Lanz Thomas A, Ruprecht Klemens, Somps Christopher J, Göpfert Jens C, Kam-Thong Tony, Tekle Fetene, Fader Kelly A, Yañez Viviana A Carcamo, Meyer Volker, Friedrich Sabine, Vlasakova Katerina, Otto Carolin, Paciga Sara A, Samodelov Sophia L, Ramaiah Shashi K
Pfizer Inc., Drug Safety R&D, Groton, CT, USA.
Department of Neurology, Heidelberg University Hospital, Heidelberg, Germany.
J Neurol. 2025 Jul 15;272(8):512. doi: 10.1007/s00415-025-13246-2.
Neurofilament light (NfL) is a neuron-specific protein integral to neuronal cytoskeletons. Upon damage to the central or peripheral nervous system (NS), NfL is released into cerebrospinal fluid and blood. Elevated serum or plasma NfL levels have been reported in a variety of diseases and NS injury states. However, although intraindividual longitudinal NfL changes may be more meaningful than NfL measurements at a single timepoint, data on the longitudinal variation of NfL in normal healthy volunteers (NHV) are scarce. We investigated normal variation in NHV serum NfL and estimate an upper limit of normal (ULN) of NfL variation in longitudinal samples. An initial cross-sectional screening in sera from 270 NHV using a 4-plex assay detected NfL in 99.6% and glial fibrillary acidic protein (GFAP) in 100%, while Tau (67.4%), and Ubiquitin Carboxyl-Terminal Hydrolase L1 (UCH-L1, 4.1%) were less frequently detectable. An age-dependent increase was found in NfL (2.36% per year) and GFAP (1.18% per year). Longitudinal evaluation of NfL was then conducted in a separate cohort of 80 NHV at baseline, day 14 (range 11-17), and day 28 (range 26-56). A 1.64-fold increase from baseline in serum NfL was calculated as the ULN. Putting this threshold into context with published reports on NfL across a large variety of injury and disease settings, the 1.64-fold threshold is well positioned to discriminate between healthy and NS injury. Altogether, these findings provide a framework for longitudinal monitoring of serum NfL as a biomarker for neuronal damage in multiple contexts of use, including drug-induced injury.
神经丝轻链(NfL)是一种神经元特异性蛋白质,是神经元细胞骨架不可或缺的一部分。当中枢或外周神经系统(NS)受损时,NfL会释放到脑脊液和血液中。在多种疾病和NS损伤状态下,血清或血浆NfL水平都会升高。然而,尽管个体内NfL的纵向变化可能比单次时间点的NfL测量更有意义,但关于正常健康志愿者(NHV)中NfL纵向变化的数据却很少。我们研究了NHV血清NfL的正常变化,并估计了纵向样本中NfL变化的正常上限(ULN)。使用四联检测法对270名NHV的血清进行初步横断面筛查,结果显示99.6%的样本检测到NfL,100%的样本检测到胶质纤维酸性蛋白(GFAP),而Tau(67.4%)和泛素羧基末端水解酶L1(UCH-L1,4.1%)的检测频率较低。发现NfL(每年增加2.36%)和GFAP(每年增加1.18%)与年龄有关。然后,在另一组80名NHV中进行了NfL的纵向评估,分别在基线、第14天(范围11 - 17天)和第28天(范围26 - 56天)进行检测。血清NfL较基线升高1.64倍被计算为ULN。结合大量关于各种损伤和疾病情况下NfL的已发表报告来看,这个1.64倍的阈值能够很好地区分健康状态和NS损伤。总之,这些发现为纵向监测血清NfL作为多种应用场景(包括药物诱导损伤)中神经元损伤的生物标志物提供了一个框架。
