Jason Jarosz scite author profile

Jason Jarosz

2Publications

20Citation Statements Received

62Citation Statements Given

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Sandia National Laboratories California, Saint Louis University

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Anti–IL-17 Therapy Restricts and Reverses Late-Term Corneal Allorejection

Yin

Zobell

Jarosz

et al. 2015

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Corneal allograft rejection has been described as a Th1-mediated process involving IFN-γ production. However, recent evidence has also implicated IL-17 as being involved during acute corneal allograft responses. Our data supports those that maintain that IL-17 is involved in early acute corneal allograft acceptance. However, we decided to extend these studies to include a later phase of rejection in which there is a peak of IL-17 production that is >15 fold higher than seen during acute rejection that occurs >45 days post-engraftment at the onset of late-term rejection. We demonstrate that neutralizing IL-17A at this time significantly reduced corneal graft rejection. Surprisingly, when corneal grafts that are undergoing this later phase of rejection are treated with anti-IL17A there is a reversal of both opacity and neovascularization. When compared to the early phase of rejection, the cellular infiltrate is significantly less with a greatly reduced presence of Gr-1+ neutrophils with a relative increase in CD4+ T cells and macrophages. We went on to identify that the cells expressing IL-17 were CD4+ IL-17+ T cells and somewhat surprisingly, IL-17+ F4/80+ macrophages within the rejecting corneal allografts. Taken together, these findings describe a distinct late phase of corneal allograft rejection which is likely mediated by Th17 cells and that therapeutic neutralization of IL-17A reverses this rejection. This further suggests that IL-17 might serve as an excellent therapeutic target to reduce this form of corneal allograft rejection.

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Retaining Systems Engineering Model Meaning Through Transformation: Demo 2

Carroll

Jarosz

Tafoya

et al. 2021

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Jason Jarosz

Anti–IL-17 Therapy Restricts and Reverses Late-Term Corneal Allorejection

Retaining Systems Engineering Model Meaning Through Transformation: Demo 2

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