Functional humanization of 15-lipoxygenase-1 (Alox15) protects mice from dextran sodium sulfate induced intestinal inflammation.

IF 10.2 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cellular & Molecular Biology Letters Pub Date : 2025-07-13 DOI:10.1186/s11658-025-00756-0

Florian Reisch, Marjann Schäfer, Dominika Labuz, Halina Machelska, Sabine Stehling, Gerhard P Püschel, Michael Rothe, Dagmar Heydeck, Hartmut Kuhn

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引用次数: 0

Abstract

Background: Mammalian arachidonic acid lipoxygenases (ALOXs) have previously been implicated in the pathogenesis of inflammatory disease, and pro- as well as anti-inflammatory activities have been reported. The human genome involves six functional ALOX genes and each of them encodes for a functionally distinct enzyme. ALOX15 is one of these isoforms and the majority of mammalian ALOX15 orthologs including mouse Alox15 convert arachidonic acid to its 12-hydroperoxy derivative. In contrast, human ALOX15 forms 15-hydroperoxy arachidonic acid instead. This difference in the catalytic properties of the two mammalian ALOX15 orthologs may be of biological relevance since arachidonic acid 15-lipoxygenating ALOX-isoforms exhibit an improved biosynthetic capacity for pro-resolving mediators. We recently generated Alox15 knock-in mice, which homozygously express a humanized Alox15 mutant (Leu353Phe) instead of the wildtype enzyme. These animals should be protected from the development of inflammatory symptoms in whole animal inflammation models if the biosynthesis of pro-resolving mediators plays a major role.

Methods: To explore whether functional humanization of mouse Alox15 might impact the pathogenesis of inflammatory diseases we tested Alox-KI mice in comparison with wildtype control animals in two whole animal inflammation models (dextran sodium sulfate induced colitis, Freund's complete adjuvant induced paw edema). In these experiments we quantified the severity of inflammatory symptoms during the acute phase of inflammation and during the resolution period.

Results: We found that Alox15 knock-in mice are strongly protected from the development of inflammatory symptoms in the dextran sodium sulfate colitis model when the loss of body weight was used as major readout parameter. Quantification of the colon tissue oxylipidomes revealed that the colon concentrations of resolvin D5 were elevated in Alox15-KI mice and thus, this mediator might contribute to the protective effect induced by our genetic manipulation. However, other specialized pro-resolving mediators, such as maresin-2, neuroprotectin-1, and lipoxins, may not play a major role for the protective response. In the Freund's complete adjuvant induced paw edema inflammation model no protective effect was observed.

Conclusions: Taken together, our data suggest that humanization of the reaction specificity of mouse Alox15 (Leu353Phe mutation) exhibits differential effects in two mouse inflammation models.

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15-脂氧化酶-1 （Alox15）功能人源化可保护小鼠免受葡聚糖硫酸钠诱导的肠道炎症。

背景：哺乳动物花生四烯酸脂氧合酶（ALOXs）先前被认为与炎症性疾病的发病机制有关，并且具有促炎和抗炎活性。人类基因组包含6个功能性ALOX基因，每个基因编码一种功能不同的酶。ALOX15是这些同型异构体之一，大多数哺乳动物的ALOX15同源物包括小鼠ALOX15将花生四烯酸转化为其12-羟基过氧衍生物。相反，人类的ALOX15形成15-羟基花生四烯酸。两种哺乳动物ALOX15同源物催化性能的差异可能具有生物学相关性，因为花生四烯酸15-脂氧合ALOX15同型体表现出更好的促溶解介质的生物合成能力。我们最近培育了Alox15敲入小鼠，它们纯合表达人源化的Alox15突变体（Leu353Phe）而不是野生型酶。在整个动物炎症模型中，如果促溶解介质的生物合成起主要作用，则应保护这些动物免受炎症症状的发展。方法：为探讨小鼠Alox15功能人源化是否会影响炎性疾病的发病机制，我们将Alox15 - ki小鼠与野生型对照动物进行了两种全动物炎症模型（葡聚糖硫酸钠诱导结肠炎、Freund's完全佐剂诱导足跖水肿）的比较。在这些实验中，我们量化了炎症急性期和缓解期炎症症状的严重程度。结果：我们发现，当体重减轻作为主要读数参数时，Alox15敲入小鼠在葡聚糖硫酸钠结肠炎模型中受到强烈保护，免受炎症症状的发展。在Alox15-KI小鼠中，结肠组织氧脂质体的定量分析显示，结肠中溶解蛋白D5的浓度升高，因此，这种介质可能有助于我们的基因操作诱导的保护作用。然而，其他专门的促溶解介质，如毛蛋白-2、神经保护素-1和脂毒素，可能在保护反应中不起主要作用。在Freund完全佐剂诱导的足跖水肿炎症模型中，未观察到保护作用。综上所述，我们的数据表明，小鼠Alox15 （Leu353Phe突变）反应特异性的人源化在两种小鼠炎症模型中表现出不同的效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cellular & Molecular Biology Letters 生物-生化与分子生物学

CiteScore

11.60

自引率

13.30%

发文量

101

审稿时长

3 months

期刊介绍： Cellular & Molecular Biology Letters is an international journal dedicated to the dissemination of fundamental knowledge in all areas of cellular and molecular biology, cancer cell biology, and certain aspects of biochemistry, biophysics and biotechnology.