Cardiomyocytes execute pro- and anti-inflammatory signaling of IFNγ-induced GBP5 by differential regulation of the inflammasome
Neuberger, L.; Lange, L.; Hoffmann, S.; Seeger, T.; Lehmann, L.; Frey, N.; Kumari, M.
Show abstract
Infiltration of conventional immune cells has been ascribed as the fundamental drivers of innate immune signaling in the damaged myocardium. However, the emerging intrinsic immunoregulatory potential of cardiomyocytes still remains poorly understood. Interferon gamma (IFN{gamma}) is a pleiotropic cytokine with context-dependent detrimental as well protective role in regulating cardiac inflammatory circuits. The prevailing view of IFN{gamma} as a prime pro-inflammatory cytokine has been challenged due to its paradoxical actions both as an inducer as well as negative regulator of inflammation, but the players involved in these converse processes remains enigmatic. Here we show that cardiomyocytes exhibit a cell-autonomous immunocompetent response upregulating innate inflammatory signaling upon type I and type II IFN stimulus. Notably, hiPSC-derived cardiomyocytes display a robust increase in guanylate binding protein 5 (GBP5), one of the major IFN{gamma}-induced GTPase involved in inflammasome signaling, followed by upregulation of AIM2/CASP1 pathway whereas NLRP3 levels remain unaltered by IFN{gamma} stimulation. GBP5 knockdown and overexpression studies in hiPSC-derived cardiomyocytes identify GBP5/TGF{beta} axis as a non-canonical anti-inflammatory feedback regulation on the IFN{gamma}-induced inflammatory cascade.
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