Pirfenidone increases IL-10 and improves acute pancreatitis in multiple clinically relevant murine models
Ejas Palathingal Bava, John George, Mohammad Tarique, Srikanth Iyer, Preeti Sahay, Beatriz Gomez Aguilar, Dujon B. Edwards, Bhuwan Giri, Vrishketan Sethi, Tejeshwar Jain, Prateek Sharma, Utpreksha Vaish, Harrys K. C. Jacob, Anthony Ferrantella, Craig L. Maynard, Ashok K. Saluja, Rajinder K. Dawra, Vikas Dudeja
Ejas Palathingal Bava, John George, Mohammad Tarique, Srikanth Iyer, Preeti Sahay, Beatriz Gomez Aguilar, Dujon B. Edwards, Bhuwan Giri, Vrishketan Sethi, Tejeshwar Jain, Prateek Sharma, Utpreksha Vaish, Harrys K. C. Jacob, Anthony Ferrantella, Craig L. Maynard, Ashok K. Saluja, Rajinder K. Dawra, Vikas Dudeja
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Research Article Gastroenterology Inflammation

Pirfenidone increases IL-10 and improves acute pancreatitis in multiple clinically relevant murine models

Abstract

Despite decades of research, there is no specific therapy for acute pancreatitis (AP). In the current study, we have evaluated the efficacy of pirfenidone, an antiinflammatory and antifibrotic agent that is approved by the FDA for treatment of idiopathic pulmonary fibrosis (IPF), in ameliorating local and systemic injury in AP. Our results suggest that treatment with pirfenidone in therapeutic settings (e.g., after initiation of injury), even when administered at the peak of injury, reduces severity of local and systemic injury and inflammation in multiple models of AP. In vitro evaluation suggests that pirfenidone decreases cytokine release from acini and macrophages and disrupts acinar-macrophage crosstalk. Therapeutic pirfenidone treatment increases IL-10 secretion from macrophages preceding changes in histology and modulates the immune phenotype of inflammatory cells with decreased levels of inflammatory cytokines. Antibody-mediated IL-10 depletion, use of IL-10–KO mice, and macrophage depletion experiments confirmed the role of IL-10 and macrophages in its mechanism of action, as pirfenidone was unable to reduce severity of AP in these scenarios. Since pirfenidone is FDA approved for IPF, a trial evaluating the efficacy of pirfenidone in patients with moderate to severe AP can be initiated expeditiously.

Authors

Ejas Palathingal Bava, John George, Mohammad Tarique, Srikanth Iyer, Preeti Sahay, Beatriz Gomez Aguilar, Dujon B. Edwards, Bhuwan Giri, Vrishketan Sethi, Tejeshwar Jain, Prateek Sharma, Utpreksha Vaish, Harrys K. C. Jacob, Anthony Ferrantella, Craig L. Maynard, Ashok K. Saluja, Rajinder K. Dawra, Vikas Dudeja

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Figure 4

Therapeutic pirfenidone modulates immune and cytokine microenvironment at 120 hours, when histological changes start to appear in L-arginine model.

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Therapeutic pirfenidone modulates immune and cytokine microenvironment a...
(AK) mRNA levels of proinflammatory cytokines TNF-α, IL-6, IL-12α, iNOS, IL-23, IFN-γ, TGF-β2, MMP-9, COX-2, and NLRP3 showed a significant decrease with pirfenidone treatment, while the antiinflammatory cytokine IL-10 was significantly increased with pirfenidone treatment. (LN) Flow cytometry analysis of pancreatic immune cells at 120 hours demonstrates that pirfenidone treatment leads to a significant decrease in percentage of TNF-α secreting macrophages and a significant increase in percentage of IL-10 secreting Th cells and macrophages. (O) Pirfenidone treatment also led to statistically significant increase in Tregs. (P) Pirfenidone treatment significantly increased intrapancreatic IL-10 levels at 120 hours, as measured by ELISA. (Q and R) Multi-Analyte Flow Assay for cytokines TNF-α and IL-17 in serum demonstrates that pirfenidone is able to suppress the level of these cytokines. Data represent mean ± SEM and n = 5 in each group. *P < 0.05 by Kruskal-Wallis Test (Dunn’s multiple-comparison test) for AK and P and Mann-Whitney U test for LO, Q, and R.