核黄素（维生素B2）积累调节典型脑发育和脑性瘫痪中的神经元细胞内稳态。

Riboflavin (Vitamin B2) Accumulation Modulates Neuronal Cellular Homeostasis in Typical Brain Development and Cerebral Palsy.

作者信息

Silva-Araújo Eulália Rebeca, Padrón-Hernández Eduardo, Toscano Ana Elisa, Dos Santos Júnior Osmar Henrique, Dos Santos Júnior Joaci Pereira, Gouveia Henrique José Cavalcanti Bezerra, de Carvalho Adriana Soares, de Melo Janaína Viana, Mattos-Júnior Luiz Alberto Reis, Manhães-de-Castro Raul

机构信息

Graduate Program in Neuropsychiatry and Behavioral Sciences, Center for Medical Sciences, Federal University of Pernambuco, Recife, Pernambuco, 50670-901, Brazil.

Studies in Nutrition and Phenotypic Plasticity Unit, Center for Health Sciences, Federal University of Pernambuco, Recife, Pernambuco, 50670-420, Brazil.

出版信息

Neurochem Res. 2025 Sep 12;50(5):301. doi: 10.1007/s11064-025-04552-2.

DOI:10.1007/s11064-025-04552-2

PMID:40938477

Abstract

The developing brain requires high energy demands and metabolic efforts to regulate oxidative stress and myelination. Early insults cause mitochondrial dysfunction and compromise these pathways, potentially leading to cerebral palsy (CP), a severe and incurable neurological disorder that begins in childhood. Through a rodent preclinical study, we demonstrated that vitamin B2 (riboflavin), administered at a high dose (100 mg/kg), is accumulated in healthy (B2C) or paralytic (B2CP) brains and participates in neurodevelopment. Redox homeostasis was maintained in B2C through decreased malondialdehyde and carbonyls and increased glutathione-S-transferase activity. In B2CP rodents, there was a reduction in carbonyls and increased superoxide dismutase activity. Mitochondrial morphometric analysis suggests that riboflavin treatment increases biogenesis in controls and reduces mitochondrial deformation in CP. Ultrastructural analysis revealed increased myelin sheath thickness in B2C. Additionally, myelin figure formation and mitochondrial and axonal disintegration in CP were reduced by B2. Our evidence supports vitamin B2 accumulation as a beneficial mechanism to support energy homeostasis and mitochondrial demands that occur during typical neurodevelopment or in the face of CP.

摘要

发育中的大脑需要高能量需求和代谢努力来调节氧化应激和髓鞘形成。早期损伤会导致线粒体功能障碍并损害这些途径，可能导致脑性瘫痪（CP），这是一种始于儿童期的严重且无法治愈的神经疾病。通过一项啮齿动物临床前研究，我们证明，高剂量（100毫克/千克）给予的维生素B2（核黄素）会在健康（B2C）或瘫痪（B2CP）大脑中蓄积，并参与神经发育。通过降低丙二醛和羰基含量以及增加谷胱甘肽-S-转移酶活性，B2C中的氧化还原稳态得以维持。在B2CP啮齿动物中，羰基含量降低，超氧化物歧化酶活性增加。线粒体形态计量分析表明，核黄素治疗可增加对照组中的生物合成，并减少CP中的线粒体变形。超微结构分析显示B2C中髓鞘厚度增加。此外，B2减少了CP中的髓鞘样结构形成以及线粒体和轴突解体。我们的证据支持维生素B2蓄积是一种有益机制，可支持典型神经发育过程中或面对CP时出现的能量稳态和线粒体需求。

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核黄素（维生素B2）积累调节典型脑发育和脑性瘫痪中的神经元细胞内稳态。

Riboflavin (Vitamin B2) Accumulation Modulates Neuronal Cellular Homeostasis in Typical Brain Development and Cerebral Palsy.

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