LPA3 agonist-producing Bacillus velezensis ADS024 is efficacious in multiple neuroinflammatory disease models

IF 8.8 2区 医学 Q1 IMMUNOLOGY Brain, Behavior, and Immunity Pub Date : 2024-08-13 DOI:10.1016/j.bbi.2024.08.024
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Abstract

Neuroinflammation is a common component of neurological disorders. In the gut-brain-immune axis, bacteria and their metabolites are now thought to play a role in the modulation of the nervous and immune systems which may impact neuroinflammation. In this respect, commensal bacteria of humans have recently been shown to produce metabolites that mimic endogenous G-protein coupled receptor (GPCR) ligands. To date, it has not been established whether plant commensal bacteria, which may be ingested by animals including humans, can impact the gut-brain-immune axis via GPCR agonism. We screened an isopropanol (IPA) extract of the plant commensal Bacillus velezensis ADS024, a non-engrafting live biotherapeutic product (LBP) with anti-inflammatory properties isolated from human feces, against a panel of 168 GPCRs and identified strong agonism of the lysophosphatidic acid (LPA) receptor LPA3. The ADS024 IPA extracted material (ADS024-IPA) did not agonize LPA2, and only very weakly agonized LPA1. The agonism of LPA3 was inhibited by the reversible LPA1/3 antagonist Ki16425. ADS024-IPA signaled downstream of LPA3 through G-protein-induced calcium release, recruitment of β-arrestin, and recruitment of the neurodegeneration-associated proteins 14–3-3γ, ε and ζ but did not recruit the β isoform. Since LPA3 agonism was previously indirectly implicated in the reduction of pathology in models of Parkinson’s disease (PD) and multiple sclerosis (MS) by use of the nonselective antagonist Ki16425, and since we identified an LPA3-specific agonist within ADS024, we sought to examine whether LPA3 might indeed be part of a broad underlying mechanism to control neuroinflammation. We tested oral treatment of ADS024 in multiple models of neuroinflammatory diseases using three models of PD, two models of MS, and a model each of amyotrophic lateral sclerosis (ALS), Huntington’s disease (HD), and chemo-induced peripheral neuropathy (CIPN). ADS024 treatment improved model-specific functional effects including improvements in motor movement, breathing and swallowing, and allodynia suggesting that ADS024 treatment impacted a universal underlying neuroinflammatory mechanism regardless of the initiating cause of disease. We used the MOG-EAE mouse model to examine early events after disease initiation and found that ADS024 attenuated the increase in circulating lymphocytes and changes in neutrophil subtypes, and ADS024 attenuated the early loss of cell-surface LPA3 receptor expression on circulating white blood cells. ADS024 efficacy was partially inhibited by Ki16425 in vivo suggesting LPA3 may be part of its mechanism. Altogether, these data suggest that ADS024 and its LPA3 agonism activity should be investigated further as a possible treatment for diseases with a neuroinflammatory component.

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产生 LPA3 激动剂的韦氏芽孢杆菌 ADS024 对多种神经炎症疾病模型具有疗效。
神经炎症是神经系统疾病的常见组成部分。在肠道-大脑-免疫轴中,细菌及其代谢物目前被认为在神经和免疫系统的调节中发挥作用,这可能会影响神经炎症。在这方面,人类共生细菌最近被证明能产生模拟内源性 G 蛋白偶联受体(GPCR)配体的代谢物。迄今为止,尚未确定动物(包括人类)可能摄入的植物共生细菌是否会通过 GPCR 激动作用影响肠道-大脑-免疫轴。我们针对 168 个 GPCR 进行了植物共生菌 ADS024 的异丙醇(IPA)提取物筛选,发现它对溶血磷脂酸(LPA)受体 LPA3 有很强的激动作用。ADS024 IPA 提取物(ADS024-IPA)对 LPA2 没有激动作用,对 LPA1 的激动作用很弱。可逆的 LPA1/3 拮抗剂 Ki16425 可抑制 LPA3 的激动作用。ADS024-IPA 通过 G 蛋白诱导的钙释放、β-arrestin 的募集、神经变性相关蛋白 14-3-3γ、ε 和 ζ 的募集发出 LPA3 下游信号,但不募集 β β 异构体。由于之前使用非选择性拮抗剂 Ki16425 时,LPA3 的激动作用与帕金森病(PD)和多发性硬化症(MS)模型中病理变化的减少间接相关,而且我们在 ADS024 中发现了一种 LPA3 特异性激动剂,因此我们试图研究 LPA3 是否确实是控制神经炎症的广泛潜在机制的一部分。我们在多个神经炎症疾病模型中测试了 ADS024 的口服治疗,包括三个帕金森病模型、两个多发性硬化症模型以及肌萎缩性脊髓侧索硬化症(ALS)、亨廷顿氏病(HD)和化疗诱导的周围神经病变(CIPN)模型。ADS024 治疗改善了特定模型的功能效应,包括运动、呼吸、吞咽和异动症的改善,这表明 ADS024 治疗影响了一种普遍的潜在神经炎症机制,而不管疾病的起因是什么。我们使用 MOG-EAE 小鼠模型研究了疾病发生后的早期事件,发现 ADS024 可减轻循环淋巴细胞的增加和中性粒细胞亚型的变化,而且 ADS024 可减轻循环白细胞上细胞表面 LPA3 受体表达的早期丧失。ADS024 在体内的部分疗效受到 Ki16425 的抑制,这表明 LPA3 可能是其作用机制的一部分。总之,这些数据表明,ADS024 及其 LPA3 激动活性应作为治疗神经炎症性疾病的一种可能疗法加以进一步研究。
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来源期刊
CiteScore
29.60
自引率
2.00%
发文量
290
审稿时长
28 days
期刊介绍: Established in 1987, Brain, Behavior, and Immunity proudly serves as the official journal of the Psychoneuroimmunology Research Society (PNIRS). This pioneering journal is dedicated to publishing peer-reviewed basic, experimental, and clinical studies that explore the intricate interactions among behavioral, neural, endocrine, and immune systems in both humans and animals. As an international and interdisciplinary platform, Brain, Behavior, and Immunity focuses on original research spanning neuroscience, immunology, integrative physiology, behavioral biology, psychiatry, psychology, and clinical medicine. The journal is inclusive of research conducted at various levels, including molecular, cellular, social, and whole organism perspectives. With a commitment to efficiency, the journal facilitates online submission and review, ensuring timely publication of experimental results. Manuscripts typically undergo peer review and are returned to authors within 30 days of submission. It's worth noting that Brain, Behavior, and Immunity, published eight times a year, does not impose submission fees or page charges, fostering an open and accessible platform for scientific discourse.
期刊最新文献
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