabolic and inflammatory responses, whereby functional tissue is replaced with extracellular matrix, leading to the suppression of renal function. Perturbations in the circadian rhythm have been associated with many human pathologies, including renal disease. However, the role of the molecular clock in the instauration of fibrosis remains incompletely understood. We investigated the relationship between the molecular clock and renal damage in experimental models of injury and fibrosis (UUO, FAN and adenine toxicity), employing genetically-modified mice with selective deficiencies of the clock components Bmal1, Clock and Cry. We found that UUO induced a marked increase in the expression of Bmal1. In human tubular epithelial cells, the pro-fibrotic mediator, TGF-beta, significantly altered the expression of core clock components. We further observed that the absence of Cry drastically aggravated kidney fibrosis, while both Cry and Clock played a role in the neutrophil and macrophage mediated inflammatory response, respectively. Suppression of Cry1/2 was associated with a major shift in the expression of metabolism-related genes, underscoring the importance of metabolic dysfunction in fibrosis. These results support a reciprocal interaction between the circadian clock and the response to kidney injury. ### Competing Interest Statement The authors have declared no competing interest.