This article reviews the recent achievements in parasitology including new diagnostic techniques,molecular mechanism of parasitic pathogenesis,drug resistance,antigenic variation,parasite genomics and proteomics. The perspective development in the area is also discussed.

Objective To explore the feasibihty of TRAIL to be used to remove the leukemia cells from the autologous hemopoietic stem cell transplants. Methods The expression of decoy receptor 1 and decoy receptor 2 on the bone marrow mononuclear cell were routine-ly isolated and observed by fluorescence microscope after PE-DcR1 or PE-DcR2 stain. The apeptosis rates of mononuclearcell and Jurkat cells interfered by 200ng/ml TRAIL for 18h were determined by flow cytometry after AnnexinV/Pl stain. The interfered mononuclear cells were cultured to count the number to form colony-forming unit-fibroblast(CFU-F). The Jurkat cells labeled by green fluorescent protein were in-corporated into the mononuclear ceils and affected by 200ng/ml TRAIL for 24h. The incorporated cells were cultured in the system with GM-CSF and EPO and the numbers of the CFU-GM, BFU-E and fluorescence colony were counted on the seventh day. Results Both decoy re-ceptor land decoy receptor 2 of TRAIL can be detected on membrane or in cytoplasm of the bone marrow mononuclear cell. The apoptosis rate of mononuclear cell interfered by 200ng/ml TRAIL for 18h was (5.95±1.23)%, which was markedly lower than that of Jurkat cells (33.42±2.28) %. The number of CFU-F of TRAIL group and control group were 235.67 ~ 33.56 and 249.33±42.72, respectively. No marked difference can be found between the mentioned two groups. Moreover, TRAIL decreased the number of fluorescence colony formed by Jurkat cells without significant decreasing the number of CFU-GM and BFU-E formed by bone marrow mononuclear cells. Conclusion TRAIL can selectively induce apoptosis in Jurkat cells without marked toxic effect on the bone marrow mononuclear cells, which means that TRAIL can be used to remove the leukemia cells from the autologous hemopeietic stem cell transplants in vitro.

Objective To investigate the effects of adhesion mediated by bone nlalTow stroma celh from leukemia patient on chemotherapeutics sensitivity and cell cycle of Jurkat cells in the co-cultured model.Methods Bone mw stroma cells were isohted and cultured from leukemia patients routinely.To construct the co-cultured model.Jurkat cells were co-cultured with BMSCs the irradiated layer by 60Co,and the model was observed with scanning electron microscope.The IC50 values of Jurkat cells expesured to DNR were quantified by MTT.The cell cycles of Jurkat cells after 24h-adhesion in the co-cultured model were analyzed by Facs.The expression of cyclin A,cyclin E and p27 in Jurkat cells adhered to BMSCs for 4h.24h and 48h were detected by Western blot.Results Jurkat ceUs in the co-cultured model showed a decreased sensitivity to DNR.ICSO values for normal BMSCs,leukemic BMSCs and non-adhered control were of 1.78Ixmol/L,2.30pznol/L and 0.45p,mol/L,respectively.The percentages of Go-Gl phase for leukemic BMSCs group and non-adhered control group were of 48.74％±8.77％and 27.83％壬1.86％.Respectively.The percentages of Gz-M phase for leukemic BMSCs group and non-adhered control group were of2.01％±1.17％and 20.33％±1.84％。Respectively.Compared with eomrol group,the 24h-ad- hesion mediated by BMSCs from leukemia patients up-regulated the percentage of Go-G1 phase of Jurkat cells(P

Objective:To investigate the azole susceptibility of Candida albicans (C. albicans) from vulvovaginal candidosis patients and to analyze the relationship between ERG11 gene mutations in these isolates and azole resistance.
Methods:Three hundred and two clinical isolates of Candida species were collected. Azole susceptibility was tested in vitro in microdilution studies. The ERG11 genes of 17 isolates of C. albicans (2 susceptibles, 5 dose-dependent resistants and 10 resistants) were amplified and sequenced.
Results:Of the 302 isolates collected, 70.2%were C. albicans, of which 8.5%, 3.8%and 4.2%were resistant to fluconazole, itraconazole and voriconazole, respectively. In total, 27 missense mutations were detected in ERG11 genes from resistant/susceptible dose-dependent isolates. Among them, Y132H, A114S, and Y257H substitutions were most prevalent and were known to cause fluconazole resistance. G464S and F72S also has been proved to cause fluconazole resistance. Two novel substitutions (T285A, S457P) in hotspot regions were identified.
Conclusions:Twenty seven mutations in the ERG11 gene were identified in azole-resistant C. albicans isolates, which indicated a possible relation with the increase in resistance to azole drugs and the recurrence of vulvovaginal candidosis. The relationship of two novel substitutions (T285A, S457P) with fluconazole resistance needs to be further verified by site-directed mutagenesis.

Hepatic stellate cells(HSCs)are essential drivers of fibrogenesis.Inducing activated-HSC apoptosis is a promising strategy for treating hepatic fibrosis.18beta-glycyrrhetinic acid(18β-GA)is a natural com-pound that exists widely in herbal medicines,such as Glycyrrhiza uralensis Fisch,which is used for treating multiple liver diseases,especially in Asia.In the present study,we demonstrated that 18β-GA decreased hepatic fibrosis by inducing the apoptosis in activated HSCs.18β-GA inhibited the expression of α-smooth muscle actin and collagen type Ⅰ alpha-1.Using a chemoproteomic approach derived from activity-based protein profiling,together with cellular thermal shift assay and surface plasmon reso-nance,we found that 18β-GA covalently targeted peroxiredoxin 1(PRDX1)and peroxiredoxin 2(PRDX2)proteins via binding to active cysteine residues and thereby inhibited their enzymatic activities.18β-GA induced the elevation of reactive oxygen species(ROS),resulting in the apoptosis of activated HSCs.PRDX1 knockdown also led to ROS-mediated apoptosis in activated HSCs.Collectively,our findings revealed the target proteins and molecular mechanisms of 18β-GA in ameliorating hepatic fibrosis,highlighting the future development of 18β-GA as a novel therapeutic drug for hepatic fibrosis.

The composition of serum is extremely complex,which complicates the discovery of new pharmaco-dynamic biomarkers via serum proteome for disease prediction and diagnosis.Recently,nanoparticles have been reported to efficiently reduce the proportion of high-abundance proteins and enrich low-abundance proteins in serum.Here,we synthesized a silica-coated iron oxide nanoparticle and devel-oped a highly efficient and reproducible protein corona(PC)-based proteomic analysis strategy to improve the range of serum proteomic analysis.We identified 1,070 proteins with a median coefficient of variation of 12.56％using PC-based proteomic analysis,which was twice the number of proteins iden-tified by direct digestion.There were also more biological processes enriched with these proteins.We applied this strategy to identify more pharmacodynamic biomarkers on collagen-induced arthritis(CIA)rat model treated with methotrexate(MTX).The bioinformatic results indicated that 485 differentially expressed proteins(DEPs)were found in CIA rats,of which 323 DEPs recovered to near normal levels after treatment with MTX.This strategy can not only help enhance our understanding of the mechanisms of disease and drug action through serum proteomics studies,but also provide more pharmacodynamic biomarkers for disease prediction,diagnosis,and treatment.

A patient with scalp laceration suspected of radioactive waste water contamination had the wound ruled out of radioactive contamination, psychological fear eliminated, and well-healed wound, through rapid emergency medical response and scientific and effective disposal. The treatment process and psychological intervention for batch wounded after a nuclear accident are still applicable to patients with a small amount of sudden radioactive contamination. This article summarizes the relevant disposal process for reference.

Sepsis is characterized by a severe and life-threatening host immune response to polymicrobial infection accompanied by organ dysfunction.Studies on the therapeutic effect and mechanism of immunomod-ulatory drugs on the sepsis-induced hyperinflammatory or immunosuppression states of various im-mune cells remain limited.This study aimed to investigate the protective effects and underlying mechanism of artesunate(ART)on the splenic microenvironment of cecal ligation and puncture-induced sepsis model mice using single-cell RNA sequencing(scRNA-seq)and experimental validations.The scRNA-seq analysis revealed that ART inhibited the activation of pro-inflammatory macrophages recruited during sepsis.ART could restore neutrophils'chemotaxis and immune function in the septic spleen.It inhibited the activation of T regulatory cells but promoted the cytotoxic function of natural killer cells during sepsis.ART also promoted the differentiation and activity of splenic B cells in mice with sepsis.These results indicated that ART could alleviate the inflammatory and/or immunosuppressive states of various immune cells involved in sepsis to balance the immune homeostasis within the host.Overall,this study provided a comprehensive investigation of the regulatory effect of ART on the splenic microenvironment in sepsis,thus contributing to the application of ART as adjunctive therapy for the clinical treatment of sepsis.

Objective To investigate the protective effect of berberine (BBR) against ionizing radiation injury in rats and its mechanism of action. Methods Sprague-Dawley rats were divided into seven groups: normal control group, 1-Gy radiation group, 1-Gy radiation plus low-dose BBR (50 mg/kg) group, 1-Gy radiation plus high-dose BBR (150 mg/kg) group, 3-Gy radiation group, 3-Gy radiation plus low-dose BBR (50 mg/kg) group, and 3-Gy radiation plus high-dose BBR (150 mg/kg) group. All the groups except the normal control group were exposed to external irradiation with a medical electron linear accelerator, followed by BBR administration by gavage for consecutive ten days. The serum levels of superoxide dismutase (SOD), reduced glutathione (GSH), and malondialdehyde (MDA) were measured by using the micromethod. The pathological changes of the bone marrow and small intestine were observed with HE staining. Results Compared with the normal control group, the radiation groups showed significantly increased MDA levels (P < 0.05), significantly decreased SOD and GSH levels (P < 0.05), and more severe pathological damage of the bone marrow and small intestine. Compared with the radiation groups, the BBR groups showed significantly decreased MDA levels (P < 0.05), significantly increased SOD and GSH levels (P < 0.05), and reduced pathological damage to the bone marrow and small intestine, which were more marked in the high-dose BBR group. Conclusion BBR has a certain protective effect against radiation injury in rats, which may be through increasing the activity of antioxidant substances, enhancing free radical clearance, and thereby alleviating free radicals-caused oxidative damage.

Ferroptosis is a form of regulated cell death, characterized by excessive membrane lipid peroxidation in an iron- and ROS-dependent manner. Celastrol, a natural bioactive triterpenoid extracted from Tripterygium wilfordii, shows effective anti-fibrotic and anti-inflammatory activities in multiple hepatic diseases. However, the exact molecular mechanisms of action and the direct protein targets of celastrol in the treatment of liver fibrosis remain largely elusive. Here, we discover that celastrol exerts anti-fibrotic effects via promoting the production of reactive oxygen species (ROS) and inducing ferroptosis in activated hepatic stellate cells (HSCs). By using activity-based protein profiling (ABPP) in combination with bio-orthogonal click chemistry reaction and cellular thermal shift assay (CETSA), we show that celastrol directly binds to peroxiredoxins (PRDXs), including PRDX1, PRDX2, PRDX4 and PRDX6, through the active cysteine sites, and inhibits their anti-oxidant activities. Celastrol also targets to heme oxygenase 1 (HO-1) and upregulates its expression in activated-HSCs. Knockdown of PRDX1, PRDX2, PRDX4, PRDX6 or HO-1 in HSCs, to varying extent, elevated cellular ROS levels and induced ferroptosis. Taken together, our findings reveal the direct protein targets and molecular mechanisms via which celastrol ameliorates hepatic fibrosis, thus supporting the further development of celastrol as a promising therapeutic agent for liver fibrosis.