Presenilin 1 hemizygosity has no overt deleterious phenotypic outcomes in sheep: Potential implications for therapeutic targets in Alzheimer's disease

IF 3.7 3区医学 Q2 GERIATRICS & GERONTOLOGY

Neurobiology of Aging Pub Date : 2025-04-25 DOI:10.1016/j.neurobiolaging.2025.04.006

Natasha E. Mckean , Jun Liu , Skye R. Rudiger , Jennifer M. Kelly , Clive McLaughlan , Paul J. Verma , John Hardy , James F. Gusella , Henrik Zetterberg , Suzanne J. Reid , Renee H. Handley , Klaus Lehnert , Greg T. Sutherland , Amanda Heslegrave , Elena Veleva , Rhiannon Laban , John F. Pearson , Simon C. Bawden , Russell G. Snell

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引用次数: 0

Abstract

Alzheimer’s disease (AD) is a neurodegenerative condition and one of the most significant medical challenges today. Dominant mutations causing early-onset AD have been identified in the presenilin 1 and 2 (PSEN1 and PSEN2), and the amyloid precursor protein (APP) genes. Either PSEN1 or PSEN2 is required by γ-secretase, a functional complex that cleaves APP to produce amyloid-beta (Aβ) peptides of varying lengths. These mutations result in relative or absolute increases in the longer Aβ peptides (Aβ_1–40, Aβ _1–42), which accumulate as plaques, characteristic of both early and late-onset AD. To investigate the effects of modulating PSEN1 expression, we have produced PSEN1 hemizygous sheep. Sheep PSEN and APP genes are highly conserved relative to humans, including the APP proteolytic cleavage sites, and like humans, sheep naturally develop plaques and TAU tangles with age. At five years of age, the PSEN1 hemizygous animals are phenotypically and biochemically normal. Interestingly, the characteristic Aβ peptide levels in their cerebrospinal fluid and plasma remain at wildtype levels, indicating that a 50 % reduction in PSEN1 abundance does not materially affect γ-secretase’s APP cleavage activity. These results suggest that generalized regulation of PSEN1 expression is unlikely to be an effective therapeutic approach for AD on its own. However, it does suggest that loss of one PSEN1 allele may be tolerated in higher organisms, with no deleterious side-effects. It is therefore possible that knocking-out or knocking-down one copy of PSEN1 via genetic modification will be tolerated in humans, especially as functional hemizygous humans are present in the population (gnomad). These kinds of therapies could potentially prevent AD caused by dominant gain-of-function mutations in PSEN1.

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早老素1半合子性在绵羊中没有明显的有害表型结果：阿尔茨海默病治疗靶点的潜在影响

阿尔茨海默病（AD）是一种神经退行性疾病，也是当今最重大的医学挑战之一。早老素1和2 （PSEN1和PSEN2）以及淀粉样前体蛋白（APP）基因中已经发现了导致早发性AD的显性突变。γ分泌酶是一种切割APP以产生不同长度的淀粉样蛋白- β (a β)肽的功能复合物，它需要PSEN1或PSEN2。这些突变导致较长的Aβ肽（Aβ1 - 40、Aβ 1-42）的相对或绝对增加，并形成斑块，这是早发性和晚发性AD的特征。为了研究调节PSEN1表达的作用，我们培育了PSEN1半合子羊。绵羊的PSEN和APP基因相对于人类是高度保守的，包括APP蛋白水解裂解位点，并且与人类一样，绵羊会随着年龄的增长自然产生斑块和TAU缠结。在5岁时，PSEN1半合子动物的表型和生化正常。有趣的是，它们脑脊液和血浆中的a β肽水平保持在野生型水平，这表明PSEN1丰度降低50% %不会实质性影响γ-分泌酶的APP裂解活性。这些结果表明，PSEN1表达的广泛调节本身不太可能是治疗AD的有效方法。然而，这确实表明PSEN1等位基因的丢失在高等生物中是可以容忍的，没有有害的副作用。因此，通过基因改造敲除或敲除PSEN1的一个拷贝可能在人类中是可容忍的，特别是当群体中存在功能性半合子人类时（侏儒）。这些类型的治疗可能潜在地预防由PSEN1显性功能获得突变引起的AD。

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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来源期刊

Neurobiology of Aging 医学-老年医学

CiteScore

8.40

自引率

2.40%

发文量

225

审稿时长

67 days

期刊介绍： Neurobiology of Aging publishes the results of studies in behavior, biochemistry, cell biology, endocrinology, molecular biology, morphology, neurology, neuropathology, pharmacology, physiology and protein chemistry in which the primary emphasis involves mechanisms of nervous system changes with age or diseases associated with age. Reviews and primary research articles are included, occasionally accompanied by open peer commentary. Letters to the Editor and brief communications are also acceptable. Brief reports of highly time-sensitive material are usually treated as rapid communications in which case editorial review is completed within six weeks and publication scheduled for the next available issue.