Objective To investigate the protective effect of mitochondrial fission inhibitor 1(Mdivi-1),on organ function in rats with explosive blast injury combined with hemorrhagic shock.Methods A total of 192 SD rats(half male and half female,12 weeks old,weighing about 220 g)were randomly divided into 6 groups:Sham group(only surgical incision along the midline of the abdomen),model group(ESH group,thermal radiation and shock wave injury followed by femoral artery hemorrhage),lactated Ringer's solution resuscitation group(ESH+LR group,LR solution infusion in the femoral vein for resuscitation),and low-,middle-and high-dose Mdivi-1 groups(0.1,0.5 and 1.0 mg/kg Mdivi-1 intervention after infusion of LR solution).Fluorescent protein tracing was used to determine the leakage amount of fluorescent protein in the lung and kidney tissues to evaluate the vascular permeability.Evans blue dye staining was employed to observe the intestinal permeability and pulmonary vascular permeability.Laser Doppler flowmetry was applied to monitor the tissue blood perfusion in the liver,kidneys,and intestine.Serum levels of cardiac injury marker troponin I(TNI),liver function markers aspartate aminotransferase(AST)and alanine aminotransferase(ALT),and renal function markers serum creatinine(Scr)and blood urea nitrogen(BUN)were detected to evaluate the functions of corresponding organs.The water contents of the lungs and brain were calculated by measuring wet weight and dry weight of the lung and brain tissues.Blood pressure,heart rate,and respiratory rate were monitored.The survival time and 72-hour survival rate were recorded and calculated.Results Compared with the Sham group,the ESH group exhibited significantly increased vascular permeability in the lungs and kidneys as well as intestinal tissue(P<0.05),along with obviously elevated water contents in the lungs and brain(P<0.05),and decreased blood perfusion in the liver,kidneys,and intestine by 57.1%,39.2%,and 43.2%of the Sham group,respectively(P<0.05),elevated levels of TNI,AST,ALT,Scr and BUN(P<0.05),mean survival time of 3.8±1.1 h,and a 72-hour survival rate of 0(P<0.05).Although LR solution resuscitation reduced vascular permeability and alleviated organ injury in rats with explosive injury combined with hemorrhagic shock,there were no significant differences compared to the ESH group(P>0.05).Mdivi-1 treatment notably decreased vascular permeability in the lungs and kidneys and intestine,and water contents in the lungs and brain when compared with the LR group(P<0.05),with the dose of 0.5 mg/kg demonstrating the most significant effect.Additionally,Mdivi-1 treatment also significantly enhanced organ perfusion,improved organ functions,prolonged survival time,and increased survival rate.The 0.5 mg/kg treatment resulted in a 72-hour average survival time 55.64 h and a survival rate of 62.5%.Conclusion Mitochondrial fission inhibitor Mdivi-1 can reduce the permeabilities in the lungs,kidneys and intestine,improve tissue blood perfusion,protect the organ functions of the heart,liver and kidneys,and finally prolong survival time and increase survival rate in rats with concomitant explosive blast injury and hemorrhagic shock.

Objective To explore the protective effect of L-carnitine on myocardial systolic dysfunction in sepsis and its underlying mechanism.Methods A mouse sepsis model was established by cecal ligation and puncture(CLP).Ten-week-old male SPF-grade C57BL/6 mice(body weight 20～30 g)were randomly divided into 5 groups via random number table:Sham group,Sepsis group,L-carnitine group,L-carnitine+Etomoxir(Eto)group,and Eto group.Echocardiography assessed cardiac function,ELISA measured serum creatine kinase isoenzyme MB(CK-MB)levels,and 72-hour survival rates were recorded to evaluate L-carnitine's effects on cardiac function.Cardiomyocytes were isolated,and a cell microtensiometer was used to detect cardiomyocyte contractile function and calcium transients.Myocardial tissues were collected from each group,and ELISA was used to determine the contents of triglyceride(TG),free fatty acid(FFA),and adenosine triphosphate(ATP).An in vitro sepsis model was constructed by stimulating HL-1 cardiomyocytes with lipopolysaccharide(LPS)for 12 hours,which was divided into 5 groups:control(CTRL)group,LPS group,L-carnitine group,L-carnitine+Eto group,and Eto group.ELISA was used to detect the contents of TG,FFA,and ATP as well as the activity of carnitine palmitoyltransferase 1A(CPT1A)in cardiomyocytes.A cellular energy metabolism analysis system was employed to measure fatty acid oxidation capacity,and Western blot was used to detect the protein expression of CPT1A in cardiomyocytes.BODIPY-FL-C16(green fluorescently labeled palmitic acid)was utilized to detect the distribution of fatty acids in the cytoplasm and mitochondria via immunofluorescence technology,thereby observing the ability of cells to transport fatty acids into mitochondria.Results Compared with the Sham group,cardiac function was significantly impaired in the Sepsis group,as evidenced by decreased ejection fraction and mean arterial pressure(P<0.05),along with elevated levels of the cardiac injury marker CK-MB(P<0.05).Treatment with L-carnitine significantly improved myocardial function,restored blood pressure in septic mice,and increased their survival rate from 12.50%to 81.25%(P<0.05).Compared with the Sham group,the contractile function and calcium transients of acutely isolated single cardiomyocytes were significantly reduced in the Sepsis group(P<0.05),while L-carnitine treatment remarkably restored the contractile function and calcium release capacity of septic cardiomyocytes(P<0.05).Both in vivo and in vitro experiments showed that TG and FFA levels were significantly increased(P<0.05),and ATP levels was significantly decreased(P<0.05)in the Sepsis and LPS groups—effects significantly reversed by L-carnitine treatment.Compared with the CTRL group,the basal oxidation rate and maximum oxidation capacity of fatty acids in cardiomyocytes of the LPS group were significantly reduced(P<0.05),and L-carnitine treatment notably improved these indicators.Compared with the CTRL group,the expression and activity of CPT1A in cardiomyocytes of the LPS group were significantly decreased(P<0.05),while L-carnitine treatment significantly increased the expression and activity of CPT1A(P<0.05).In LPS group cardiomyocytes,green fluorescently labeled palmitic acid primarily formed numerous granular/clumpy aggregates in the cytoplasm with minimal mitochondrial colocalization.In the L-carnitine group,the green fluorescent granules in the cytoplasm of cardiomyocytes were smaller,and colocalization with mitochondria was increased.However,the L-carnitine+Eto group exhibited similar phenomena to the LPS group.In addition,both in vivo and in vitro experiments demonstrated that treatment with the CPT1A inhibitor Eto reversed the effect of L-carnitine.Compared with the L-carnitine group,the ATP content in the L-carnitine+Eto group was significantly decreased(P<0.05),while the FFA content was significantly increased(P<0.05).Conclusion L-carnitine facilitates fatty acid entry into mitochondria for β-oxidation via a CPT1A-dependent mechanism,thereby ameliorating fatty acid oxidation dysfunction in septic cardiomyocytes and improving myocardial contractile function.