Simon A. Hirota scite author profile

Neutrophils are recruited from the blood to sites of sterile inflammation, where they contribute to wound healing but may also cause tissue damage. By using spinning disk confocal intravital microscopy, we examined the kinetics and molecular mechanisms of neutrophil recruitment to sites of focal hepatic necrosis in vivo. Adenosine triphosphate released from necrotic cells activated the Nlrp3 inflammasome to generate an inflammatory microenvironment that alerted circulating neutrophils to adhere within liver sinusoids. Subsequently, generation of an intravascular chemokine gradient directed neutrophil migration through healthy tissue toward foci of damage. Lastly, formyl-peptide signals released from necrotic cells guided neutrophils through nonperfused sinusoids into the injury. Thus, dynamic in vivo imaging revealed a multistep hierarchy of directional cues that guide neutrophil localization to sites of sterile inflammation.

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The NLRP3 Inflammasome Promotes Renal Inflammation and Contributes to CKD

Vilaysane

Chun²,

Seamone³

et al. 2010

494

440

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Inflammation significantly contributes to the progression of chronic kidney disease (CKD). Inflammasome-dependent cytokines, such as IL-1␤ and IL-18, play a role in CKD, but their regulation during renal injury is unknown. Here, we analyzed the processing of caspase-1, IL-1␤, and IL-18 after unilateral ureteral obstruction (UUO) in mice, which suggested activation of the Nlrp3 inflammasome during renal injury. Compared with wild-type mice, Nlrp3 Ϫ/Ϫ mice had less tubular injury, inflammation, and fibrosis after UUO, associated with a reduction in caspase-1 activation and maturation of IL-1␤ and IL-18; these data confirm that the Nlrp3 inflammasome upregulates these cytokines in the kidney during injury. Bone marrow chimeras revealed that Nlrp3 mediates the injurious/inflammatory processes in both hematopoietic and nonhematopoietic cellular compartments. In tissue from human renal biopsies, a wide variety of nondiabetic kidney diseases exhibited increased expression of NLRP3 mRNA, which correlated with renal function. Taken together, these results strongly support a role for NLRP3 in renal injury and identify the inflammasome as a possible therapeutic target in the treatment of patients with progressive CKD.

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Activation of neuronal P2X7 receptor–pannexin-1 mediates death of enteric neurons during colitis

Gulbransen

Bashashati

Hirota

et al. 2012

Nat Med

376

409

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Inflammatory bowel diseases (IBD) are chronic relapsing and remitting conditions associated with long-term gut dysfunction resulting from alterations to the enteric nervous system and a loss of enteric neurons1,2. The mechanisms underlying inflammation-induced enteric neuron death are unknown. Here we report using in vivo models of experimental colitis that inflammation causes enteric neuron death by activating a neuronal signaling complex comprised of P2X7 receptors (P2X7Rs), pannexin–1 (Panx1) channels, Asc and caspases. Inhibiting P2X7Rs, Panx1, Asc or caspase activity prevents inflammation-induced neuron cell death. Preservation of enteric neurons by inhibiting Panx1 in vivo prevented the onset of inflammation-induced colonic motor dysfunction. Panx1 expression is reduced in Crohn’s disease but not ulcerative colitis. We conclude that activation of neuronal Panx1 underlies neuron death and subsequent development of the abnormal gut motility in IBD. Targeting Panx1 represents a novel neuroprotective strategy to ameliorate the progression of IBD–associated dysmotility.

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Simon A. Hirota

Intravascular Danger Signals Guide Neutrophils to Sites of Sterile Inflammation

The NLRP3 Inflammasome Promotes Renal Inflammation and Contributes to CKD

Activation of neuronal P2X7 receptor–pannexin-1 mediates death of enteric neurons during colitis

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