Objective To isolate and extract effective antiendotoxin materials from Radix Paeoniae Rubra.Methods By the biosensor technology,effective antiendotoxin materials were isolated and extracted with general separation technology for Chinese traditional medicine.By ELISA mensuration for LPS and inhibition of TNF-? release from endotoxin-stimulated cells in vitro,the antiendotoxin activity of Radix Paeoniae Rubra was elucidated.Results The materials extracted had high binding capability to LPS and inhibitory effect on TNF-? release from endotoxin-stimulated cells in vitro.Conclusion Isolated and extracted effective antiendotoxin materials targeting LPS by the biosensor technology were valuable in searching antiendotoxin agents from Radix Paeoniae Rubra.The ability of Radix Paeoniae Rubra to neutralize LPS was assayed and proved very high.

Objective To investigate association of the ER22/23EK polymorphism of the glucocorticoid receptor gene(GR) with natural longevity in the XinJiang Uygur nationality people and the race difference.Methods One hundred and nintyone healthy individuals over 90 years old from Uighur people were recruited as the longevity group at the same time,82 Han nationality people aged between 65～70 who immigrated in Xinjiang Hetian for more than 30 years were randomly selected and investigated.Genotyping was performed by PCR-SSP,PCR-RELP and PCR-sequencing.ResultsThe frequencies of ER22/23EK alleles and genotypes showed no significant difference between the longevity group and the controls in Uygur,but the carriers of ER22/23EK of GR gene in Xinjiang Han old folkswere significantly more than those in Uygurs,the frequencies of WM, MM genotypes and M allele were significantly higher in Han nationality,while the frequencies of WW genotype and W allele were significant lower.Conclusion There is possibly no association between ER22/23EK polymorphism and XinJiang Uygur natural longevity,but there are significant differences between the two ethnic groups.

Sustained activation of sympathetic nervous system in response to stimulation of a wide variety of stress factors is an independent risk factor for the development of essential hypertension. Adrenal hormone biosynthesis pathway as an important part of the sympathetic nervous system consists of hormones, neurotransmitters, receptors, and a variety of synthases and invertases. In this article, we have systematically reviewed research progresses made in elucidating the interactions between genes of the adrenal hormone biosynthesis pathway and stress factors in the pathogenesis of essential hypertension.
Animals ; Hormones ; metabolism ; Humans ; Hypertension ; genetics ; metabolism ; pathology ; Sympathetic Nervous System ; metabolism ; pathology

Irritable bowel syndrome (IBS) is a functional gastrointestinal disorder that is characterized by abdominal pain and disordered bowel habits. The etiology of IBS is multifactorial, including abnormal gut-brain interactions, visceral hypersensitivity, altered colon motility, and psychological factors. Recent studies have shown that the intestinal microbiota and its metabolites short chain fatty acids (SCFAs) may be involved in the pathogenesis of IBS. SCFAs play an important role in the pathophysiology of IBS. We discuss the underlying mechanisms of action of SCFAs in intestinal inflammation and immunity, intestinal barrier integrity, motility, and the microbiota-gutbrain axis. Limited to previous studies, further studies are required to investigate the mechanisms of action of SCFAs in IBS and provide more precise therapeutic strategies for IBS.

Objective To explore the construction method and physicochemical properties of disulfide?bonded hyaluronic acid?functionalized sodium?meter probe for hepatocellular carcinoma, and its biological evaluation in vitro and feasibility of MRI. Methods Synthesis of hyaluronic acid?disulfide?bonded?poly ε?caprolactone (HA?SS?PCL) by disulfide?bonded alkynyl?terminated polycaprolacton (alkyne?SS?PCL) and azido?terminated hyaluronic acid (HA?N3) by clicking chemical reaction, then doxorubicin (DOX) and superparamagnetic iron oxide (SPIO) were encapsulated in HA?SS?PCL core by dialysis method.HA?SS?PCL@DOX/SPIO was prepared and its particle size,DOX and SPIO loading rate were measured. With PBS as control group, the safety of HA?SS?PCL on human hepatocellular carcinoma cells HepG2 and normal liver cells LO2 was evaluated by the methylthiazolyl tetrazolium (MTT) assay, and the cytotoxicity of HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO on human hepatocellular carcinoma cells HepG2 was evaluated. Immunofluorescence and flow cytometry were used to observe the expression of CD44 receptor on the surface of HepG2 cells in HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO groups. Through in vitro MRI, PBS was used as the control group to observe the changes of T2 signal intensity of HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO groups when SPIO concentration was 10, 20, 40, 80 μg / ml. One way ANOVA test and t test were used. Results HA?SS?PCL@DOX / SPIO sodium?meter probes were successfully constructed. The particle size of HA?SS?PCL@DOX/SPIO was (126.9±6.3) nm,and they were spherical with uniform size. The loading rates of DOX and SPIO were 61.4% and 58.7%. MTT assay showed that the survival rate of HepG2 and LO2 cells was more than 80% even at 500 μg/ml of HA?SS?PCL, 66.6% in HA?PCL@DOX/SPIO group and 55.2% in HA?SS?PCL@DOX/SPIO group. Immunofluorescence and flow cytometry showed that HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO groups all have strong fluorescence, and the latter has stronger fluorescence intensity the former fluorescence intensity was 139.70±8.52,less than the latter 245.06±13.21. In vitro MRI showed that the T2 signal intensity of HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO was significantly lower than that of the control group (F values were 613.591 and 569.234,P=0.000), the latter decline rate was more significant. Conclusion The disulfide?bonded hyaluronic acid?functionalized sodium?meter probe for hepatocellular carcinoma has excellent physicochemical properties, good targeting and MRI functions on human hepatoma cell HepG2 at the cellular level in vitro.

Objective To preliminarily explore the anti?cancer efficiency of disulfide?bonded hyaluronic acid?functionalized targeted sodium?meter probe for hepatocellular carcinoma and the feasibility of MRI. Methods Twenty?one nude mice models of subcutaneous liver cancer transplantation were randomly divided into saline, hyaluronic acid?poly ε?caprolactone@ doxorubicin/superparamagnetic iron oxide (HA?PCL@DOX/SPIO) and HA?disulfide?bonded?PCL@DOX/SPIO (HA?SS?PCL@DOX/SPIO) groups, with 7 mice in each group. The experimental groups were injected with micelles at a dose of Fe 5 mg/kg through the tail vein, and the control group was injected with the same amount of saline via the tail vein. MRI was performed before and after injection (2 h, 4 h, 8 h). The T2 value of the region of interest (tumor) was measured and its decline rate was calculated. Twenty?one nude mice models of orthotopic liver cancer transplantation were randomly divided into saline group,HA?PCL@DOX/SPIO and HA?SS?PCL@DOX/SPIO groups, with 7 mice in each group. The experimental groups were injected with micelles at a dose of DOX 2 mg/kg through the tail vein by three consecutive times a day apart, and the control group was injected with the same amount of saline through the tail vein. Continuous observation for 15 days to calculate tumor inhibition rate. One way ANOVA test was used. Results The T2 value of HA?SS?PCL@DOX/SPIO group decreased significantly after 2, 4 and 8 hours (P<0.05) than initial time, which was distinct compared with HA?PCL@DOX/SPIO group. The growth rate of tumor in HA?SS?PCL@DOX/SPIO and HA?PCL@DOX/SPIO groups was significantly lower than that in the control group (F=21.513,P<0.05). The former had the most obvious inhibitory effect on orthotopic liver cancer (47.7% and 28.2%). Conclusion Disulfide?bonded hyaluronic acid?functionalized targeted sodium?meter probe for hepatocellular carcinoma(HA?SS?PCL@DOX/SPIO) has high anti?cancer efficiency and imaging function at the animal level in vivo, and can be used to monitor the early therapeutic effect of tumor at the molecular imaging level.

AIM:To investigate the expression of centromere protein-H(CENP-H)in adrenocortical carcino-ma(ACC)and its relationship with disease progression and prognosis,and to explore the impact of CENP-H gene knock-down on the viability and migration of ACC cells.METHODS:The mRNA expression level of CENP-H in 76 ACC pa-tients and 128 healthy controls,and its correlations with tumor stages and prognosis were analyzed by GEPIA2 database.The mRNA expression of CENP-H in different stages of ACC and its correlation with disease prognosis were further ana-lyzed by ULCAN database.The protein expression of CENP-H was examined by immunohistochemical staining of paraffin-embedded ACC and normal adrenal gland specimens.Knockdown of CENP-H by siRNA(siCENP-H)was performed in human ACC cell line H295R.The viabilty of H295R cells transfected with siCENP-H or siNC was measured by CCK-8 as-say,the cell migration was detected by wound-healing assay,and the protein levels of CENP-H,p-ERK1/2,t-ERK1/2,p-P38,t-P38,p-JNK1/2 and t-JNK1/2 were detected by Western blot.RESULTS:The mRNA level of CENP-H was signifi-cantly higher in ACC than that in normal controls,and was correlated with tumor stages and prognosis.The protein level of CENP-H was significantly higher in ACC specimens than that in normal adrenal gland.Knockdown of CENP-H in H295R cells resulted in decreased cell viability and migration.The protein levels of p-P38 and p-JNK1/2 were decreased in si-CENP-H group.CONCLUSION:CENP-H is highly expressed in ACC,and is correlated with tumor stages and poor prognosis.Knockdown of CENP-H can inhibit the viability and migration of ACC cells,and its mechanism may related to inactivation of P38 and JNK signaling pathways.

Oncogenic microRNAs are essential components in regulating the gene expression of cancer cells. Especially miR21, which is a major player involved of tumor initiation, progression, invasion and metastasis in several cancers. The delivery of anti-miR21 sequences has significant potential for cancer treatment. Nevertheless, since anti-miR21 sequences are extremely unstable and they need to obtain certain concentration to function, it is intensely difficult to build an effective delivery system for them. The purpose of this work is to construct a self-assembled glutathione (GSH)-responsive system with tumor accumulation capacity for effective anti-miR21 delivery and cancer therapy. A novel drug delivery nanosphere carrying millions of anti-miR21 sequences was developed through the rolling circle transcription (RCT) method. GSH-responsive cationic polymer polyethyleneimine (pOEI) was synthesized to protect the nanosphere from degradation by Dicer or other RNase in normal cells and optimize the pompon-like nanoparticle to suitable size. Dehydroascorbic acid (DHA), a targeting molecule, which is a substrate of glucose transporter 1 (GLUT 1) and highly expressed on malignant tumor cells, was connected to pOEI through PEG, and then the polymer was used for contracting a RNA nanospheres into nanopompons. The anti-miR21 nanopompons showed its potential for effective cancer therapy.

Pancreatic ductal adenocarcinoma (PDAC) is one of the most intractable malignancy, with an only 6% 5-year relative survival rate. The dismal therapeutic effect is attributed to the chemotherapy resistance and unique pathophysiology with abundant inflammatory cytokines and abnormal hyperplasia of extracellular matrix (ECM). Based on the theory that bone marrow mesenchymal stem cells (BM-MSCs) can influence the tumorous microenvironment and malignant growth of PDAC, we employed exosomes (Exos) derived from BM-MSCs as PDAC-homing vehicles to surpass the restrictions of pathological ECM and increase the accumulation of therapeutics in tumor site. To overcome chemoresistance of PDAC, paclitaxel (PTX) and gemcitabine monophosphate (GEMP)-an intermediate product of gemcitabine metabolism-were loaded in/on the purified Exos. In this work, the Exo delivery platform showed superiorities in homing and penetrating abilities, which were performed on tumor spheroids and PDAC orthotopic models. Meanwhile, the favorable anti-tumor efficacy and , plus relatively mild systemic toxicity, was found. Loading GEMP and PTX, benefitting from the naturally PDAC selectivity, the Exo platform we constructed performs combined functions on excellent penetrating, anti-matrix and overcoming chemoresistance (Scheme 1). Worth expectantly, the Exo platform may provide a prospective approach for targeted therapies of PDAC.