Protection of mice against cecal ligation and puncture-induced polymicrobial sepsis by a Fasciola hepatica helminth defence molecule.

IF 2.7 3区 医学 Q2 CRITICAL CARE MEDICINE
SHOCK Pub Date : 2024-10-28 DOI:10.1097/SHK.0000000000002489
Barbara Fazekas, Siobhán Hamon, Carolina De Marco Verissimo, Krystyna Cwiklinski, Jesús López Corrales, Siobhán Gaughan, Sinéad Ryan, Clifford C Taggart, Sinead Weldon, Matthew D Griffin, John P Dalton, Richard Lalor
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引用次数: 0

Abstract

Abstract: Sepsis results from a dysregulated host immune response to infection and is responsible for ~11 million deaths each year. In the laboratory, many aspects of sepsis can be replicated using a cecal ligation and puncture (CLP) model, which is considered the most clinically relevant rodent model of sepsis. In the present study, histological and biomarker multiplex analyses revealed that the CLP model initiated a large-scale inflammatory response in mice by 24 h, with evidence of acute organ damage by 48-72 h. While many typical pro-inflammatory cytokine/chemokines were systemically elevated, a specific array including IL-10, eotaxin, MIP-1α, MIP-1β, MCP-1 and RANTES noticeably increased just prior to animals reaching the humane endpoint. Treatment of mice with 10 μg of a synthetic 68-amino acid peptide derived from an immunomodulatory molecule secreted by a parasitic worm of humans and livestock, Fasciola hepatica, termed Fasciola hepatica helminth defence molecule (FhHDM), potently suppressed the systemic inflammatory profile, protected mice against acute kidney injury, and improved survival between 48 and 72 h post-procedure. These results suggest that the anti-inflammatory parasite-derived FhHDM peptide has potential as a bio-therapeutic treatment for sepsis.

保护小鼠免受盲肠结扎和穿刺诱发的多微生物败血症的法氏螺旋体防御分子。
摘要:败血症是宿主对感染的免疫反应失调所致,每年约有 1100 万人因此而死亡。在实验室中,脓毒症的许多方面都可以通过盲肠结扎和穿刺(CLP)模型来复制,该模型被认为是与临床最相关的脓毒症啮齿动物模型。在本研究中,组织学和生物标志物多重分析表明,CLP 模型会在 24 小时内引发小鼠的大规模炎症反应,并在 48-72 小时内出现急性器官损伤的证据。虽然许多典型的促炎细胞因子/趋化因子会全身性升高,但在动物达到人道终点之前,包括 IL-10、eotaxin、MIP-1α、MIP-1β、MCP-1 和 RANTES 在内的一系列特定细胞因子会明显升高。用 10 μg 合成的 68 氨基酸肽治疗小鼠,这种肽来源于一种由人类和家畜寄生虫--法氏肝包虫--分泌的免疫调节分子,被称为法氏肝包虫螺旋体防御分子(FhHDM),它能有效抑制全身炎症反应,保护小鼠免受急性肾损伤,并提高小鼠术后 48 至 72 小时的存活率。这些结果表明,源于寄生虫的抗炎 FhHDM 肽具有作为败血症生物治疗药物的潜力。
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来源期刊
SHOCK
SHOCK 医学-外科
CiteScore
6.20
自引率
3.20%
发文量
199
审稿时长
1 months
期刊介绍: SHOCK®: Injury, Inflammation, and Sepsis: Laboratory and Clinical Approaches includes studies of novel therapeutic approaches, such as immunomodulation, gene therapy, nutrition, and others. The mission of the Journal is to foster and promote multidisciplinary studies, both experimental and clinical in nature, that critically examine the etiology, mechanisms and novel therapeutics of shock-related pathophysiological conditions. Its purpose is to excel as a vehicle for timely publication in the areas of basic and clinical studies of shock, trauma, sepsis, inflammation, ischemia, and related pathobiological states, with particular emphasis on the biologic mechanisms that determine the response to such injury. Making such information available will ultimately facilitate improved care of the traumatized or septic individual.
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