Regulation of lipopolysaccharide‐induced inflammatory response and endotoxemia by β‐arrestins

β‐Arrestins are scaffolding proteins implicated as negative regulators of TLR4 signaling in macrophages and fibroblasts. Unexpectedly, we found that β‐arrestin‐1 (β‐arr‐1) and ‐2 knockout (KO) mice are protected from TLR4‐mediated endotoxic shock and lethality. To identify the potential mechanisms involved, we examined the plasma levels of inflammatory cytokines/chemokines in the wild‐type (WT) and β‐arr‐1 and ‐2 KO mice after lipopolysaccharide (LPS, a TLR4 ligand) injection. Consistent with lethality, LPS‐induced inflammatory cytokine levels in the plasma were markedly decreased in both β‐arr‐1 and ‐2 KO, compared to WT mice. To further explore the cellular mechanisms, we obtained splenocytes (separated into CD11 b+ and CD11 b− populations) from WT, β‐arr‐1, and ‐2 KO mice and examined the effect of LPS on cytokine production. Similar to the in vivo observations, LPS‐induced inflammatory cytokines were significantly blocked in both splenocyte populations from the β‐arr‐2 KO compared to the WT mice. This effect in the β‐arr‐1 KO mice, however, was restricted to the CD11 b− splenocytes. Our studies further indicate that regulation of cytokine production by β‐arrestins is likely independent of MAPK and IκBα‐NFκB pathways. Our results, however, suggest that LPS‐induced chromatin modification is dependent on β‐arrestin levels and may be the underlying mechanistic basis for regulation of cytokine levels by β‐arrestins in vivo. Taken together, these results indicate that β‐arr‐1 and ‐2 mediate LPS‐induced cytokine secretion in a cell‐type specific manner and that both β‐arrestins have overlapping but non‐redundant roles in regulating inflammatory cytokine production and endotoxic shock in mice. J. Cell. Physiol. 225: 406–416, 2010. © 2010 Wiley‐Liss, Inc.