Neurofilament proteins as a potential biomarker in chemotherapy-induced polyneuropathy
Petra Huehnchen, … , Matthias Endres, Wolfgang Boehmerle
Petra Huehnchen, … , Matthias Endres, Wolfgang Boehmerle
Published February 8, 2022
Citation Information: JCI Insight. 2022;7(6):e154395. https://doi.org/10.1172/jci.insight.154395.
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Clinical Research and Public Health Neuroscience

Neurofilament proteins as a potential biomarker in chemotherapy-induced polyneuropathy

Abstract

BACKGROUND Paclitaxel chemotherapy frequently induces dose-limiting sensory axonal polyneuropathy. Given that sensory symptoms are challenging to assess objectively in clinical practice, an easily accessible biomarker for chemotherapy-induced polyneuropathy (CIPN) holds the potential to improve early diagnosis. Here, we describe neurofilament light chain (NFL), a marker for neuroaxonal damage, as a translational surrogate marker for CIPN.METHODS NFL concentrations were measured in an in vitro model of CIPN, exposing induced pluripotent stem cell–derived sensory neurons (iPSC-DSNs) to paclitaxel. Patients with breast or ovarian cancer undergoing paclitaxel chemotherapy, breast cancer control patients without chemotherapy, and healthy controls were recruited in a cohort study and examined before chemotherapy (V1) and after 28 weeks (V2, after chemotherapy). CIPN was assessed by the validated Total Neuropathy Score reduced (TNSr), which combines patient-reported symptoms with data from clinical examinations. Serum NFL (NFLs) concentrations were measured at both visits with single-molecule array technology.RESULTS NFL was released from iPSC-DSNs upon paclitaxel incubation in a dose- and time-dependent manner and was inversely correlated with iPSC-DSN viability. NFLs strongly increased in paclitaxel-treated patients with CIPN, but not in patients receiving chemotherapy without CIPN or controls, resulting in an 86% sensitivity and 87% specificity. An NFLs increase of +36 pg/mL from baseline was associated with a predicted CIPN probability of more than 0.5.CONCLUSION NFLs was correlated with CIPN development and severity, which may guide neurotoxic chemotherapy in the future.TRIAL REGISTRATION ClinicalTrials.gov NCT02753036.FUNDING Deutsche Forschungsgemeinschaft (EXC 257 NeuroCure), BMBF (Center for Stroke Research Berlin, 01 EO 0801), Animalfree Research, EU Horizon 2020 Innovative Medicines Initiative 2 Joint Undertaking (TransBioLine, 821283), Charité 3R — Replace — Reduce — Refine.

Authors

Petra Huehnchen, Christian Schinke, Nikola Bangemann, Adam D. Dordevic, Johannes Kern, Smilla K. Maierhof, Lois Hew, Luca Nolte, Peter Körtvelyessy, Jens C. Göpfert, Klemens Ruprecht, Christopher J. Somps, Jens-Uwe Blohmer, Jalid Sehouli, Matthias Endres, Wolfgang Boehmerle

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Figure 1

Neurofilament proteins and viability in human iPSC-DSNs treated with paclitaxel.

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Neurofilament proteins and viability in human iPSC-DSNs treated with pac...
(A) Human induced pluripotent stem cell–derived sensory neurons (hiPSC-DSNs) express cytoskeleton protein mRNA. (B and C) Immunocytochemistry of the cytoskeleton proteins peripherin, NFL, and phosphorylated NF heavy chain (pNFH) indicate colocalization of peripherin with NFL and NFL with pNFH (scale bar: 25 μm). (D and E) In comparison to vehicle (DMSO), treatment with paclitaxel at 1 μM for 72 hours led to axonal blebbing (E, vertical arrow) in living cells and apoptosis (E, horizontal arrow) (scale bar: 50 μm) (see also Supplemental Figure 2). (FH) A time- and dose-dependent decrease in hiPSC-DSN viability (mean with 95% CI) and a corresponding increase of NFL in the supernatant (mean ± SD) was observed upon paclitaxel incubation. (I) Human iPSC-DSN viability and NFL concentrations in the supernatant correlated inversely in response to 72-hour paclitaxel incubation. (J and K) Axonal NFL expression diminished and concentrated in cytoskeletal debris in response to paclitaxel treatment compared with vehicle-treated hiPSC-DSN (scale bar: 50 μm). Statistical analysis: (FH, left column) nonlinear regression (log-inhibitor vs. response, 3 parameters) of data from n = 9 independent experiments; (FH, right column) Kruskal-Wallis test of data from n = 9 independent experiments; (I) Pearson’s correlation from n = 9 independent experiments of 24- to 72-hour paclitaxel-treated neurons (for details, refer to Supplemental Methods). *P < 0.05.