Metabolic labeling kinetics of brain-derived 24S-hydroxycholesterol in blood in multiple sclerosis: Effects of treatment with the remyelinating antibody rHIgM22.

IF 2.5 Q2 CLINICAL NEUROLOGY

Multiple Sclerosis Journal - Experimental, Translational and Clinical Pub Date : 2025-05-30 eCollection Date: 2025-04-01 DOI:10.1177/20552173251344555

Mahalakshmi Shankaran, Kelvin W Li, Hussein A Mohammed, Joan Protasio, Mark Fitch, Marcy Matthews, Edna Nyangau, Gordon Smith, Samuel Klein, Andrew Eisen, Scott Turner, Marc K Hellerstein

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Abstract

Background: Cholesterol is an essential and major component of myelin. Brain cholesterol turnover in humans can be studied noninvasively by metabolic labeling of the brain-specific cholesterol metabolite, 24S-hydroxycholesterol (24-OHC), which is released into blood.

Objectives: We examined the effects on brain cholesterol turnover in healthy individuals and in multiple sclerosis (MS) following treatment with placebo or the remyelinating monoclonal antibody, rHIgM22, which binds to oligodendrocytes and myelin.

Methods: In vivo synthesis rates of brain cholesterol were measured by label incorporation and die-away of 24-OHC sampled from blood during and after heavy water (D₂O) intake in age- and sex-matched non-MS and clinically stable relapsing-remitting MS subjects.

Results: Incorporation and die-away of labeled 24-OHC revealed biphasic kinetics, with two kinetically distinct pools of brain cholesterol: a large, slow turnover pool and a smaller, metabolically more active pool of newly synthesized cholesterol. The latter showed significantly higher turnover rates in MS compared to non-MS subjects, which was significantly reduced in patients with MS treated with rHIgM22.

Conclusions: Plasma 24-OHC kinetics provide a minimally invasive biomarker of brain cholesterol metabolism and revealed differences between healthy and clinically stable MS subjects, with increased turnover of the metabolically active 24-OHC pool that normalized in response to rHIgM22 therapy.

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多发性硬化症患者血液中脑源性24s -羟基胆固醇的代谢标记动力学：再髓鞘抗体rHIgM22治疗的效果

背景：胆固醇是髓磷脂必不可少的主要成分。通过对释放到血液中的脑特异性胆固醇代谢物24s -羟基胆固醇（24-OHC）进行代谢标记，可以无创地研究人类脑胆固醇的转换。目的：我们研究了使用安慰剂或与少突胶质细胞和髓磷脂结合的髓鞘再生成单克隆抗体rHIgM22对健康个体和多发性硬化症（MS）患者脑胆固醇转换的影响。方法：在年龄和性别匹配的非多发性硬化症和临床稳定的复发-缓解型多发性硬化症受试者中，通过标记掺入和从血液中采集的24-羟色胺含量测定脑胆固醇的体内合成率。结果：标记的24-羟色胺的掺入和消失显示出双相动力学，有两个动力学上不同的脑胆固醇池：一个大的、缓慢的周转池和一个小的、代谢更活跃的新合成胆固醇池。与非MS受试者相比，后者在MS患者中显示出明显更高的周转率，而在接受rHIgM22治疗的MS患者中，这一比率显著降低。结论：血浆24-OHC动力学提供了脑胆固醇代谢的微创生物标志物，并揭示了健康和临床稳定的MS受试者之间的差异，代谢活性24-OHC池的周转率增加，在rHIgM22治疗后正常化。

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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