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[ subject:"Physiology." ]
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The effects of interleukin-19 on att...
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Ellison, Stephen.
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The effects of interleukin-19 on attenuation of the vascular response to injury.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
The effects of interleukin-19 on attenuation of the vascular response to injury./
作者:
Ellison, Stephen.
出版者:
Ann Arbor : ProQuest Dissertations & Theses, : 2015,
面頁冊數:
115 p.
附註:
Source: Dissertation Abstracts International, Volume: 75-04(E), Section: B.
Contained By:
Dissertation Abstracts International75-04B(E).
標題:
Physiology. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3604670
ISBN:
9781303604713
The effects of interleukin-19 on attenuation of the vascular response to injury.
Ellison, Stephen.
The effects of interleukin-19 on attenuation of the vascular response to injury.
- Ann Arbor : ProQuest Dissertations & Theses, 2015 - 115 p.
Source: Dissertation Abstracts International, Volume: 75-04(E), Section: B.
Thesis (Ph.D.)--Temple University, 2015.
AIMS and HYPOTHESIS: The first aim of the current study is to show that IL-19 is expressed in atherosclerotic plaque, and to test that IL-19 can reduce experimental atherosclerosis in susceptible mice. The second aim of the study is to show that IL-19 can regulate development of intimal hyperplasia in a murine model of restenosis. For both aims, we sought to identify potential intracellular signaling mechanisms of IL-19 which produce the observed effect. These aims directed our overall hypothesis that the anti-inflammatory properties of IL-19 can attenuate the vascular response to injury in various animal models of vascular proliferative disease.
ISBN: 9781303604713Subjects--Topical Terms:
518431
Physiology.
The effects of interleukin-19 on attenuation of the vascular response to injury.
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Source: Dissertation Abstracts International, Volume: 75-04(E), Section: B.
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Thesis (Ph.D.)--Temple University, 2015.
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AIMS and HYPOTHESIS: The first aim of the current study is to show that IL-19 is expressed in atherosclerotic plaque, and to test that IL-19 can reduce experimental atherosclerosis in susceptible mice. The second aim of the study is to show that IL-19 can regulate development of intimal hyperplasia in a murine model of restenosis. For both aims, we sought to identify potential intracellular signaling mechanisms of IL-19 which produce the observed effect. These aims directed our overall hypothesis that the anti-inflammatory properties of IL-19 can attenuate the vascular response to injury in various animal models of vascular proliferative disease.
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METHODS and RESULTS: The first aim of this dissertation showed that LDLR-/- mice fed an atherogenic diet and injected with either 1.0ng/g/day or 10.0ng/g/day rmIL-19 had significantly less plaque area in the aortic arch compared with controls (p<0.0001). Weight gain and serum lipid levels were not significantly different. IL-19 could halt, but not reverse expansion of existing plaque. Gene expression in splenocytes from IL-19 treated mice demonstrated immune cell Th2 polarization, with decreased expression of T-bet, IFNgamma, IL-1beta and IL-12beta, and increased expression of GATA3 messenger ribonucleic acid (mRNA). A greater percentage of lymphocytes were Th2 polarized in IL-19 treated mice. Cellular characterization of plaque by immunohistochemistry demonstrated IL-19 treated mice have significantly less macrophage infiltrate compared with controls (p<0.001). Intravital microscopy revealed significantly less leukocyte adhesion in wild-type mice injected with IL-19 and fed an atherogenic diet compared with controls. Treatment of cultured EC, VSMC, and bone marrow-derived macrophages (BMDM) with IL-19 resulted in a significant decrease in chemokine mRNA, and in the mRNA-stability protein HuR.
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In the second aim of this dissertation we showed that IL-19 attenuates vascular restenosis in response to carotid artery ligation. Carotid artery ligation of hyper-responsive friend leukemia virus B (FVB) wild-type mice injected with 10ng/g/day rIL-19 had significantly lower neointima/media ratio (I/M) compared with phosphate buffered saline (PBS) controls (p=0.006). Conversely, carotid artery of IL-19-/- mice demonstrated significantly higher I/M ratio compared with wild-type mice (p=0.04). Importantly, the increased I/M ratio in the knockout mice could be rescued by injection of 10ng/g/day IL-19 (p=0.04). VSMC explanted from IL-19-/- mice proliferated significantly more rapidly compared with wild-type (p=0.04). Surprisingly, in this model, IL-19 does not modulate adoptive immunity. Rather, addition of IL-19 to cultured wild-type VSMC did not significantly decrease VSMC proliferation, but could rescue proliferation in IL-19-/- VSMC to wild-type levels (p=0.02). IL-19-/- VSMC expressed significantly greater levels of inflammatory mRNA including IL-1beta, TNFalpha, and MCP-1 in response to TNFalpha stimulation (p<0.01 for all). No polarization of adaptive immunity was noted in these mice.
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CONCLUSIONS: These data are the first to report that IL-19 is a potent inhibitor of experimental atherosclerosis via diverse mechanisms including immune cell polarization, decrease in macrophage adhesion, and decrease in gene expression. In addition, these data are also the first to show that IL-19 plays a previously unrecognized protective role in vascular restenosis. Together, these data suggest IL-19 is both anti-atherogenic and anti-restenotic and may identify IL-19 as a novel therapeutic to limit vascular inflammation. (Abstract shortened by UMI.).
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