Litcius/Paper detail

Emodin Ameliorates Severe Acute Pancreatitis-Associated Acute Lung Injury in Rats by Modulating Exosome-Specific miRNA Expression Profiles

Qi Yang, Yalan Luo, Peng Ge, Bowen Lan, Jin Liu, Haiyun Wen, Yinan Cao, Zhenxuan Sun, Guixin Zhang, Huiming Yuan, Lihua Zhang, Hailong Chen

2023International Journal of Nanomedicine30 citationsDOIOpen Access PDF

Abstract

Background: Numerous preclinical investigations have exhibited the beneficial impact of emodin (EMO) on the management of severe acute pancreatitis (SAP)-associated acute lung injury (ALI). However, the potential of EMO to mitigate organ damage through the modulation of exosome (Exo)-specific miRNA expression profiles remains unclear. Methods: The SAP rat model was established by retrograde injection of 5% sodium taurocholate into the pancreatic bile duct. Rats received intragastric administration of EMO at 2 h and 12 h post-modeling. Plasma and bronchoalveolar lavage fluid (BALF)-derived exosomes were isolated and purified from SAP rats treated with EMO. The therapeutic effects of these Exos in SAP rats were assessed using hematoxylin-eosin staining and measurement of inflammatory factor levels. MicroRNA (miRNA) sequencing was conducted on plasma and BALF-derived Exos, and rescue experiments were performed to investigate the function of NOVEL miR-29a-3p in the treatment of SAP using EMO. Results: EMO exhibits ameliorative effects on pancreatic and lung injury and inflammation in rats with SAP. Plasma/BALF-derived Exos from EMO-treated SAP rats also have therapeutic effects on SAP rats. The miRNA expression profile of plasma and BALF-derived Exos in SAP rats underwent significant changes upon exposure to EMO. In particular, 34 differentially expressed miRNAs (DEmiRNAs) were identified when comparing BALF-SAP+EMO-Exo and BALF-SAP-Exo. 39 DEmiRNAs were identified when comparing plasma-SAP+EMO-Exo to plasma-SAP-Exo. We found that SAP rats treated with Exos derived from BALF exhibited a more potent therapeutic response than those treated with Exos derived from plasma. EMO may rely on NOVEL-rno-miR-29a-3p expression to prevent pulmonary injury in SAP rats. Conclusion: The mechanism of action of EMO is observed to have a significant impact on the miRNA expression profile of Exos derived from plasma and BALF in SAP rats. NOVEL-rno-miR-29a-3p, which is specific to Exos, and is derived from BALF, may play a crucial role in the therapeutic efficacy of EMO. Plain Language Summary: Exosomes extracted from plasma/BALF of EMO-treated SAP rats show a substantial therapeutic impact on SAP-Associated ALI, with BALF-derived exosomes having a higher therapeutic effect than plasma-derived exosomes.EMO dramatically altered the miRNA expression patterns of plasma and BALF-derived exosomes in SAP rats.The lung protective effect of EMO in SAP rats is somewhat reliant on Novel-rno-miR-29a-3p expression. Keywords: severe acute pancreatitis, acute lung injury, emodin, exosome, microRNA

Topics & Concepts

EmodinBronchoalveolar lavageAcute pancreatitisExosomePharmacologyMedicinePancreatitisH&E stainLungInflammationmicroRNAMicrovesiclesPathologyImmunologyChemistryInternal medicineStainingBiochemistryGenePancreatitis Pathology and TreatmentExtracellular vesicles in diseaseHydrogen's biological and therapeutic effects
Emodin Ameliorates Severe Acute Pancreatitis-Associated Acute Lung Injury in Rats by Modulating Exosome-Specific miRNA Expression Profiles | Litcius