Laboratory for Translational and Molecular Imaging, Cancer and Stem Cell Biology Programme, Duke-NUS Medical School, 8 College Road, Singapore, 169857, Singapore.
Department of Infectious Diseases, Singapore General Hospital, 20 College Road, Singapore, 169856, Singapore.
Eur J Nucl Med Mol Imaging. 2023 Feb;50(3):742-755. doi: 10.1007/s00259-022-06019-w. Epub 2022 Nov 9.
Zika virus (ZIKV) is a neurotropic human pathogen that causes neuroinflammation, whose hallmark is elevated translocator protein (TSPO) expression in the brain. This study investigates ZIKV-associated changes in adult brain TSPO expression, evaluates the effectiveness of TSPO radioligands in detecting TSPO expression, and identifies cells that drive brain TSPO expression in a mouse infection model.
The interferon-deficient AG129 mouse infected with ZIKV was used as neuroinflammation model. TSPO expression was evaluated by tissue immunostaining. TSPO radioligands, [H]PK11195 and [F]FEPPA, were used for in vitro and ex vivo detection of TSPO in infected brains. [F]FEPPA-PET was used for in vivo detection of TSPO expression. Cell subsets that contribute to TSPO expression were identified by flow cytometry.
Brain TSPO expression increased with ZIKV disease severity. This increase was contributed by TSPO-positive microglia and infiltrating monocytes; and by influx of TSPO-expressing immune cells into the brain. [H]PK11195 and [F]FEPPA distinguish ZIKV-infected brains from normal controls in vitro and ex vivo. [F]FEPPA brain uptake by PET imaging correlated with disease severity and neuroinflammation. However, TSPO expression by immune cells contributed to significant blood pool [F]FEPPA activity which could confound [F]FEPPA-PET imaging results.
TSPO is a biologically relevant imaging target for ZIKV neuroinflammation. Brain [F]FEPPA uptake can be a surrogate marker for ZIKV disease and may be a potential PET imaging marker for ZIKV-induced neuroinflammation. Future TSPO-PET/SPECT studies on viral neuroinflammation and related encephalitis should assess the contribution of immune cells on TSPO expression and employ appropriate image correction methods to subtract blood pool activity.
寨卡病毒(ZIKV)是一种神经嗜性的人类病原体,可引起神经炎症,其特征是大脑中转录因子蛋白 18 kDa(TSPO)表达升高。本研究调查了 ZIKV 感染后成年大脑 TSPO 表达的变化,评估了 TSPO 放射性配体检测 TSPO 表达的有效性,并确定了在小鼠感染模型中驱动大脑 TSPO 表达的细胞。
使用干扰素缺陷型 AG129 小鼠感染 ZIKV 作为神经炎症模型。通过组织免疫染色评估 TSPO 表达。使用 [H]PK11195 和 [F]FEPPA 这两种 TSPO 放射性配体,分别进行体外和脑内检测感染大脑中的 TSPO。使用 [F]FEPPA-PET 进行体内检测 TSPO 表达。通过流式细胞术鉴定对 TSPO 表达有贡献的细胞亚群。
随着 ZIKV 疾病严重程度的增加,大脑 TSPO 表达增加。这种增加是由 TSPO 阳性小胶质细胞和浸润的单核细胞以及 TSPO 表达的免疫细胞流入大脑引起的。[H]PK11195 和 [F]FEPPA 可在体外和脑外区分 ZIKV 感染的大脑与正常对照。[F]FEPPA 通过 PET 成像的脑摄取与疾病严重程度和神经炎症相关。然而,免疫细胞的 TSPO 表达导致了显著的血池 [F]FEPPA 活性,这可能会混淆 [F]FEPPA-PET 成像结果。
TSPO 是 ZIKV 神经炎症的一个有生物学意义的成像靶点。脑 [F]FEPPA 摄取可以作为 ZIKV 疾病的替代标志物,并且可能是 ZIKV 诱导的神经炎症的潜在 PET 成像标志物。未来关于病毒神经炎症和相关脑炎的 TSPO-PET/SPECT 研究应评估免疫细胞对 TSPO 表达的贡献,并采用适当的图像校正方法减去血池活性。
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