OBJECTIVE: To evaluate the efficacy and safety of Shexiang Tongxin Dropping Pill (STDP) in treating stable angina patients with phlegm-heat and blood-stasis syndrome by exercise duration and metabolic equivalents. METHODS: This multicenter, randomized, double-blind, placebo-controlled clinical trial enrolled stable angina patients with phlegm-heat and blood-stasis syndrome from 22 hospitals. They were randomized 1:1 to STDP (35 mg/pill, 6 pills per day) or placebo for 56 days. The primary outcome was the exercise duration and metabolic equivalents (METs) assessed by the standard Bruce exercise treadmill test after 56 days of treatment. The secondary outcomes included the total angina symptom score, Chinese medicine (CM) symptom scores, Seattle Angina Questionnaire (SAQ) scores, changes in ST-T on electrocardiogram and adverse events (AEs). RESULTS: This trial enrolled 309 patients, including 155 and 154 in the STDP and placebo groups, respectively. STDP significantly prolonged exercise duration with an increase of 51.0 s, compared to a decrease of 12.0 s with placebo (change rate: -11.1% vs. 3.2%, P<0.01). The increase in METs was significantly greater in the STDP group than in the placebo group (change: -0.4 vs. 0.0, change rate: -5.0% vs. 0.0%, P<0.01). The improvement of total angina symptom scores (25.0% vs. 0.0%), CM symptom scores (38.7% vs. 11.8%), reduction of nitroglycerin consumption (100.0% vs. 11.3%), and all domains of SAQ, were significantly greater with STDP than placebo (all P<0.01). The changes in Q-T intervals at 28 and 56 days from baseline were similar between the two groups (both P>0.05). Twenty-five participants (16.3%) with STDP and 16 (10.5%) with placebo experienced AEs (P=0.131), with no serious AEs observed. CONCLUSION STDP could improve exercise tolerance in patients with stable angina and phlegm-heat and blood stasis syndrome, with a favorable safety profile. (Registration No. ChiCTR-IPR-15006020).
Humans ; Double-Blind Method ; Drugs, Chinese Herbal/adverse effects* ; Male ; Female ; Middle Aged ; Angina, Stable/physiopathology* ; Aged ; Syndrome ; Treatment Outcome ; Placebos ; Tablets

Ergopeptines or their derivatives are widely used for treating neurodegenerative and cerebrovascular diseases. The nonribosomal peptide synthetase-d-lysergyl peptide synthetase A (LPSA) determines ergopeptine formation but the detailed mechanism remains to be elucidated. Here, we characterized two LPSAs from Claviceps purpurea Cp-1 strain through heterologous expression in Aspergillus nidulans feeding with d-lysergic acid. We proved that Cp-LPSA1 catalyzed the formation of ergocornine, α-ergocryptine, and β-ergocryptine, precisely controlled by the substrate specificity of its three modules. Cp-LPSA2 was initially inactive but could be restored to catalyze α-ergosine formation. Using this platform, we validated that P1-LPSA1 and P1-LPSA2 from the reported C. purpurea P1 strain catalyzed ergotamine and α-ergocryptine formation, respectively. Typically, the non-ribosomal peptide codes implicated in every module of the LPSAs were defined and elucidated, in which certain key residues could play a switched role for substrate specificity and product interconversion. By constructing chimeric LPSAs through module assembly, the production of the desired ergopeptines was achieved. Notably, 1.46 mg/L of α-ergocryptine and 1.09 mg/L of ergotamine were produced respectively by mixed-culture of C. paspali No. 24 (fermentation supernatant) and the recombinants of A. nidulans. Our findings provide insights into the biosynthetic mechanism of ergopeptines and lay a foundation for directed ergopeptine biosynthesis.

Elucidate the influence of RFRP-3 on follicular development and steroid hormone synthe-sis in mice.Forty 6-week-old female KM mice were randomly allocated into four groups,namely the 0(control),100,500 and 2 000 ng/d treatment groups.Each group received daily intraperitoneal injections of RFRP-3 for a duration of 7 days.The ovarian coefficients were calculated and recorded by measuring the wet weight of the ovaries.The effects of RFRP-3 at different concentrations on follicular maturation in mice were investigated through HE staining.Western blot analysis was em-ployed to assess the expression of apoptosis-related proteins,steroidogenic enzymes,and oocyte se-cretion factors within the mouse ovaries.The concentrations of progesterone(P4)and estradiol(E2)in the serum of the mice were determined using radioimmunoassay techniques.The results re-vealed no significant differences in body weight between the experimental groups and the control.However,the ovarian coefficients in the 500 and 2 000 ng/d treatment groups were significantly re-duced when compared to the control(P＜0.01).A marked decrease in the numbers of secondary and antral follicles was observed in the 500 ng/d and 2 000 ng/d groups(P＜0.01),concomitant with a substantial increase in atretic follicles(P＜0.01).A significant decline in follicle count was also noted in these groups(P＜0.01).Compared to the control,the protein expression of Bax and Caspase3 was substantially upregulated in the 500 and 2 000 ng/d treatment groups(P＜0.05),while the expression of Bcl-2 protein was significantly downregulated(P＜0.01).Similarly,the protein expression of 3βHSD,StAR,CYP11a1,and CYP17a1 was significantly decreased at the 500 and 2 000 ng/d groups(P＜0.01).E2 concentrations were moderately reduced in the 500 ng/d group(P＜0.05)and significantly decreased in the 2000 ng/d group(P＜0.01),whereas P4 levels remained unchanged across all experimental groups.Notably,the expression of BMP15 and GDF9 at both the gene and protein levels was markedly attenuated in the 500 and 2 000 ng/d treatment groups compared to the control(P＜0.05).In conclusion,RFRP-3 appears to inhibit follicular de-velopment and steroid hormone secretion in mice by modulating the expression of apoptotic fac-tors,oocyte secretion factors,and steroidogenic enzymes within the ovaries.This study provides a theoretical foundation for understanding the regulatory mechanisms of RFRP-3 on mammalian follicular development and steroid hormone synthesis.

Sepsis is a life-threatening organ dysfunction disease caused by a dysregulated host response to infection.It has com-plex pathophysiological changes,and in severe cases,it can rap-idly develop into septic shock and multiple organ dysfunction or multiple organ failure.At present,the pathological mechanism of sepsis and its induced organ dysfunction is complex and the in-fluencing factors are numerous.So far,there is still a lack of specific and effective treatment strategies.RNA modify-N6-methyladenosine(m6 A)is one of the most common post-tran-scriptional modifications on eukaryotic RNAs.It is involved in the regulation of the occurrence and development of a variety of inflammatory diseases,including sepsis,and even multiple organ dysfunction induced by sepsis by affecting the metabolism of RNAs.It includes cardiac dysfunction,acute lung injury(ALI)and acute kidney injury(AKI).Therefore,this article will dis-cuss the effect of m6A modification on the function of immune cells,and its important role in sepsis and its induced multiple or-gan dysfunction diseases by regulating inflammatory signals,py-roptosis,mitochondrial damage and ferroptosis.This will provide new therapeutic targets and strategies for the clinical prevention and treatment of sepsis and its induced multiple organ dysfunc-tion diseases.

Sepsis is a life-threatening organ dysfunction disease caused by a dysregulated host response to infection.It has com-plex pathophysiological changes,and in severe cases,it can rap-idly develop into septic shock and multiple organ dysfunction or multiple organ failure.At present,the pathological mechanism of sepsis and its induced organ dysfunction is complex and the in-fluencing factors are numerous.So far,there is still a lack of specific and effective treatment strategies.RNA modify-N6-methyladenosine(m6 A)is one of the most common post-tran-scriptional modifications on eukaryotic RNAs.It is involved in the regulation of the occurrence and development of a variety of inflammatory diseases,including sepsis,and even multiple organ dysfunction induced by sepsis by affecting the metabolism of RNAs.It includes cardiac dysfunction,acute lung injury(ALI)and acute kidney injury(AKI).Therefore,this article will dis-cuss the effect of m6A modification on the function of immune cells,and its important role in sepsis and its induced multiple or-gan dysfunction diseases by regulating inflammatory signals,py-roptosis,mitochondrial damage and ferroptosis.This will provide new therapeutic targets and strategies for the clinical prevention and treatment of sepsis and its induced multiple organ dysfunc-tion diseases.

Elucidate the influence of RFRP-3 on follicular development and steroid hormone synthe-sis in mice.Forty 6-week-old female KM mice were randomly allocated into four groups,namely the 0(control),100,500 and 2 000 ng/d treatment groups.Each group received daily intraperitoneal injections of RFRP-3 for a duration of 7 days.The ovarian coefficients were calculated and recorded by measuring the wet weight of the ovaries.The effects of RFRP-3 at different concentrations on follicular maturation in mice were investigated through HE staining.Western blot analysis was em-ployed to assess the expression of apoptosis-related proteins,steroidogenic enzymes,and oocyte se-cretion factors within the mouse ovaries.The concentrations of progesterone(P4)and estradiol(E2)in the serum of the mice were determined using radioimmunoassay techniques.The results re-vealed no significant differences in body weight between the experimental groups and the control.However,the ovarian coefficients in the 500 and 2 000 ng/d treatment groups were significantly re-duced when compared to the control(P＜0.01).A marked decrease in the numbers of secondary and antral follicles was observed in the 500 ng/d and 2 000 ng/d groups(P＜0.01),concomitant with a substantial increase in atretic follicles(P＜0.01).A significant decline in follicle count was also noted in these groups(P＜0.01).Compared to the control,the protein expression of Bax and Caspase3 was substantially upregulated in the 500 and 2 000 ng/d treatment groups(P＜0.05),while the expression of Bcl-2 protein was significantly downregulated(P＜0.01).Similarly,the protein expression of 3βHSD,StAR,CYP11a1,and CYP17a1 was significantly decreased at the 500 and 2 000 ng/d groups(P＜0.01).E2 concentrations were moderately reduced in the 500 ng/d group(P＜0.05)and significantly decreased in the 2000 ng/d group(P＜0.01),whereas P4 levels remained unchanged across all experimental groups.Notably,the expression of BMP15 and GDF9 at both the gene and protein levels was markedly attenuated in the 500 and 2 000 ng/d treatment groups compared to the control(P＜0.05).In conclusion,RFRP-3 appears to inhibit follicular de-velopment and steroid hormone secretion in mice by modulating the expression of apoptotic fac-tors,oocyte secretion factors,and steroidogenic enzymes within the ovaries.This study provides a theoretical foundation for understanding the regulatory mechanisms of RFRP-3 on mammalian follicular development and steroid hormone synthesis.

Objective To investigate the relationship between single nucleotide polymorphisms(SNPs)in the eNOS gene and genetic susceptibility to systemic lupus erythematosus(SLE)in Hainan.Methods Blood samples were collected from SLE patients(SLE group,n=214)and healthy controls(control group,n=214)from January 2020 to December 2022 at the First Affiliated Hospital of Hainan Medical College and Hainan Provincial People's Hospital.The bases of eNOS gene rs3918188,rs1799983 and rs1007311 loci in each group were detected by SNaPshot sequencing technology.Logistic regression was used to analyze the correlation between genotypes,alleles and gene models(dominant model,recessive model,and overdominant model)of the above 3 target loci of the eNOS gene and genetic susceptibility to SLE.Haplotype analysis was conducted using HaploView 4.2 software to investigate the relationship between haploid and genetic susceptibility to SLE at each site.Results The results of logistic regression analysis revealed that the CC genotype and the C allele at rs3918188 locus were risk factors for genetic susceptibility to SLE(CC vs.AA:OR=2.449,P<0.05;C vs.A:OR=2.133,P<0.001).In recessive model at rs3918188 locus,CC genotype carriers had an increased risk of SLE development compared with AA+AC genotype carriers(OR=2.774,P<0.001).In contrast,in overdominant model at this locus,AC genotype carriers had a decreased risk of SLE occurrence compared with AA+CC genotype carriers(OR=0.385,P<0.001).In addition,polymorphisms of rs1799983 and rs1007311 were not associated with susceptibility to SLE in genotype,allele type and the 3 genetic models(P>0.05).Haplotype analysis revealed a strong linkage disequilibrium between the rs1007311 and rs1799983 loci of the eNOS gene,but no significant correlation was found between haplotype and genetic susceptibility to SLE(P>0.05).Conclusion The CC genotype and C allele at rs3918188 locus of eNOS gene may be risk factors for SLE in Hainan,while the risk of SLE occurrence is reduced in carriers of AC genotype under the overdominant model.

Natural products are important sources of drug discovery. However, the traditional methods of extraction and isolation, as well as chemical synthesis for obtaining natural products are associated with issues such as operational complexity, high costs, low efficiency, and environmental pollution. Constructing microbial cell factories through synthetic biology methods to produce medicinal natural products has the advantages of high efficiency, low cost, and environmental protection. Nevertheless, the scope and yield improvement of the products are limited by the limitations of enzymes in microbial cell factories. Protein engineering is considered one of the most effective approaches to overcome these limitations. This article introduces commonly used methods of protein engineering technology and summarizes its specific applications in improving enzyme performance, modifying the enzymatic environment, and promoting the development of synthetic biology tools in the field of pharmaceutical natural product synthesis. Furthermore, it analyzes the current bottlenecks and challenges in protein engineering and looks forward to its future application prospects, offering insights for the development and practical use of protein engineering technology.

The secondary metabolites of plants are important sources of natural drugs. Betula plants have abundant pharmacological value, complex mechanism and wide applications, which are closely related to the triterpenoids of theirs. Triterpenoids in Betula species are mainly divided into dammarane-type, ocotillol-type, oleanane-type, lupane-type and cycloaltunane-type. The extracts of Betula species have varieties of activities such as anti-tumor, anti-inflammatory, anti-oxidant, anti-bacterial, etc. And the biosynthetic pathways of triterpenoids after 2,3-oxidosqualene are split into four branches of dammarenediol-II, lupeol, cycloartenol and amyrin according to the different oxidosqualene cyclases. This review summarizes the chemical constituents, pharmacological activities and biosynthetic pathways of triterpenoids in Betula plants. It provides a reference for the research and development of new drugs and the production of these triterpenoids in microbial cell factories by synthetic biology methods.

Both anti-glomerular basement membrane (GBM) disease and the anti-neutrophil cytoplasmic antibody (ANCA)-associated vasculitis (AAV) are common causes of pulmonary-renal syndrome. Organizing pneumonia (OP), a special pattern of interstitial lung disease, is extremely rare either in AAV or anti-GBM disease. We report an old woman presented with OP on a background of co-presentation with both ANCA and anti-GBM antibodies.
Female ; Humans ; Antibodies, Antineutrophil Cytoplasmic ; Organizing Pneumonia ; Autoantibodies ; Glomerulonephritis ; Anti-Glomerular Basement Membrane Disease ; Pneumonia ; Anti-Neutrophil Cytoplasmic Antibody-Associated Vasculitis/complications*