This study utilized a multi-omics and computational biology framework to investigate the therapeutic potential of the Traditional Chinese Medicine (TCM) formula Buti Huatan Tang (BTHTT) against chronic obstructive pulmonary disease (COPD). Significant physiological improvements were observed in a rat model following BTHTT intervention. Histological analysis showed a reversal of lung pathological damage, while biochemical assays, and transcriptomics confirmed the normalization of IL-1β and IL-1R2 levels. Additionally, metabolic profiling revealed that BTHTT corrected disruptions in T3 and T4 thyroid hormone levels. A negative correlation was observed between the IL-1β/IL-1R2 axis and these thyroid hormones, indicating that their regulation is associated with the formula’s therapeutic effect. Beyond direct measurements, machine learning algorithms identified ten COPD signature genes from clinical databases. Pathway enrichment analysis suggests that BTHTT may act through cytokine-cytokine-receptor interactions and thyroid hormone synthesis pathways. Furthermore, while 283 components were identified in vivo, compounds such as tanshinone IIA and cryptotanshinone are currently considered candidate active substances. Their role as primary drivers is supported by a model in which they stably bind to IL-1R2; this inference is based on molecular docking and molecular dynamics (MD) simulations rather than direct experimental isolation. Overall, the data support a model in which BTHTT exerts a multi-target effect on COPD by modulating inflammation and metabolic homeostasis. This integrated approach provides a refined scientific basis for the clinical application of BTHTT and highlights specific pathways for future experimental validation.
Zha et al. (Fri,) studied this question.