Paired longitudinal tear proteomics reveals persistent ocular surface dysregulation after teprotumumab therapy in thyroid eye disease
摘要
Thyroid eye disease (TED) is a complex autoimmune disorder that is frequently disfiguring and sight-threatening. Recent advances have shifted treatment from surgery toward targeted biologic therapies like teprotumumab (TMB), an IGF-1R inhibitor that improves proptosis, diplopia, and inflammation. However, ocular surface symptoms often persist.
MethodsWe conducted a longitudinal pre-post comparative study of patients with active, moderate-to-severe TED treated with TMB at a tertiary academic medical center, with tear sampling at two prespecified time points: baseline (collected within the 3 weeks strictly antecedent to the first infusion) and post-treatment (within 6 months of the final infusion). Adults with active, moderate-to-severe TED who received ≥4 TMB infusions were eligible. All patients contributed paired pre- and post-treatment tear samples (22 eyes). Controls were adults without TED or ocular surface disease (32 eyes). Tear fluid was collected by Schirmer strips and analyzed by liquid chromatography-tandem mass spectrometry. Differential expression was assessed using a linear mixed-effects model to explicitly account for the intrinsic correlation between paired eyes; correlations between LFQ intensities and clinical metrics used Spearman rank correlation.
ResultsA total of 2974 proteins were identified across 76 tear samples. Unsupervised analyses demonstrated separation between control, pre-treatment, and post-treatment TED tear proteomes. Although TMB induced substantial proteomic changes, post-treatment profiles did not revert to a control-like state. Proteins involved in inflammation, oxidative stress, and cytoskeletal organization remained persistently dysregulated, while a subset of tear film stability–associated proteins normalized. Several persistently dysregulated protein targets overlapped with FDA-approved drugs.
ConclusionsThese observational findings support tear proteomics as a platform for biomarker discovery and therapeutic prioritization and warrant validation in larger, independent cohorts.