Hereditary spastic paraplegia type 56: what a mouse can tell – a narrative review

L. Parodi, C. Pujol
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Abstract

Abstract Hereditary spastic paraplegia type 56 (SPG56-HSP) is a rare autosomal recessive disorder caused by loss of function mutations in CYP2U1, leading to an early-onset limbs spasticity, often complicated by additional neurological or extra-neurological manifestations. Given its low prevalence, the molecular bases underlying SPG56-HSP are still poorly understood, and effective treatment options are still lacking. Recently, through the generation and characterization of the SPG56-HSP mouse model, we were able to take few important steps forward in expanding our knowledge of the molecular background underlying this complex disease. Leveraging the Cyp2u1-/- mouse model we were able to identify several new diagnostics biomarkers (vitamin B2, coenzyme Q, neopterin, and interferon-alpha), as well as to highlight the key role played by the folate pathway in SPG56-HSP pathogenesis, providing a potential treatment option. In this review, we discuss the major role played by the Cyp2u1-/- model in dissecting clinical and biological aspects of the disease, opening the way to a series of new research paths ranging from clinical trials, biomarker testing, and to the expansion of the underlying genetic and molecular, emphasizing how basic mouse model characterization could contribute to advance research in the context of rare disorders.
遗传性痉挛性截瘫56型:老鼠能告诉什么-叙述回顾
遗传性痉挛性截瘫56型(SPG56-HSP)是一种罕见的常染色体隐性遗传病,由CYP2U1基因功能突变缺失引起,可导致早发性肢体痉挛,常伴有额外的神经系统或神经系统外表现。鉴于其低患病率,SPG56-HSP的分子基础仍然知之甚少,并且仍然缺乏有效的治疗方案。最近,通过SPG56-HSP小鼠模型的生成和表征,我们能够在扩大我们对这种复杂疾病的分子背景的认识方面取得一些重要的进展。利用Cyp2u1-/-小鼠模型,我们能够确定几个新的诊断生物标志物(维生素B2,辅酶Q, neopterin和干扰素- α),并强调叶酸途径在SPG56-HSP发病机制中发挥的关键作用,提供潜在的治疗选择。在这篇综述中,我们讨论了Cyp2u1-/-模型在剖析该疾病的临床和生物学方面所起的主要作用,为一系列新的研究途径开辟了道路,从临床试验、生物标志物检测到潜在的遗传和分子的扩展,强调了基本的小鼠模型表征如何有助于在罕见疾病的背景下推进研究。
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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