ObjectiveTo explore the mechanism of Huoxue Rongluo prescription （HXRLP） in repairing the blood-brain barrier （BBB） after ischemic stroke （IS）. MethodsMale C57BL/6 mice were randomly divided into sham operation （Sham） group， cerebral infarction model （MCAO） group， environmental circadian disruption with cerebral infarction model （ECD-MCAO） group， low-， medium-， and high-dose HXRLP （HXRLP-L， M， and H） groups （8.5， 17， 34 g·kg^-1·d^-1， respectively）， and positive drug butylphthalide （NBP） group （0.23 mL·d^-1）. In the Sham group， only the exposed blood vessels were isolated without suture insertion. In the other groups， the middle cerebral artery occlusion （MCAO） model of mice was prepared. In the ECD-MCAO group， HXRLP groups， and NBP group， the environmental circadian disruption （ECD） model was prepared. The mice in the Sham group， MCAO group， and ECD-MCAO group were given the same volume of soybean oil by gavage， while those in the other groups were given the corresponding drugs by gavage. Samples were collected after 7 consecutive days of administration. The mNSS score was used to evaluate the repair effect of HXRLP on neurological deficits after IS. Hematoxylin-eosin （HE） staining was used to assess the impact of HXRLP on the pathological damage of brain tissue after IS. 2，3，5-Triphenyltetrazolium chloride （TTC） staining and cerebral blood perfusion status were used to evaluate the repair effect of HXRLP on brain tissue damage after IS. Evans blue staining and transmission electron microscopy were used to evaluate the improvement effect of HXRLP on the permeability injury of BBB after IS. Immunofluorescence （IF） staining was used to observe the expression of von Willebrand Factor （vWF）， brain and muscle Arnt-like 1 （Bmal1）， and Occludin in brain tissue. Western blot was used to detect the protein expression of Bmal1， Occludin， tight junction protein （Claudin-5）， vascular endothelial growth factor （VEGF）， and angiopoietins（Ang）， and related analysis was conducted. ResultsCompared with the Sham group， the MCAO group exhibited significantly aggravated neurological deficits， cerebral infarction volume， brain pathological damage， and BBB leakage （P0.01） and significantly reduced cerebral blood perfusion （P0.01）. The expression of Bmal1， vWF， vascular endothelial growth factor A （VEGFA）， and Ang in brain tissue was significantly enhanced （P0.01）， while the expression of Occludin and Claudin-5 was significantly weakened （P0.01）. Compared with the MCAO group， the ECD-MCAO group showed significantly aggravated neurological deficits， cerebral infarction volume， and BBB leakage （P0.01）， obviously worsened brain pathological damage （P0.05）， significantly reduced cerebral blood perfusion （P0.01）， and significantly decreased expression of Bmal1， vWF， VEGFA， Ang， Occludin， and Claudin-5 in brain tissue （P0.01）. Compared with the ECD-MCAO group， the HXRLP groups of all doses presented significantly improved neurological deficits， cerebral infarction volume， brain pathological damage， and BBB leakage （P0.01）， significantly increased cerebral blood perfusion （P0.01）， and enhanced expression levels of Bmal1， vWF， VEGFA， Ang， Occludin， and Claudin-5 in brain tissue （P0.01）. ConclusionHXRLP can regulate the clock protein Bmal1 and promote the expression of VEGFA， Ang， Occludin， and Claudin-5， thereby improving BBB damage after IS.

Objective To identify lipid metabolism genes in cerebral infarction;To explore the intervention effect of Huoxue Rongluo Prescription.Methods Multi-chip combined differential analysis(GSE61616,GSE30655)was used to identify lipid metabolism genes in cerebral infarction in combination with Reactome database,and the expression differences of lipid metabolism genes in cerebral infarction were identified and verified in GSE97537 chip;Pearson correlation analysis was used to analyze the correlation of 51 cerebral infarction samples in GSE61616,GSE30655,GSE97537,GSE137595,GSE22255,GSE163614,and GSE78731 datasets;PPI,GO and KEGG analysis of lipid metabolism genes in cerebral infarction were performed through STRING database and R clusterProfiler package.SD rats were made to the model of cerebral infarction,and was administered with Huoxue Rongluo Prescription extract 11.7 g/kg by intragastric administration for 7 days.The symptoms of neurological deficit,the changes of Nissl bodies and the mRNA expressions of PLA2G4A,SPHK1,and PTGES key genes in lipid metabolism in cerebral infarction were observed.Results TSPO,CYP1B1,PLIN2,CH25H,PLA2G4A,ANGPTL4,PTGS1,SPHK1,and PTGES were identified as lipid metabolism genes in cerebral infarction,and were significantly highly expressed and positively correlated in cerebral infarction.Among them,PTGS1,PLA2G4A,and SPHK1 interacted with each other,which were the key genes of lipid metabolism in cerebral infarction;the lipid metabolism gene in cerebral infarction mainly exerted molecular functions such as oxidoreductase activity,iron ion binding,heme binding,etc.,mediating arachidonic acid metabolism,phospholipase D signaling pathway,VEGF signaling pathway,involved in regulation of lipid metabolism process,fatty acid metabolism process,fatty acid derivative metabolism process.The symptoms of neurological deficit in the model rats with cerebral infarction were severe(P<0.001),and Huoxue Rongluo Prescription could effectively improve the neurological deficit of model rats(P<0.001).The Nissl staining indicated that the neuronal structure was abnormal and the number was significantly reduced after cerebral infarction(P<0.001).Huoxue Rongluo Prescription could increase the number of neurons(P<0.001)and repair the neuronal structure.RT-qPCR showed that the key genes of lipid metabolism in cerebral infarction were significantly higher in cerebral infarction(P<0.001),corroborated with the bioinformatics results,and Huoxue Rongluo Prescription could reduce the expression of key lipid metabolism genes of PTGS1,PLA2G4A,and SPHK1(P<0.001,P<0.01,P<0.05).Conclusion Huoxue Rongluo Prescription can down-regulate the expressions of PTGS1,PLA2G4A,SPHK1,exert molecular functions such as oxidoreductase activity,iron ion binding,heme binding,and mediate arachidonic acid metabolism,phospholipase D signaling pathway,and VEGF signaling pathway.It participates in the process of lipid metabolism regulation,fatty acid metabolism,and fatty acid derivative metabolism,increases the number of Nissl bodies,improves the symptoms of neurological deficits,and exerts neuroprotective effects.

Non-conventional yeasts such as Yarrowia lipolytica, Pichia pastoris, Kluyveromyces marxianus, Rhodosporidium toruloides and Hansenula polymorpha have proven to be efficient cell factories in producing a variety of natural products due to their wide substrate utilization spectrum, strong tolerance to environmental stresses and other merits. With the development of synthetic biology and gene editing technology, metabolic engineering tools and strategies for non-conventional yeasts are expanding. This review introduces the physiological characteristics, tool development and current application of several representative non-conventional yeasts, and summarizes the metabolic engineering strategies commonly used in the improvement of natural products biosynthesis. We also discuss the strengths and weaknesses of non-conventional yeasts as natural products cell factories at current stage, and prospects future research and development trends.
Yeasts/genetics* ; Yarrowia/metabolism* ; Gene Editing ; Metabolic Engineering

Malnutrition in liver cirrhosis is associated with ascites, hepatic encephalopathy, infection, and other complications even death. To date, the hazard and disease burden of malnutrition in cirrhosis patients have been severely underestimated. This review summarized the most recent advancement in the field and discussed the techniques and methodologies in detection and evaluation of malnutrition in cirrhosis patients, nutritional support therapy, and future research directions and clinical care of the patients.