OBJECTIVE To explore the potential mechanisms of forkhead box protein A1(FOXA1)in benzo[a]pyrene(BaP)-induced carcinogenesis by investigating the effect of FOXA1 by knockout on microRNA(miRNA)expression profiles in BaP malignant transformed cells THBEc1 and establishing regulatory networks between FOXA1,miRNA and their target genes.METHODS FOXA1 knockout THBEc1 cells THBEc1-ΔFOXA1-c34 and control cells THBEc1-ctrl were used as study models.Western blotting was employed to determine FOXA1 protein expression levels.Next-generation sequencing(NGS)tech-nology was used to identify differentially expressed miRNAs between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl cells,with subsequent validation by RT-qPCR.Five databases(ENCORI,miRDB,mirDIP,miRWalk and TargetScan 8.0)were used in conjunction with NGS results of mRNA between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl to predict different expressed genes(DEGs)regulated by the identified differentially expressed miRNAs.GO and KEGG enrichment analyses were conducted on the DEGs using the DAVID database.Interaction network analysis of the proteins encoded by the DEGs was performed using STRING 12.0 and Cytoscape 3.10.2 software.RESULTS No FOXA1 expression was detected in THBEc1-ΔFOXA1-c34 cells.A differential analysis of miRNA expressions revealed 33 miRNAs with a fold change of＞2 or＜0.5 and a false discovery rate of＜0.05 between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl cells,13 of which were down-regulated and 20 were up-regulated in THBEc1-ΔFOXA1-c34 cells.A regulatory network was formed by 11 down-regulated miRNAs and 32 up-regulated mRNAs,while a second network included 16 up-regulated miRNAs and 56 down-regulated mRNAs.The 27 differentially expressed miRNAs participated in various biological processes through the regulation of 88 DEGs,primarily associated with cell growth,proliferation,migration,apoptosis,angiogenesis,epithe-lial-mesenchymal transition,and signal transduction(TGF-β,Hippo,NF-kappa B and MAPK pathways).CONCLUSION The miRNA expression profile in BaP-malignant transformed THBEc1 cells is altered following FOXA1 knockout that may disrupt TGF-β and MAPK signaling pathways by changing miRNA expression levels,thereby inhibiting cell proliferation and migration.

OBJECTIVE To establish an in vitro simulated one compartment extravascular adminis-tration model with lanthanum nitrate as the test substance,and explore the differences between this model and the classic in vitro administration model in lanthanum nitrate induced HepG2 cell death.METHODS An in vitro administration device was designed based on compartment model theories which consisted of four functional chambers:the liquid storage chamber,mixing chamber,toxicant exposure chamber,and waste liquid receiving chamber.The four chambers were connected by peristaltic pump hoses.The peristaltic pumps were employed to ensure unidirectional and constant speed trans-mission of liquid between these chambers.According to the preset toxicokinetic parameters such as T1/2a and T1/2,an in vitro simulated one compartment extravascular administration model of lanthanum nitrate was constructed using the device.The content of lanthanum nitrate in the toxicant exposure chamber at different time points was measured using inductively coupled plasma mass spectrometry.The concentration-time curves of lanthanum nitrate were analyzed using PKsolver and GraphPad Prism 8.0 software.The constructed in vitro simulated one compartment extravascular administration model was evaluated by comparing the measured and theoretical values of toxicokinetic parameters.HepG2 cells were treated with lanthanum nitrate in the in vitro simulated one compartment extravascular administration model and classic in vitro administration model,respectively,and cell death was measured using the Hoechst 33342/propidium iodide staining method.RESULTS Within the Cmax range of 3.91-1 000.00 μmol·L-1,the measured concentration-time curves of lanthanum nitrate in the toxicant expo-sure chamber almost conformed with the corresponding calculated theoretical curves(the correlation coefficients were all>0.998 0).The measured values of toxicokinetic parameters,including Ke,T1/2,Ka,T1/2a,Tmax,Cmax,CL and AUC0-∞,were close to the corresponding theoretical values.The fitting coeffi-cients(R2)of the concentration-time curves for each experimental group were all>0.990 0,which was consistent with one compartment model for extravascular administration.In the simulated one compart-ment extravascular administration model,no significant death of HepG2 cells was observed in any lanthanum nitrate dose group.In the classic in vitro administration model,the cell death rate of the 0.500 mmol·L-1 lanthanum nitrate group was higher than that of the solvent control group,but no significant cell death was observed in the 0.119 mmol·L-1 group or 0.243 mmol·L-1 group.When Cmax or Cadministration was 0.500 mmol·L-1,classic in vitro administration induced a higher cell death rate than simulated one compart-ment extravascular administration.However,there was no statistically significant difference in lanthanum nitrate induced HepG2 cell death between the two administration models when the AUC was equal.CONCLUSION The device designed in this study can be used to in vitro simulate one compartment extravascular administration,making in vitro toxicity testing more similar to in vivo scenarios,and providing data for optimizing administration methods of in vitro toxicity testing.There are differences in lanthanum nitrate induced HepG2 cell death between simulated one compartment extravascular administration and classic in vitro administration,indicating that different in vitro exposure modes can affect toxicity.

OBJECTIVE To explore the potential mechanisms of forkhead box protein A1(FOXA1)in benzo[a]pyrene(BaP)-induced carcinogenesis by investigating the effect of FOXA1 by knockout on microRNA(miRNA)expression profiles in BaP malignant transformed cells THBEc1 and establishing regulatory networks between FOXA1,miRNA and their target genes.METHODS FOXA1 knockout THBEc1 cells THBEc1-ΔFOXA1-c34 and control cells THBEc1-ctrl were used as study models.Western blotting was employed to determine FOXA1 protein expression levels.Next-generation sequencing(NGS)tech-nology was used to identify differentially expressed miRNAs between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl cells,with subsequent validation by RT-qPCR.Five databases(ENCORI,miRDB,mirDIP,miRWalk and TargetScan 8.0)were used in conjunction with NGS results of mRNA between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl to predict different expressed genes(DEGs)regulated by the identified differentially expressed miRNAs.GO and KEGG enrichment analyses were conducted on the DEGs using the DAVID database.Interaction network analysis of the proteins encoded by the DEGs was performed using STRING 12.0 and Cytoscape 3.10.2 software.RESULTS No FOXA1 expression was detected in THBEc1-ΔFOXA1-c34 cells.A differential analysis of miRNA expressions revealed 33 miRNAs with a fold change of＞2 or＜0.5 and a false discovery rate of＜0.05 between THBEc1-ΔFOXA1-c34 and THBEc1-ctrl cells,13 of which were down-regulated and 20 were up-regulated in THBEc1-ΔFOXA1-c34 cells.A regulatory network was formed by 11 down-regulated miRNAs and 32 up-regulated mRNAs,while a second network included 16 up-regulated miRNAs and 56 down-regulated mRNAs.The 27 differentially expressed miRNAs participated in various biological processes through the regulation of 88 DEGs,primarily associated with cell growth,proliferation,migration,apoptosis,angiogenesis,epithe-lial-mesenchymal transition,and signal transduction(TGF-β,Hippo,NF-kappa B and MAPK pathways).CONCLUSION The miRNA expression profile in BaP-malignant transformed THBEc1 cells is altered following FOXA1 knockout that may disrupt TGF-β and MAPK signaling pathways by changing miRNA expression levels,thereby inhibiting cell proliferation and migration.

OBJECTIVE To establish an in vitro simulated one compartment extravascular adminis-tration model with lanthanum nitrate as the test substance,and explore the differences between this model and the classic in vitro administration model in lanthanum nitrate induced HepG2 cell death.METHODS An in vitro administration device was designed based on compartment model theories which consisted of four functional chambers:the liquid storage chamber,mixing chamber,toxicant exposure chamber,and waste liquid receiving chamber.The four chambers were connected by peristaltic pump hoses.The peristaltic pumps were employed to ensure unidirectional and constant speed trans-mission of liquid between these chambers.According to the preset toxicokinetic parameters such as T1/2a and T1/2,an in vitro simulated one compartment extravascular administration model of lanthanum nitrate was constructed using the device.The content of lanthanum nitrate in the toxicant exposure chamber at different time points was measured using inductively coupled plasma mass spectrometry.The concentration-time curves of lanthanum nitrate were analyzed using PKsolver and GraphPad Prism 8.0 software.The constructed in vitro simulated one compartment extravascular administration model was evaluated by comparing the measured and theoretical values of toxicokinetic parameters.HepG2 cells were treated with lanthanum nitrate in the in vitro simulated one compartment extravascular administration model and classic in vitro administration model,respectively,and cell death was measured using the Hoechst 33342/propidium iodide staining method.RESULTS Within the Cmax range of 3.91-1 000.00 μmol·L-1,the measured concentration-time curves of lanthanum nitrate in the toxicant expo-sure chamber almost conformed with the corresponding calculated theoretical curves(the correlation coefficients were all>0.998 0).The measured values of toxicokinetic parameters,including Ke,T1/2,Ka,T1/2a,Tmax,Cmax,CL and AUC0-∞,were close to the corresponding theoretical values.The fitting coeffi-cients(R2)of the concentration-time curves for each experimental group were all>0.990 0,which was consistent with one compartment model for extravascular administration.In the simulated one compart-ment extravascular administration model,no significant death of HepG2 cells was observed in any lanthanum nitrate dose group.In the classic in vitro administration model,the cell death rate of the 0.500 mmol·L-1 lanthanum nitrate group was higher than that of the solvent control group,but no significant cell death was observed in the 0.119 mmol·L-1 group or 0.243 mmol·L-1 group.When Cmax or Cadministration was 0.500 mmol·L-1,classic in vitro administration induced a higher cell death rate than simulated one compart-ment extravascular administration.However,there was no statistically significant difference in lanthanum nitrate induced HepG2 cell death between the two administration models when the AUC was equal.CONCLUSION The device designed in this study can be used to in vitro simulate one compartment extravascular administration,making in vitro toxicity testing more similar to in vivo scenarios,and providing data for optimizing administration methods of in vitro toxicity testing.There are differences in lanthanum nitrate induced HepG2 cell death between simulated one compartment extravascular administration and classic in vitro administration,indicating that different in vitro exposure modes can affect toxicity.

OBJECTIVE To assess the profiles of elements in benzo[a]pyrene(BaP)induced carci-nogenesis,and explore the joint effects of copper with cisplatin or vinorelbine on cell proliferation.METHODS Forty-four elements were measured using an inductively coupled plasma mass spectrometer in 16HBE cells and BaP malignantly transformed 16HBE(T-16HBE-C1)cells.Partial least square was used to validate the robustness of cell classification of elements.Cell viability was measured by MTT assay for copper(0,237,340,487,1000 and 1432 μmol·L-1),cisplatin(0,4.4,6.1,8.6,12.0 and 16.8 μmol·L-1),and vinorelbine(0,3.8,9.8,25.0,40.0 and 64.0 μmol·L-1)to acquire their half maximal inhibitory concentra-tion(IC50).Mixtures of copper and chemotherapeutics were prepared according to the ratio of each IC50.Their joint effects on cell viability were assessed by MTT assay and isobolographic analysis.Inhibition effect of copper(0,50,100,200,400 and 800 μmol·L-1)with IC50 of cisplatin or vinorelbine on prolifera-tion of T-16HBE-C1 cells was also assessed.RESULTS A total of 29 elements were quantified in 16HBE and T-16HBE-C1 cells,among which concentrations of copper,zinc,silver,selenium and rubidium decreased(P<0.05,P<0.01),while those of molybdenum,arsenic,lithium,germanium,strontium,nickel,lanthanum,mercury,iron,and cesium increased(P<0.05,P<0.01)in T-16HBE-C1 cells.Element concen-tration could be used to distinguish T-16HBE-C1 cells from 16HBE cells.Copper concentration-dependently inhibited proliferation of both cells,with a statistically significant lower IC50 of(613±16)μmol·L-1 in 16HBE cells than(776±15)μmol·L-1 in T-16HBE-C1 cells(P<0.01).Mixtures of copper and cisplatin(1∶69.5)or vinorelbine(1∶33.4)could inhibit cell proliferation,and copper had additive effects with cisplatin or vinorelbine.When copper concentration was higher than 400 μmol·L-1,copper combined with IC50 of cisplatin or vinorelbine inhibited cell proliferation of T-16HBE-C1 cells compared with IC50 of cisplatin(11.2 μmol·L-1)or vinorelbine(23.2 μmol·L-1)alone.CONCLUSION Element profiles and correlations can change significantly after 16HBE cells are malignantly transformed by BaP.Copper could inhibit the proliferation of T-16HBE-C1 cells and have additive effects with cisplatin or vinorelbine in higher concentration.

Objective: To investigate the role of lysosomes in manganese-induced toxicity in human neuroblastoma SK-N-SH cells. Methods: SK-N-SH cells were treated with MnCl₂ at doses of 0.062 5, 0.125, 0.25, 0.5, 1.0, 2.0 and 4.0 mmol/L for 24 h, and the cell viability was detected by MTT assay. Cells were treated with MnCl₂ at doses of 0.125, 0.25, 0.5 and 1.0mmol/L for 24 h, and lysosomes labeled with lysotracker red were observed by laser confocal microscopy, the expression levels of LAMP1 and CTSD were detected by western blot, and CTSD activity was detected by Cathepsin D Activity Fluorometric Assay Kit. Results: Compared with the control group, the survival rates of SK-N-SH cells were decreased significantly in the 0.5-4.0 mmol/L MnCl₂ treatment groups (P<0.01) , the relative fluorescence intensities of 0.5 and 1.0 mmol/L MnCl₂ treatment groups were increased (P<0.01) . Compared with the control group, the 0.125-0.5 mmol/L MnCl₂ treatment groups had significant increase in the the expression of LAMP1 (P<0.01) . Compared with the control group, the expression of m-CTSD was significantly increased at the does of 0.125-0.25 mmol/L MnCl₂, while it was decreased at the does of 1.0 mmol/L (P<0.01) . Otherwise, it wasn’t observed significant difference of the activity of CTSD between different MnCl₂ treatment groups. Conclusion MnCl₂ could cause cytotoxicity in SK-N-SH cells. Lysosomes may play a normal function at low doses of manganese, but they may be damaged at high doses of manganese. As an organelle that can degradate substrates in autophagy, lysosomes participate in the neurotoxic mechanism of manganese.

Objective: To investigate the effect of manganese chloride (MnCl₂) or 1-methyl-4-phenyl-1, 2, 3, 6-tetrahydropyridine (MPTP) on the neurobehavioral and histopathology in C57BL/6 mice and provide evidence for the diagnosis, treatment and prevention of manganism. Methods: Adult male C57BL/6 mice were treated with MnCl₂ and MPTP respectively by intraperitoneal injection at the doses of 5, 10, 20mg Mn/kg and 30mg MPTP/kg. Controls were injected equivalent normal saline. All animals were administrated 5 times a week for 4 consecutive weeks and sacrificed after behavior tests on the fifth week. Balance ability, anxiety and depression level and cognitive function were tested respectively by vertical pole test, open field locomotion test and Morris swim task. The neuron pathological changes of striatum and substantia nigra were examined through HE-staining pathological section by using optical microscope. Results: Compared with the control group, the high dose of MnCl₂ reduced body weight obviously (P<0.01) . The results of vertical pole test showed that MnCl₂ and MPTP lengthened the pole-climbing time and turnaround time. Open field locomotion test showed that movement distance, stand-up time and central field time were decreased after the exposure of MnCl₂ or MPTP. In the Morris swim task, the escape latency time increased and the target quadrant activity time decreased significantly after the injection of MPTP as well as high-dose MnCl₂, comparing with controls (P<0.05) . Moreover, the escape latency time of high dose MnCl₂ prolonged prominently comparing with MPTP grou (P<0.05) . The results of histopathology showed that acidophilic changes elevated in MnCl₂ and MPTP group, comparing with controls. Furthermore, in striatum the oxyphil cells number increased in MnCl₂ high-dose group comparing with MPTP group (P<0.01) . On the contrary, there were more oxyphil cells in MPTP group comparing with MnCl₂ groups in substantia nigra (P<0.01) . Conclusion Both manganese and MPTP can induce the impairment of dopaminergic neural system, but the symptons and injured location of manganism are inconsistent with PD models induced by MPTP.

Objective: To investigate the effect of manganese chloride (MnCl₂) or 1-methyl-4-phenylpyridinium (MPP ⁺) on oxidative stress and autophagy in human neuroblastomaSK-N-SH cells and the mechanism of the neurotoxicity of manganese. Methods: SK-N-SH cells were treated with MnCl₂ or MPP⁺ at doses of 0.062 5, 0.125, 0.25, 0.5, 1.0, and 2.0 mmol/L for 24 hours, and MTT assay was used to measure cell viability. The cells weretreated with MnCl₂ or MPP⁺ at doses of 0.125, 0.25, and 0.5 mmol/L for 24 hours, and flow cytometry was used to measure the content of reactive oxygen species (ROS) in cells, a laser scanning confocal microscope was used to observe autophagosome in cells, and Western blot was used to measure the expression of autophagy-related proteins P62 and LC3-II/LC3-I. Results: Compared with the control group, the 0.0625-2.0 mmol/L MnCl₂ and 0.125-2.0 mmol/L MPP ⁺ treatment groups had significant reductions in the viability of SK-N-SH cells, and the 0.25-2.0 mmol/L MnCl₂ treatment groups had significantly lower viability than the groups treated with the same doses of MPP⁺ (all P<0.05) . Compared with the control group, the 0.125-0.25 mmol/L MnCl₂ and 0.125-0.5 mmol/L MPP⁺ treatment groups had significant increases in the content of ROS, and the 0.25-0.5 mmol/L MPP⁺ treatment groups had significantly higher content of ROS than the groups treated with the same doses of MnCl₂ (all P<0.05) . Compared with the control group, the 0.25-0.5 mmol/L MnCl₂ andMPP⁺ treatment groups had significant increases in autophagy-related proteins LC3-II/LC3-I and significant reductions in P62 expression; the 0.125-0.5 mmol/L MPP⁺ treatment groups had significantly higher LC3-II/LC3-I than the groups treated with the same doses of MnCl₂, and the 0.125 and 0.25 mmol/L MPP ⁺ treatment groups had significantly lower P62 expression than the groups treated with the same doses of MnCl₂ (all P<0.05) . Conclusion Both MnCl₂ and MPP⁺ can induce oxidative stress and autophagy in SK-N-SH cells, and MPP⁺ has a significantly greater inductive effect on autophagy of SK-N-SH cells than MnCl₂.

OBJECTIVE To investigate the nuclear proteomes in mitochondrial DNA (mtDNA)-depleted A549 cells (Rho0 cells) and their parental cells (Rho+ cells),and to learn more about the nuclear responses to mitochondrial dysfunction.METHODS The nuclear proteomes of Rho and Rho + cells were characterized by two dimensional electrophoresis (2-DE) and SELDI-TOF ProteinChip technologies,the differentially expressed protein- spots were identified by MALDI-TOF mass spectrum (MS),the nucleophosmin and P53 expression were detected by Western blotting assay,and the mitochondrial memhrane potential (MMP) was measured by the laser scanning confocal microscope.RESULTS 2-DE results showed 11 protein-spots were down-regulated and 21 protein-spots were up-regulated in Rho0 cell nuclei.SELDI-TOF MS analysis with NP20 ProteinChips revealed 4 protein-peaks decreased in Rho0 cell nuclei.One down-regulated protein-spot was identified as elF-6,and 4 up-regulated proteinspots were identified as nucleophosmin,SFRS1,SFRS3 and hnRNP G,respectively.The increased expression of nucleophosmin in Rho0 cells was verified by Western blotting.Based on the clues from proteomic analysis,P53 expression in Rho0 cells was higher than in Rho + cells,and MMP was consistent in Rho + and Rho0 cells.CONCLUSION mtDNA-depletion induces nuclear proteome alteration.Rho0 cells can be used as a model to study the crosstalk between mitochondrion and nucleus.