Galectin-3 inhibition reduces fibrotic scarring and promotes functional recovery after spinal cord injury in mice.

IF 6.1 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cell and Bioscience Pub Date : 2024-10-15 DOI:10.1186/s13578-024-01310-9

Fangli Shan, Jianan Ye, Xinzhong Xu, Chao Liang, Yuanzhe Zhao, Jingwen Wang, Fangru Ouyang, Jianjian Li, Jianwei Lv, Zhonghan Wu, Fei Yao, Juehua Jing, Meige Zheng

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Abstract

Background: In the context of spinal cord injury (SCI), infiltrating macrophages assume prominence as the primary inflammatory cells within the lesion core, where the fibrotic scar is predominantly orchestrated by platelet-derived growth factor receptor beta (PDGFRβ⁺) fibroblasts. Galectin-3, a carbohydrate-binding protein of the lectin family, is notably expressed by infiltrating hematogenous macrophages and mediates cell-cell interactions. Although Galectin-3 has been shown to contribute to the endocytic internalization of PDGFRβ in vitro, its specific role in driving fibrotic scar formation after SCI has not been determined.

Methods: We employed a crush mid-thoracic (T10) SCI mouse model. Galectin-3 inhibition after SCI was achieved through intrathecal injection of the Galectin-3 inhibitor TD139 or in situ injection of lentivirus carrying Galectin-3-shRNA (Lv-shLgals3). A fibrosis-induced mice model was established by in situ injection of platelet-derived growth factor D (PDGFD) or recombinant Galectin-3 (rGalectin-3) into the uninjured spinal cord. Galectin-3 internalization experiments were conducted in PDGFRβ⁺ fibroblasts cocultured in conditioned medium in vitro.

Results: We identified the spatial and temporal correlation between macrophage-derived Galectin-3 and PDGFRβ in fibroblasts from 3 to 56 days post-injury (dpi). Administration of TD139 via intrathecal injection or in situ injection of Lv-shLgals3 effectively mitigated fibrotic scar formation and extracellular matrix deposition within the injured spinal cord, leading to better neurological outcomes and function recovery after SCI. Furthermore, the fibrosis-inducing effects of exogenous PDGFD in the uninjured spinal cord could be blocked by TD139. In vitro experiments further demonstrated the ability of PDGFRβ⁺ fibroblasts to internalize Galectin-3, with Galectin-3 inhibition resulting in reduced PDGFRβ expression.

Conclusions: Our finding underscores the pivotal role of macrophage-derived Galectin-3 in modulating the sustained internalized activation of PDGFRβ within fibroblasts, providing a novel mechanistic insight into fibrotic scarring post-SCI.

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抑制 Galectin-3 可减少小鼠脊髓损伤后的纤维化瘢痕并促进功能恢复。

背景：在脊髓损伤（SCI）的情况下，浸润巨噬细胞作为病变核心内的主要炎症细胞占据突出地位，而病变核心内的纤维化瘢痕主要由血小板衍生生长因子受体β（PDGFRβ+）成纤维细胞协调形成。Galectin-3是凝集素家族的一种碳水化合物结合蛋白，主要由浸润的血源性巨噬细胞表达，并介导细胞与细胞之间的相互作用。虽然已证明 Galectin-3 在体外有助于 PDGFRβ 的内吞内化，但其在 SCI 后纤维化瘢痕形成中的具体作用尚未确定：方法：我们采用了挤压中胸（T10）SCI 小鼠模型。方法：我们采用了挤压中胸（T10）SCI 小鼠模型，通过鞘内注射 Galectin-3 抑制剂 TD139 或原位注射携带 Galectin-3-shRNA 的慢病毒（Lv-shLgals3）在 SCI 后抑制 Galectin-3。通过向未损伤的脊髓原位注射血小板衍生生长因子 D（PDGFD）或重组 Galectin-3（rGalectin-3），建立了纤维化诱导的小鼠模型。在体外条件培养基中共同培养的 PDGFRβ+ 成纤维细胞中进行了 Galectin-3 内化实验：结果：我们确定了损伤后 3 至 56 天（dpi）成纤维细胞中巨噬细胞衍生的 Galectin-3 和 PDGFRβ 之间的空间和时间相关性。通过鞘内注射或原位注射 Lv-shLgals3 给药 TD139 可有效缓解损伤脊髓内纤维化瘢痕的形成和细胞外基质的沉积，从而改善损伤后的神经功能和功能恢复。此外，TD139 还能阻断外源性 PDGFD 在未损伤脊髓中的纤维化诱导效应。体外实验进一步证明了PDGFRβ+成纤维细胞内化Galectin-3的能力，抑制Galectin-3可减少PDGFRβ的表达：我们的发现强调了巨噬细胞衍生的 Galectin-3 在调节成纤维细胞内 PDGFRβ 的持续内化活化过程中的关键作用，这为从新的机理角度了解 SCI 后的纤维化瘢痕提供了新的视角。

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

Cell and Bioscience BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

10.70

自引率

0.00%

发文量

187

审稿时长

>12 weeks

期刊介绍： Cell and Bioscience, the official journal of the Society of Chinese Bioscientists in America, is an open access, peer-reviewed journal that encompasses all areas of life science research.