Translational insights into Long-COVID: evaluation of preclinical animal models along the lung-brain-immune axis with focus on Golden Syrian Hamsters
摘要
Long-COVID, also referred to as post-acute sequelae of COVID-19 (PASC), is a heterogeneous disorder encompassing more than 200 reported symptoms that commonly affect the respiratory and nervous systems. Emerging clinical evidence indicates that unresolved lung inflammation, vascular injury, and immune dysregulation drive sustained neuroinflammation and impaired neurocognitive function in Long-COVID patients. Given the ethical and logistical constraints of human studies, biologically relevant animal models are essential for understanding the mechanisms and for evaluating therapeutic strategies against Long-COVID. In this review, we synthesize current evidence from preclinical animal models of Long-COVID, with a particular emphasis on the Golden Syrian Hamsters. Golden Syrian Hamsters are naturally susceptible to SARS-CoV-2 infection without the need for genetic modification and recapitulate key features of human disease, including robust viral replication, pulmonary pathology, and inflammatory response during acute infection. Importantly, accumulating evidence demonstrates that Golden Syrian Hamsters develop persistent post-acute abnormalities along the lung–brain-immune axis, including impaired alveolar repair, fibrotic lung remodeling, neuroinflammation, viral or antigen persistence, and behavioral alterations that parallel core features of Long-COVID. We compare the strengths and limitations of Golden Syrian Hamsters with other commonly used pre-clinical animal models including mice, and non-human primates, highlighting differences in translational relevance, feasibility, and ability to model chronic lung-brain-immune axis dysfunction. While there are limitations, particularly regarding limited availability of immunological reagents and validated cognitive and behavioral assays, the Golden Syrian Hamsters offers a balanced and accessible platform for mechanistic studies of PASC. Overall, this review positions Golden Syrian Hamster as a robust translational model for investigating lung–brain–immune axis pathology in Long-COVID and for advancing the development of targeted therapeutic interventions.