BML-111 mitigates phosgene-induced acute lung injury in rats by activating ACE2

Abstract

Objective: Phosgene is a highly toxic asphyxiating gas and also an important chemical raw material. Phosgene has been regarded as an environmental pollutant, and the accidental leakage of phosgene in the process of industrial production has posed a serious threat to related occupational groups. Phosgene exposure may lead to acute lung injury (ALI), marked by inflammation, heightened vascular permeability, and potentially life-threatening pulmonary edema. BML-111 is a lipid A4 receptor agonist which is compound with anti-inflammatory and antioxidant properties. The involvement of BML-111 in mitigating phosgene-induced ALI and the underlying mechanisms remain unclear.

Methods: In this study, we established a phosgene induced ALI rat model, examined the effects of phosgene exposure on lung tissue and bronchoalveolar lavage fluid (BALF) of rats, and evaluated the lung tissue pathology, lung wet weight, lung coefficient and respiratory function of phosgene exposed rats after intervention with BML-111. The levels of pro-inflammatory cytokines and oxidative stress markers were measured in BALF and lung tissue.

Results: This study showed that BML-111 notably enhanced respiratory function, mitigated ALI severity, and reduced pulmonary edema in phosgene-exposed rats. Mechanistically, these protective effects were attributed to a reduction in pro-inflammatory cytokines and oxidative stress, alongside an enhancement of overall antioxidant capacity. Furthermore, it was found that the activation of ACE2 is a key mechanism through which BML-111 exerts its protection.

Conclusion: The findings suggest that BML-111 can alleviate phosgene-induced ALI in rats by activating ACE2, thereby inhibiting inflammatory responses and oxidative stress. BML-111 shows promise as a preventive candidate for treating phosgene-induced ALI.

Keywords: ACE2; ALI; BML-111; phosgene.