Clemastine Induces Oligodendrocyte Progenitor Pool Exhaustion and Senescence in the Context of Chronic Demyelination in a Rabbit Model.

IF 8.1 1区 医学 Q1 CLINICAL NEUROLOGY
James J M Cooper, Rupadevi Muthaiah, Jon R Frost, Gregory T Buck, Roopa Ravichandar, Farah Gadelkarim, Faye D Raymond, Fraser J Sim
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Abstract

Objectives: Clemastine has emerged as a promising therapy for the restoration of neurologic function in patients with multiple sclerosis (MS). However, clemastine and other agents with prodifferentiative effects on oligodendrocyte progenitor cells (OPCs) in rodent models have underperformed in clinical trials. We hypothesized that the preclinical studies showed more robust effects because of the abundance of OPCs in rodent models. To better examine the therapeutic potential of clemastine, we examined its effect on demyelinated white matter lesions in rabbits, which exhibit progenitor densities and limited remyelination more closely matching those found in tissues from patients with MS.

Methods: We used lysolecithin to induce demyelination in white matter of New Zealand rabbits and then administered oral clemastine (10mg/kg/day) for various periods before assessing the OPC and oligodendrocyte (OL) populations in these lesions.

Results: Daily administration of clemastine for the full study period (56 days) increased oligodendrogenesis in white matter lesions. However, shorter durations of treatment failed to increase overall OL density despite enhancing OPC-to-OL differentiation. This effect was due to exhaustion of the OPC pool, as the differentiating progenitors were not replaced because of reduced OPC proliferation. Notably, delayed administration of clemastine led to an accumulation of activated OPCs expressing markers of senescence.

Interpretation: Although capable of driving OL differentiation, clemastine treatment in rabbits hampered progenitor pool replenishment, induced senescence, and promoted conversion of microglia/macrophages to a proinflammatory phenotype. Whether these effects would also occur in humans or with other prodifferentiative therapies should be studied further, but our data suggest the need to carefully consider progenitor dynamics in the treatment of MS. ANN NEUROL 2024.

氯马斯汀诱导兔模型中慢性脱髓鞘背景下的少突胶质细胞祖细胞池耗竭和衰老
目的:氯马斯汀已成为恢复多发性硬化症(MS)患者神经功能的一种有前途的疗法。然而,在啮齿类动物模型中,氯马斯汀和其他对少突胶质祖细胞(OPC)具有促分化作用的药物在临床试验中表现不佳。我们假设,由于啮齿类动物模型中存在大量 OPCs,因此临床前研究显示出了更强大的效果。为了更好地研究氯马斯汀的治疗潜力,我们研究了它对兔子脱髓鞘白质病变的影响,这些病变表现出的祖细胞密度和有限的再髓鞘化更接近多发性硬化症患者组织中发现的情况:我们使用溶血卵磷脂诱导新西兰兔白质脱髓鞘,然后在不同时期口服氯马斯汀(10 毫克/千克/天),然后评估这些病变中的 OPC 和少突胶质细胞(OL)数量:结果:在整个研究期间(56 天)每天服用氯马斯汀可增加白质病变中的少突胶质细胞数量。然而,较短的治疗时间虽然能增强OPC到OL的分化,但却不能增加OL的整体密度。这种效应是由于OPC池耗竭所致,因为OPC增殖减少导致分化祖细胞无法替代。值得注意的是,延迟服用氯马斯汀会导致表达衰老标记的活化 OPC 累积:兔子体内的氯马斯汀虽然能驱动OL分化,但它阻碍了祖细胞池的补充,诱导了衰老,并促进了小胶质细胞/巨噬细胞向促炎表型的转化。这些影响是否也会发生在人类身上或其他促分化治疗中,还有待进一步研究,但我们的数据表明,在治疗多发性硬化症时需要仔细考虑祖细胞的动态变化。ann neurol 2024.
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来源期刊
Annals of Neurology
Annals of Neurology 医学-临床神经学
CiteScore
18.00
自引率
1.80%
发文量
270
审稿时长
3-8 weeks
期刊介绍: Annals of Neurology publishes original articles with potential for high impact in understanding the pathogenesis, clinical and laboratory features, diagnosis, treatment, outcomes and science underlying diseases of the human nervous system. Articles should ideally be of broad interest to the academic neurological community rather than solely to subspecialists in a particular field. Studies involving experimental model system, including those in cell and organ cultures and animals, of direct translational relevance to the understanding of neurological disease are also encouraged.
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