血红素加氧酶-1对Bach1基因缺陷小鼠脊髓损伤后继发性损伤过程的调节作用

Modulation of the secondary injury process after spinal cord injury in Bach1-deficient mice by heme oxygenase-1.

作者信息

Yamada Kiyotaka, Tanaka Nobuhiro, Nakanishi Kazuyoshi, Kamei Naosuke, Ishikawa Masakazu, Mizuno Toshiyuki, Igarashi Kazuhiro, Ochi Mitsuo

机构信息

Department of Orthopaedic Surgery, Graduate School of Biomedical Science, Hiroshima University, Hiroshima, Japan.

出版信息

J Neurosurg Spine. 2008 Dec;9(6):611-20. doi: 10.3171/SPI.2008.10.08488.

DOI:10.3171/SPI.2008.10.08488

PMID:19035757

Abstract

OBJECT

Oxidative stress contributes to secondary injury after spinal cord injury (SCI). The expression of heme oxygenase-1 (HO-1), which protects cells from various insults including oxidative stress, is upregulated in injured spinal cords. Mice deficient in Bach1 (Bach1-/-), a transcriptional repressor of the HO-1 and beta-globin genes, express high levels of HO-1 mRNA and protein in various organs. The authors hypothesized that HO-1 modulates the secondary injury process after SCI in Bach1(-/-) mice.

METHODS

Male C57BL/6 (wild-type) and homozygous Bach1(-/-) C57BL/6 mice were subjected to moderate SCI, and differences in hindlimb motor function, and electrophysiological, molecular biological, and histopathological changes were assessed for 2 weeks.

RESULTS

Functional recovery was greater, and motor evoked potentials were significantly larger in Bach1(-/-) mice than in wild-type mice throughout the observation period. The expression of HO-1 mRNA in the spinal cord was significantly increased in both mice until 3 days after injury, and it was significantly higher in Bach1(-/-) mice than in wild-type mice at every assessment point. Histological examination using Luxol fast blue staining at 1 day after injury showed that the injured areas were smaller in Bach1(-/-) mice than in wild-type mice. The HO-1 immunoreactivity was not detected in uninjured spinal cord, but 3 days postinjury the number of HO-1-immunoreactive cells was obviously higher in the injured area in both mice, particularly in Bach1(-/-) mice. The HO-1 was primarily induced in microglia/macrophage in both mice.

CONCLUSIONS

These results suggest that HO-1 modulates the secondary injury process, and high HO-1 expression may preserve spinal cord function in the early stages after SCI in Bach1(-/-) mice. Treatment that induces HO-1 expression at these early stages may preserve the functional outcome after SCI.

摘要

目的

氧化应激会导致脊髓损伤（SCI）后的继发性损伤。血红素加氧酶-1（HO-1）可保护细胞免受包括氧化应激在内的各种损伤，其在损伤脊髓中的表达上调。缺乏Bach1（Bach1-/-）的小鼠，Bach1是HO-1和β-珠蛋白基因的转录抑制因子，在各种器官中表达高水平的HO-1 mRNA和蛋白。作者推测HO-1可调节Bach1(-/-)小鼠SCI后的继发性损伤过程。

方法

雄性C57BL/6（野生型）和纯合Bach1(-/-) C57BL/6小鼠接受中度SCI，评估后肢运动功能、电生理、分子生物学和组织病理学变化，观察2周。

结果

在整个观察期内，Bach1(-/-)小鼠的功能恢复更好，运动诱发电位明显大于野生型小鼠。直到损伤后3天，两种小鼠脊髓中HO-1 mRNA的表达均显著增加，且在每个评估点，Bach1(-/-)小鼠中的表达均显著高于野生型小鼠。损伤后1天使用卢戈氏碘蓝染色进行组织学检查显示，Bach1(-/-)小鼠的损伤区域比野生型小鼠小。在未损伤的脊髓中未检测到HO-1免疫反应性，但损伤后3天，两种小鼠损伤区域中HO-1免疫反应性细胞的数量明显更高，尤其是在Bach1(-/-)小鼠中。HO-1主要在两种小鼠的小胶质细胞/巨噬细胞中诱导产生。

结论

这些结果表明HO-1可调节继发性损伤过程，高HO-1表达可能在Bach1(-/-)小鼠SCI后的早期阶段保留脊髓功能。在这些早期阶段诱导HO-1表达的治疗可能会保留SCI后的功能结果。

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血红素加氧酶-1对Bach1基因缺陷小鼠脊髓损伤后继发性损伤过程的调节作用

Modulation of the secondary injury process after spinal cord injury in Bach1-deficient mice by heme oxygenase-1.

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