Unveiling IL-33/ST2 Pathway Unbalance in Cardiac Remodeling Due to Obesity in Zucker Fatty Rats.
Clementina SitziaElena VianelloElena DozioMarta KalousováTomáš ZimaStefano BrizzolaPaola RoccabiancaGabriella TedeschiJohn LamontLorenza TacchiniMassimiliano Marco Corsi RomanelliPublished in: International journal of molecular sciences (2023)
Obesity is an epidemic condition linked to cardiovascular disease severity and mortality. Fat localization and type represent cardiovascular risk estimators. Importantly, visceral fat secretes adipokines known to promote low-grade inflammation that, in turn, modulate its secretome and cardiac metabolism. In this regard, IL-33 regulates the functions of various immune cells through ST2 binding and-following its role as an immune sensor to infection and stress-is involved in the pro-fibrotic remodeling of the myocardium. Here we further investigated the IL-33/ST2 effects on cardiac remodeling in obesity, focusing on molecular pathways linking adipose-derived IL-33 to the development of fibrosis or hypertrophy. We analyzed the Zucker Fatty rat model, and we developed in vitro models to mimic the adipose and myocardial relationship. We demonstrated a dysregulation of IL-33/ST2 signaling in both adipose and cardiac tissue, where they affected Epac proteins and myocardial gene expression, linked to pro-fibrotic signatures. In Zucker rats, pro-fibrotic effects were counteracted by ghrelin-induced IL-33 secretion, whose release influenced transcription factor expression and ST2 isoforms balance regulation. Finally, the effect of IL-33 signaling is dependent on several factors, such as cell types' origin and the balancing of ST2 isoforms. Noteworthy, it is reasonable to state that considering IL-33 to have a unique protective role should be considered over-simplistic.
Keyphrases
- insulin resistance
- gene expression
- left ventricular
- low grade
- transcription factor
- metabolic syndrome
- adipose tissue
- type diabetes
- weight loss
- heart failure
- oxidative stress
- dna methylation
- systemic sclerosis
- high grade
- single cell
- high fat diet induced
- physical activity
- weight gain
- anti inflammatory
- coronary artery disease
- binding protein
- skeletal muscle
- idiopathic pulmonary fibrosis
- atrial fibrillation
- bone marrow
- single molecule
- quantum dots
- mass spectrometry
- sensitive detection
- long non coding rna
- genome wide
- high glucose
- risk factors