RESUMEN
Objective:To determine whether heat shock transcription factor 1 (HSF1) ameliorates sepsis induced acute lung injury (ALI) by regulating NOD-like receptor protein 3 (NLRP3) inflammasome activity in rat alveolar macrophages (AM).Methods:Twenty-four SPF Sprague-Dawley (SD) rats were divided into control group, lipopolysaccharide (LPS) group, overexpression empty vector+LPS group, and overexpression HSF1+LPS group by random number table method, with 6 rats in each group. The rat model of sepsis-induced ALI was reproduced by intraperitoneal injection of LPS (5 mg/kg); the rats in the control group were given the same volume of normal saline. The rats in the overexpression empty vector+LPS group and the overexpression HSF1+LPS group were instilled with 100 μL of overexpressed empty vector adenovirus or overexpressed HSF1 adenovirus through the trachea, respectively; the rats in the control group and LPS group were instilled with an equal volume of normal saline at the same time. At 6 hours after the model was reproduced, carotid blood was collected to determine the oxygenation index (PaO 2/FiO 2); lung tissue was obtained, and hematoxylin-eosin (HE) staining was performed to observe the pathological changes of lung tissue under a light microscope. Lung tissue wet/dry ratio (W/D) was determined. Immunohistochemistry was used to detect the positive expression of macrophage-specific marker antibody CD68. Western blotting was used to detect the protein expressions of HSF1 and NLRP3. Bronchoalveolar lavage fluid (BALF) was collected, and the levels of interleukins (IL-1β, IL-18) were detected by enzyme-linked immunosorbent assay (ELISA). In addition, BALF of normal rats was collected, and primary AM was isolated, cultured and divided into four groups. The AM in the blank control group was cultured normally without any treatment; the LPS group was treated with 1 mg/L LPS for 24 hours to reproduced the LPS stimulation model; AM in the overexpression empty vector+LPS group and the overexpression HSF1+LPS group were transfected with empty vector plasmid or overexpressed HSF1 plasmid, respectively, for 48 hours, and then the AM was treated with 1 mg/L LPS. The cell viability was detected by cell counting kit-8 (CCK-8). The protein expressions of HSF1 and NLRP3 in AM were detected by Western blotting. The levels of IL-1β and IL-18 in AM culture medium were determined by ELISA. Results:Compared with the control group, the rat lung structure in the LPS group was severely injured, the alveolar cavity and pulmonary interstitium were congested and edema, the alveolar walls were significantly thickened and ruptured, accompanied by a large number of inflammatory cells infiltration. The lung W/D ratio increased, the infiltration degree of macrophages increased, PaO 2/FiO 2 decreased, HSF1 protein expression decreased and NLRP3 protein expression increased in lung tissue and AM, and IL-1β and IL-18 levels in BALF and AM culture medium increased. Compared with the LPS group, the degree of lung injury in the overexpression HSF1+LPS group was significantly improved, the lung W/D ratio was significantly reduced (4.76±0.16 vs. 6.93±0.33, P < 0.05), the macrophage infiltration was reduced, PaO 2/FiO 2 increased significantly [mmHg (1 mmHg≈0.133 kPa): 397.62±19.46 vs. 280.12±37.42, P < 0.05], HSF1 protein expression was significantly up-regulated in lung tissue and AM (HSF1/GAPDH: 0.90±0.04 vs. 0.61±0.04 in lung tissue, 1.10±0.10 vs. 0.57±0.08 in AM, both P < 0.05), NLRP3 protein expression was significantly down-regulated (NLRP3/GAPDH: 0.75±0.14 vs. 1.05±0.11 in lung tissue, 0.81±0.09 vs. 1.14±0.17 in AM, both P < 0.05), and the contents of IL-1β and IL-18 in BALF and AM medium were significantly decreased [IL-1β (ng/L): 7.82±0.45 vs. 14.09±0.58 in BALF, 11.11±0.46 vs. 16.66±0.96 in AM; IL-18 (ng/L): 50.44±3.30 vs. 66.31±5.67 in BALF, 43.95±0.88 vs. 73.52±1.23 in AM, all P < 0.05]. There was no significant difference in the detection indicators between the overexpression empty vector+LPS group and the LPS group. Conclusion:HSF1 attenuates LPS-induced ALI in rats, and the mechanism may be related to the inhibition of NLRP3 inflammasome activation in AM.
RESUMEN
ABSTRACT:Objective To test the expressions of heat shock transcription factor 1 (HSF1 )and XIAP-associated factor 1 (XAF1 )in different endometrial tissues,and analyze the association between their expressions and the clinicopathological features of this malignancy.Methods The expressions of HSF1 and XAF1 in 64 cases of endometria1 carcinoma (EC group)and 33 cases of normal endometrial tissues (NE group)were detected with immunohistochemistry S-P method.The correlation was observed.Results The positive expression rate of HSF1 was much higher in EC group than in NE group (76.6% vs .36.4%,P <0.05).The positive rate of XAF1 was 31.2% in EC group and 72.7% in NE group (P <0.05).The positive expressions of HSF1 and different subgroups of histological grade,myometrial invasion and lymph node metastasis were significantly different (P <0.05)in EC group.The positive expressions of XAF1 and different subgroups of histological grade,myometrial invasion,clinical stage and lymph node metastasis were significantly different (P < 0.05 )in EC group.There was a negative correlation between HSF1 and XAF1 in EC group (P <0.05).Conclusion In EC group,the high expression of HSF1 may inhibit the growth of XAF1 expression,cause excessive growth of cancer cells,reduce the apoptosis of cancer cells,and finally lead to the further development of tumors.
RESUMEN
Objective:To explore the regulatory effect of Hsf 1 on PLC/PRF5 hepatoma cells proliferation.Methods: By shRNA gene silencing technology ,constructed PLC/PRF5 hepatoma cell line of Hsf 1 gene silencing.To detect the expression of Hsf 1, p53 and Rb proteins in PLC/PRF5 hepatoma cells by Western blot.The proliferation of PLC/PRF5 cell line was observed by methylthiazolyl tetrazolium assay ( MTT ) , plate clone formation assay ( PCFA ) and cell cycle assay.Results: shRNA-Hsf1 could significantly inhibit the expression of Hsf 1 in PLC/PRF5 cells.It could induce PLC/PRF5 cells stopping at G1 phase of cell cycle , inhibit cell proliferation and colonal formation;silencing Hsf1 caused up-regulation of p53 and Rb proteins expression in PLC/PRF5 cells.Conclusion: Silencing Hsf1 is involved in up-regulation of p53 and Rb proteins expression , which results in inhibiting proliferation of PLC/PRF5 hepatoma cells.
RESUMEN
ObjectiveTo investigate the expression and clinical significance of heat shock transcription factor 1 (HSF1) protein in human hepatocellular carcinoma (HCC) tissues,and deduce the probable molecular mechanism of HSF1 in the development and advancement of HCC.MethodsSixty-seven samples of HCC tissue and 21 samples of normal liver tissue were obtained from March 2006 to March 2007 at the Xijing Hospital.The expressions of HSF1 protein and heat shock protein 70 (HSP70) were detected by using immunohistochemistry.The probable molecular mechanism of HSF1 in the development and advancement of HCC was deduced according to the relationship between the expressions of HSF1 protein and HSP70.Positive rates of HSF1 protein in different tissues and the relationship between HSF1 protein expression in the HCC tissues and clinical pathological factors were analyzed by the chi-square test and by calculating Fisher exact probability,respectively.The correlation between the expressions of HSF1 protein and HSP70 in the HCC tissue was analyzed by the Spearman correlation coefficient.The survival curve was drawn by the Kaplan-Meier method,and the survival rate was analyzed by the Log-rank test.ResultsThe positive rates of HSF1 protein expression was 69% (46/67) in the HCC tissue,which was significantly higher than 29% (6/21) in the normal liver tissue ( x2 =10.628,P < 0.05 ),The positive rates of HSP70 expression in the HCC tissue was 57% (38/67),which was significantly higher than 24% (5/21) in the normal liver tissue ( x2 =6.929,P < 0.05 ).The expression of HSF1 protein in the HCC tissue was positively correlated with that of HSP70 (r=0.319,P <0.05).The high expression of HSF1 protein was correlated with the integrity of capsule of HCC,tumor differentiation and TNM stage (x2 =5.935,9.762,5.159,11.267,P<0.05 ),while the high expression of HSF1 protein was not correlated with the gender,age,levels of hepatitis B surface antigen and alpha fetoprotein,and portal vein tumor thrombus ( x2 =0.822,0.172,2.059,P >0.05 ).The survival time was (21.4 ± 1.9 )months for patients with positive HSF1 protein expression and (29.8 ± 2.7 ) months for patients with negative HSF1 protein expression.There was a significant difference in the survival time between patients with positive and negative HSF1 protein expression ( x2 =4.276,P < 0.05 ).Conclusions HSF1 is correlated with the development,advancement,invasion,metastasis and malignant prognosis of HCC.HSF1 takes effects by regulating the expression of HSP70,and it has a good perspective of clinical application for the diagnosis and treatment of HCC.
RESUMEN
Objective: To observe the effects of heat shock factor 1 (HSF1) polymerization on the LPS-induced febrile reaction in rabbits and study its relationship with cAMP content, so as to investigate whether HSF1 plays a role in the fever limiting function and the possible mechanisms. Methods: Seventy rabbits were randomly divided into 4 groups: (1) Normal control group(N), injection of ethanol in the lateral venericle; (2) Quercetin group(Q), injection of quercetin and ethanol solution (2.5 μmol/L); (3)Lipopolysaccharide group(L), LPS(0.5 μg/kg) was injected 10 min after injection of ethanol; (4) Quercetin plus LPS group(Q+L), LPS was injceted 10 min after injection of quercetin plus ethanol(2.5 μmol/L). The polymerization of HSF1 was induced by reproducing LPS-induced febrile reaction model in rabbits to assess the influence of polymerized HSF1 on LPS-induced febrile reaction. The content of cAMP in the hypothalamus was measured by radioimmunoassay. The expression of HSF1 and HSP70 protein in the hypothalamus was detected by Western blotting. Results: The difference between basal temperature and temperatures of defined time points ΔT (240-360 min) of Q+L group was significantly higher than that of L group (P<0. 05); TRI, was 8. 32±0. 63 in Q+L group, significantly higher than that of L group (P<0. 05); and the contents of cAMP of Q + L group at all time points were significantly higher than those of the L group (P< 0. 01). Polymeric HSF1 content started to increase at 60 min after LPS injection and obviously increased when the body temperature reached the peak (180 min, being 1. 77 folds that of the control level); then with the increase of HSF1 trimerization, the body temperature began to decrease. When pretreatment with quercetin was performed to inhibit polymerization of HSF, the levels of HSF1 trimerization at 60 min,180 min,240 min,and 360 min in Q+L group were significantly lower than those in the corresponding L group (all P<0. 05); meanwhile, the expression of HSP70 was decreased, the content of cAMP was increased, the febrile reaction was intensified and the time course of the febrile reaction was extended. Conclusion: Polymeric HSF1 can inhibit the LPS-induced febrile reaction, which is probably related to the down-regulation of AMP content in the hypothalamus.