The aim of this study is to investigate whether β-hydroxybutyrate(BHB)impaired the mitochondrial function of dairy cow monocytes through the peroxisome proliferator-activated re-ceptor γ coactivator 1 alpha(PGC-1α)signaling pathway.According to the clinical symptoms and the concentration of BHB in whole blood,the tail vein blood of 12 healthy cows(BHB＜1.2 mmol/L)and 12 clinical ketotic cows(CK,BHB＞3.0 mmol/L)was collected.In vivo,after isolation and purification of CD14+monocytes,the intracellular mitochondrial membrane potential was detected by flow cytometry.The protein abundance of oxidative phosphorylation complex cytochrome c oxi-dase subunit Ⅰ(CO Ⅰ),CO Ⅱ,CO Ⅲ,COⅣ,CO Ⅴ,PGC-1 α,mitochondrial transcription factor A(TFAM)and nuclear respiratory factor 1(NFR1)were determined by Western blot.In vitro,CD14+monocytes were co-cultured with 3.0 mmol/L BHB for 0,6,12,24 h.Flow cytometry was applied for intracellular mitochondrial membrane potential detection,and determination the protein abundance of PGC-1α,TFAM and NFR1 by Western blot.The results showed that compared with control group,the mitochondrial membrane potential in CD14+monocytes of ketotic cows was sig-nificantly increased,and the protein abundance of CO Ⅰ,CO Ⅱ,CO Ⅲ,CO Ⅳ,CO Ⅴ PGC-1α,TFAM,and NRF1 in CD14+monocytes of ketotic cows were significantly decreased.Compared with 0 h,the mitochondrial membrane potential of CD14+monocytes was significantly increased after BHB treatment for 6,12,24 h,and the protein abundance of PGC-1α,TFAM and NRF1 were significantly decreased.The results indicated that BHB induced mitochondrial dysfunction in CD14+monocytes of ketotic cows by inhibiting PGC-1α signaling pathway.Therefore,the PGC-1αsignaling pathway may be a preventive and therapeutic target to the mitochondrial dysfunction of monocytes in ketotic cows caused by BHB.

The aim of this study was to investigate whether β-hydroxybutyric acid(BHB)inhibits the phagocytic function of CD14+monocytes in dairy cows through the ROS(reactive oxygen spe-cies)-NLRP3(NOD-like receptor thermal protein domain associated protein 3)pathway.CD14+monocytes in the blood of postpartum healthy cows were extracted,and 3 mmol/L BHB was added after transfection of small interfering RNA targeting NLRP3(si-NLRP3).Monocytes were pre-treated with 10 nmol/L NLRP3 inhibitor MCC950(CP-456773)or 10 mmol/L ROS scavenger N-acetyl cysteine(NAC),and then was treated with 3 mmol/L BHB for 24 h.The protein abundance of NLRP3 was detected by Western blot and the phagocytosis of monocytes was determined by flow cytometry and immunofluorescence.The results showed that compared with the si-Control+BHB group,the phagocytic function of monocytes in the si-NLRP3+BHB treatment group was significantly increased,while the protein abundance of NLRP3 was significantly decreased.Com-pared with DMSO+BHB group,the phagocytic function of monocytes in MCC950+BHB group was significantly increased.In addition,compared with DMSO+BHB group,the protein abundance of NLRP3 in monocytes was significantly decreased in MCC950+BHB group.Compared with the PBS+BHB group,the phagocytosis of monocytes was significantly increased after the addition of ROS scavenger NAC,while the protein abundance of NLRP3 was significantly decreased.These results indicated that BHB inhibited the phagocytosis of CD14+monocytes in cows via the ROS-NLRP3 pathway.Therefore,regulating the activation of NLRP3 inflammasome may be an effective method to improve the decrease of monocyte phagocytosis in perinatal dairy cows.

The aim of this study is to investigate whether β-hydroxybutyrate(BHB)impaired the mitochondrial function of dairy cow monocytes through the peroxisome proliferator-activated re-ceptor γ coactivator 1 alpha(PGC-1α)signaling pathway.According to the clinical symptoms and the concentration of BHB in whole blood,the tail vein blood of 12 healthy cows(BHB＜1.2 mmol/L)and 12 clinical ketotic cows(CK,BHB＞3.0 mmol/L)was collected.In vivo,after isolation and purification of CD14+monocytes,the intracellular mitochondrial membrane potential was detected by flow cytometry.The protein abundance of oxidative phosphorylation complex cytochrome c oxi-dase subunit Ⅰ(CO Ⅰ),CO Ⅱ,CO Ⅲ,COⅣ,CO Ⅴ,PGC-1 α,mitochondrial transcription factor A(TFAM)and nuclear respiratory factor 1(NFR1)were determined by Western blot.In vitro,CD14+monocytes were co-cultured with 3.0 mmol/L BHB for 0,6,12,24 h.Flow cytometry was applied for intracellular mitochondrial membrane potential detection,and determination the protein abundance of PGC-1α,TFAM and NFR1 by Western blot.The results showed that compared with control group,the mitochondrial membrane potential in CD14+monocytes of ketotic cows was sig-nificantly increased,and the protein abundance of CO Ⅰ,CO Ⅱ,CO Ⅲ,CO Ⅳ,CO Ⅴ PGC-1α,TFAM,and NRF1 in CD14+monocytes of ketotic cows were significantly decreased.Compared with 0 h,the mitochondrial membrane potential of CD14+monocytes was significantly increased after BHB treatment for 6,12,24 h,and the protein abundance of PGC-1α,TFAM and NRF1 were significantly decreased.The results indicated that BHB induced mitochondrial dysfunction in CD14+monocytes of ketotic cows by inhibiting PGC-1α signaling pathway.Therefore,the PGC-1αsignaling pathway may be a preventive and therapeutic target to the mitochondrial dysfunction of monocytes in ketotic cows caused by BHB.

The aim of this study was to investigate whether β-hydroxybutyric acid(BHB)inhibits the phagocytic function of CD14+monocytes in dairy cows through the ROS(reactive oxygen spe-cies)-NLRP3(NOD-like receptor thermal protein domain associated protein 3)pathway.CD14+monocytes in the blood of postpartum healthy cows were extracted,and 3 mmol/L BHB was added after transfection of small interfering RNA targeting NLRP3(si-NLRP3).Monocytes were pre-treated with 10 nmol/L NLRP3 inhibitor MCC950(CP-456773)or 10 mmol/L ROS scavenger N-acetyl cysteine(NAC),and then was treated with 3 mmol/L BHB for 24 h.The protein abundance of NLRP3 was detected by Western blot and the phagocytosis of monocytes was determined by flow cytometry and immunofluorescence.The results showed that compared with the si-Control+BHB group,the phagocytic function of monocytes in the si-NLRP3+BHB treatment group was significantly increased,while the protein abundance of NLRP3 was significantly decreased.Com-pared with DMSO+BHB group,the phagocytic function of monocytes in MCC950+BHB group was significantly increased.In addition,compared with DMSO+BHB group,the protein abundance of NLRP3 in monocytes was significantly decreased in MCC950+BHB group.Compared with the PBS+BHB group,the phagocytosis of monocytes was significantly increased after the addition of ROS scavenger NAC,while the protein abundance of NLRP3 was significantly decreased.These results indicated that BHB inhibited the phagocytosis of CD14+monocytes in cows via the ROS-NLRP3 pathway.Therefore,regulating the activation of NLRP3 inflammasome may be an effective method to improve the decrease of monocyte phagocytosis in perinatal dairy cows.

This paper was aimed to analyze the correlation between quality evaluation and whole complete quality assessment in traditional Chinese medicine (TCM) clinical research progress,in order to discuss key steps and strategies in the clinical research progress.In accordance with the quality control indexes,all projects of Prevention and Treatment of Chronic Disease of TCM were given a research progress evaluation and complete condition.The scores were described with radar map method.The influence of research progress to whole complete quality was analyzed with correlation methods.The results showed that there was a significant correlation between research progress (including included cases and completed cases) and the total score of quality control (P ＜ 0.05).It was concluded that research progress was a key step to influence the entire clinical research level.It is necessary to strengthen the supervision on research progress to guarantee the whole research level.

Objective To investigate the impact of miR-200c overexpression on colon cancer cell proliferation ability and the related mechanism.Methods MicroRNAs which may combined with the transcription factor AP-2α were screened and forecasted by the bioinformatics database,while its eukaryotic expression plasmids and specific inhibitor were synthesized.Plasmids PEZX-miR-200c,PEZX-NC,pmirGLO-AP-2α3'UTR,pmir-GLO and the specific inhibitors miR-67-inhibtor,miR-200c-inhibitor were transfected in vitro into colon cancer HCT-116 and SW480 cells and the HEK293T cell by Lipofectamine2000.The expression of AP-2α mRNA and protein in colon cancer cells was analyzed by qRT-PCR,Westem blot and immunocytochemical staining.CCK-8 assay and flow cytometry were adopted to observe the effect of miR-200c on colon cancer cells proliferation and apoptosis.Dual-Luciferase assay experiments were performed to observe the relative luciferase activity induced by miR-200c.Results The proliferation activity was significantly decreased in anti-miR-200c/SW480 group,while in PEZX-miR-200c/HCT-116 group,it was higher than that in PEZX-NC/HCT-116 group.The apoptosis ability was significantly increased in anti-miR-200c/SW480 group [(78±0.7) ％ vs (66±1.1) ％,P ＜ 0.05].The expression of AP-2o both in mRNA and protein levels was decreased in PEZX-miR-200c/HCT-116 group,while the protein level was increased in Anti-miR-200c/SW480 group.The relative luciferase activity inhibited by miR-200c was decreased in HEK-293T cells transfected with PEZX-miR-200c and pmir-GLO-AP-2α3' UTR (0.51±0.09 vs 0.98±0.04,P ＜ 0.01).Conclusion MicroRNA-200c could promote cell proliferation ability by targeting transcriptional factor AP-2α in human colorectal cancer cells.

Objective To investigate the effect of AP-2α on the chemoresistance to oxaliplatin of colorectal carcinoma cell and its related mechanism.Methods Plasmid of GV102-AP-2α-RNAi (experimental group) and control plasmid GV102-NC (negative control group) were transfected into HCT-116 using Lipofectamine 2000 respectively.The AP-2α expression levels of mRNA and protein of experimental group,control group and HCT-116 blank group were detected by qRT-PCR and Western blot.Cell proliferation assay was performed using the CCK-8 and the apoptosis assays were preformed with Annexin V-PE Apoptosis Kit.Results The AP-2α expression levels of mRNA and protein both decreased after transfection of AP-2α-RNAi plasmid,moreover,the effect produced by subsequence 1 was the most significant.After treatment by oxaliplatin,AP-2α protein levels increased with time while mRNA did not change significantly.Western blot results suggested that the level of AP-2α protein in experimental group which was maintained in oxaliplatin was lower than the negative control group.CCK-8 results suggested that cell proliferation ability was significantly higher for the experimental group maintained in oxaliplatin [(88±3) ％] than the negative control group maintained in oxaliplatin [(57±3) ％] and the blank group maintained in oxaliplatin [(73t4) ％].Flow cytometry showed that the apoptosis rate of the experimental group maintained in oxaliplatin [(15.07±1.20) ％] was lower than the control group maintained in oxaliplatin [(24.93±0.90) ％] and the blank group maintained in oxaliplatin [(23.71±1.32) ％].Conclusion AP-2α may be related to the sensitivity of colon cancer cells to oxaliplatin.

Objective To study the effects of enriched rehabilitative training on the expression of microtu-bule associated protein 2 (MAP-2) and synaptophysin (SYN), and to explore its relationship with brain plasticity. Methods Seventy-seven male Wistar rats weighing 160 to 200 g were randomly divided into an ischemia + enriched rehabilitation group (IE, n=36), an ischemia + standard rehabilitation group(IS, n=8), a sham ischemia + en-riched rehabilitation group (SE, n=21) and a sham ischemia + standard rehabilitation group (SS, n=12). Rats in the ischemia groups had their middle cerebral artery sutured for two hours before reperfusion, while those in the sham groups had a similar operation without occlusion. The enriched groups were given enriched rehabilitative train-ing, while the standard groups were left without any training. Behavioral tests, including the acrobatic performance, were administered once daily 2 days after operation, and SP staining of MAP2 and SYN were used to observe the func-tional recovery and brain plasticity changes among the groups at 1,7, 14, 21 and 28 days after the operations. Re-sults Acrobatic performance times reduced gradually. Bederson scores were significantly better in the IE than in the IS group by the 28th day after the operation). There was no significant difference between IE and IS groups in a foot fault test). The expression of MAP-2 and SYN around the infarct and in the hippocampus decreased significantly at first), then recovered gradually. The expression of MAP-2 and SYN in the IE group was significantly higher than that in the IS group at various time points of observation). Conclusion Enriched rehabilitative training can improve functional recovery and the expression of MAP-2 and SYN after brain ischemia, and the functional enhancement may attribute to the brain plasticity.