TLR4激活和信号在骨重塑中的作用，以及血清转移性关节炎的传入发芽

IF 4.9 2区医学 Q1 Medicine

Arthritis Research & Therapy Pub Date : 2024-12-18 DOI:10.1186/s13075-024-03424-4

Gilson Goncalves dos Santos, Juan Miguel Jiménez-Andrade, Enriqueta Muñoz-Islas, Mariana E. Candanedo-Quiroz, Andrea Gonzalez Cardenas, Bronwen Drummond, Peter Pham, Gwendalynn Stilson, Chao-Chin Hsu, Lauriane Delay, Juliana M. Navia-Pelaez, Julia Paes Lemes, Yury I. Miller, Tony L. Yaksh, Maripat Corr

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引用次数: 0

摘要

在小鼠 K/BxN 血清转移类风湿性关节炎（RA）模型中，雄性野生型（WT）小鼠和部分雌性野生型（WT）小鼠在炎症消退后仍会出现触觉过敏，而 Toll 样受体（TLR）4 缺乏的动物则不会出现这种过敏。我们评估了 TLR4 在这种关节炎模型中对异动症、骨重塑和传入萌芽的作用。向条件性或稳定的 TLR4 缺失的雌雄小鼠和对照组注射 K/BxN 血清。对小鼠爪肿胀进行评分，并用von Frey丝评估异动症。第 28 天，用共聚焦显微镜观察滑膜神经纤维，用 microCT 检测骨密度。通过免疫荧光和流式细胞术检测脊髓中的小胶质细胞活性和TLR4二聚化。在滑膜中，注射了 K/BxN 的 WT 雄性和雌性小鼠的降钙素基因相关肽（CGRP+）、酪氨酸羟化酶（TH）+ 和 GAP43+ 神经纤维都出现了显著增加。K/BxN WT雌性小鼠的微CT骨小梁密度显著降低，而 WT雄性小鼠则没有。雌雄 WT 小鼠的破骨细胞数量都有所增加，但 Tlr4-/- K/BxN 小鼠的破骨细胞数量却没有增加。我们使用Cre驱动单核细胞/破骨细胞（溶菌酶M）、小胶质细胞（Tmem119和Cx3CR1）、星形胶质细胞（GFAP）和感觉神经元（advillin）的条件品系来破坏Tlr4f/f。注射 K/BxN 血清后，所有品系的小鼠都出现了相似的关节炎评分，只有 Tlr4Tmem119 小鼠的评分有所下降。Tlr4Lyz2、Tlr4Tmem119 和 Tlr4Cx3cr1 小鼠的慢性疼痛表型部分逆转，但 Tlr4Avil 和 Tlr4Gfap 小鼠的慢性疼痛表型没有逆转。与 Tlr4-/- 雄性小鼠相比，WT K/BxN 雄性小鼠脊髓 Iba1 增加，但 GFAP 没有增加。为了确定 K/BxN 小鼠的脊髓 TLR4 是否真的被激活，对 WT K/BxN 雄性小鼠的腰椎脊髓进行了流式细胞术检测，结果显示小胶质细胞（CD11b+ /TMEM119+）中的 TLR4 表现出二聚化（如激活）和脂质筏的特征性增加。这些结果表明，慢性痛觉表型与小胶质细胞和单核细胞系中的 TLR4 以及脊髓 TLR4 激活相关。然而，在该模型中，TLR4 对于周围神经萌芽的发展是不可或缺的。

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Role of TLR4 activation and signaling in bone remodeling, and afferent sprouting in serum transfer arthritis

In the murine K/BxN serum transfer rheumatoid arthritis (RA) model, tactile allodynia persists after resolution of inflammation in male and partially in female wild type (WT) mice, which is absent in Toll-like receptor (TLR)4 deficient animals. We assessed the role of TLR4 on allodynia, bone remodeling and afferent sprouting in this model of arthritis. K/BxN sera were injected into male and female mice with conditional or stable TLR4 deletion and controls. Paw swelling was scored and allodynia assessed by von Frey filaments. At day 28, synovial neural fibers were visualized with confocal microscopy and bone density assayed with microCT. Microglial activity and TLR4 dimerization in spinal cords were examined by immunofluorescence and flow cytometry. In the synovium, K/BxN injected WT male and female mice showed robust increases in calcitonin gene related-peptide (CGRP+), tyrosine hydroxylase (TH)+ and GAP43+ nerve fibers. Trabecular bone density by microCT was significantly decreased in K/BxN WT female but not in WT male mice. The number of osteoclasts increased in both sexes of WT mice, but not in Tlr4-/- K/BxN mice. We used conditional strains with Cre drivers for monocytes/osteoclasts (lysozyme M), microglia (Tmem119 and Cx3CR1), astrocytes (GFAP) and sensory neurons (advillin) for Tlr4f/f disruption. All strains developed similar arthritis scores after K/BxN serum injection with the exception being the Tlr4Tmem119 mice which showed a reduction. Both sexes of Tlr4Lyz2, Tlr4Tmem119 and Tlr4Cx3cr1 mice displayed a partial reversal of the chronic pain phenotype but not in Tlr4Avil, and Tlr4Gfap mice. WT K/BxN male mice showed increases in spinal Iba1, but not GFAP, compared to Tlr4-/- male mice. To determine whether spinal TLR4 was indeed activated in the K/BxN mice, flow cytometry of lumbar spinal cords of WT K/BxN male mice was performed and revealed that TLR4 in microglia cells (CD11b+ /TMEM119+) demonstrated dimerization (e.g. activation) and a characteristic increase in lipid rafts. These results demonstrated a complex chronic allodynia phenotype associated with TLR4 in microglia and monocytic cell lineages, and a parallel spinal TLR4 activation. However, TLR4 is dispensable for the development of peripheral nerve sprouting in this model.

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来源期刊

Arthritis Research & Therapy RHEUMATOLOGY-

CiteScore

8.60

自引率

2.00%

发文量

261

审稿时长

14 weeks

期刊介绍： Established in 1999, Arthritis Research and Therapy is an international, open access, peer-reviewed journal, publishing original articles in the area of musculoskeletal research and therapy as well as, reviews, commentaries and reports. A major focus of the journal is on the immunologic processes leading to inflammation, damage and repair as they relate to autoimmune rheumatic and musculoskeletal conditions, and which inform the translation of this knowledge into advances in clinical care. Original basic, translational and clinical research is considered for publication along with results of early and late phase therapeutic trials, especially as they pertain to the underpinning science that informs clinical observations in interventional studies.