Human iPSC-derived pericyte-like cells carrying APP Swedish mutation overproduce beta-amyloid and induce cerebral amyloid angiopathy-like changes.

IF 5.9 1区 医学 Q1 NEUROSCIENCES Fluids and Barriers of the CNS Pub Date : 2024-09-27 DOI:10.1186/s12987-024-00576-y
Ying-Chieh Wu, Šárka Lehtonen, Kalevi Trontti, Riitta Kauppinen, Pinja Kettunen, Ville Leinonen, Markku Laakso, Johanna Kuusisto, Mikko Hiltunen, Iiris Hovatta, Kristine Freude, Hiramani Dhungana, Jari Koistinaho, Taisia Rolova
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Abstract

Background: Patients with Alzheimer's disease (AD) frequently present with cerebral amyloid angiopathy (CAA), characterized by the accumulation of beta-amyloid (Aβ) within the cerebral blood vessels, leading to cerebrovascular dysfunction. Pericytes, which wrap around vascular capillaries, are crucial for regulating cerebral blood flow, angiogenesis, and vessel stability. Despite the known impact of vascular dysfunction on the progression of neurodegenerative diseases, the specific role of pericytes in AD pathology remains to be elucidated.

Methods: To explore this, we generated pericyte-like cells from human induced pluripotent stem cells (iPSCs) harboring the Swedish mutation in the amyloid precursor protein (APPswe) along with cells from healthy controls. We initially verified the expression of classic pericyte markers in these cells. Subsequent functional assessments, including permeability, tube formation, and contraction assays, were conducted to evaluate the functionality of both the APPswe and control cells. Additionally, bulk RNA sequencing was utilized to compare the transcriptional profiles between the two groups.

Results: Our study reveals that iPSC-derived pericyte-like cells (iPLCs) can produce Aβ peptides. Notably, cells with the APPswe mutation secreted Aβ1-42 at levels ten-fold higher than those of control cells. The APPswe iPLCs also demonstrated a reduced ability to support angiogenesis and maintain barrier integrity, exhibited a prolonged contractile response, and produced elevated levels of pro-inflammatory cytokines following inflammatory stimulation. These functional changes in APPswe iPLCs correspond with transcriptional upregulation in genes related to actin cytoskeleton and extracellular matrix organization.

Conclusions: Our findings indicate that the APPswe mutation in iPLCs mimics several aspects of CAA pathology in vitro, suggesting that our iPSC-based vascular cell model could serve as an effective platform for drug discovery aimed to ameliorate vascular dysfunction in AD.

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携带APP瑞典突变的人iPSC衍生的周细胞样细胞过度产生β-淀粉样蛋白并诱发脑淀粉样血管病样改变。
背景:阿尔茨海默病(AD)患者经常出现脑淀粉样血管病变(CAA),其特点是β-淀粉样蛋白(Aβ)在脑血管内积聚,导致脑血管功能障碍。包绕血管毛细血管的周细胞对调节脑血流、血管生成和血管稳定性至关重要。尽管已知血管功能障碍对神经退行性疾病的进展有影响,但周细胞在AD病理学中的具体作用仍有待阐明:为了探讨这一问题,我们从携带瑞典淀粉样前体蛋白(APPswe)突变的人类诱导多能干细胞(iPSCs)和健康对照组细胞中生成了类包膜细胞。我们初步验证了这些细胞中经典周细胞标志物的表达。随后进行了功能评估,包括渗透性、管形成和收缩试验,以评估 APPswe 细胞和对照组细胞的功能。此外,还利用大量 RNA 测序比较了两组细胞的转录情况:我们的研究发现,iPSC衍生的类包膜细胞(iPLCs)能产生Aβ肽。值得注意的是,APPswe突变的细胞分泌Aβ1-42的水平比对照细胞高十倍。APPswe iPLC 还表现出支持血管生成和维持屏障完整性的能力下降,表现出长时间的收缩反应,并在炎症刺激后产生较高水平的促炎细胞因子。APPswe iPLCs的这些功能变化与肌动蛋白细胞骨架和细胞外基质组织相关基因的转录上调相一致:我们的研究结果表明,iPLCs 中的 APPswe 突变在体外模拟了 CAA 病理的多个方面,这表明我们基于 iPSC 的血管细胞模型可以作为一个有效的平台,用于发现旨在改善 AD 血管功能障碍的药物。
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来源期刊
Fluids and Barriers of the CNS
Fluids and Barriers of the CNS Neuroscience-Developmental Neuroscience
CiteScore
10.70
自引率
8.20%
发文量
94
审稿时长
14 weeks
期刊介绍: "Fluids and Barriers of the CNS" is a scholarly open access journal that specializes in the intricate world of the central nervous system's fluids and barriers, which are pivotal for the health and well-being of the human body. This journal is a peer-reviewed platform that welcomes research manuscripts exploring the full spectrum of CNS fluids and barriers, with a particular focus on their roles in both health and disease. At the heart of this journal's interest is the cerebrospinal fluid (CSF), a vital fluid that circulates within the brain and spinal cord, playing a multifaceted role in the normal functioning of the brain and in various neurological conditions. The journal delves into the composition, circulation, and absorption of CSF, as well as its relationship with the parenchymal interstitial fluid and the neurovascular unit at the blood-brain barrier (BBB).
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