Because of its unique advantages , zebrafish has been more and more widely used in drug screening and safety assessment , environmental protection , developmental biology and other fields . But the standardization of environments, feed, and water environment of zebrafish are prominent problems and weakness which hindered their application .This paper probes into the standardization of environment and feed of zebrafish in Zhejiang , in order to promote its standardization construction .

Objective To observe homing of mesenchymal stem cells (MSCs) in immune organs and inflammatory joints in collagen induced arthritis(CIA) rats. MethodsRats MSCs were isolated and expanded from bone marrow cells by density gradient centrifugation and adhering to the culture cell walls, and the phenotypes were assessed by flow cytometry. MSCs were labeled by PKH-26 and Brdu. Sixty-four rats were randomly divided into normal group and CIA group. Every 8 rats were sacrificed at 3, 11, 30, 42 days after transplantation of MSCs. At the end of the experiment, the specimens of thymus gland, spleen, ankle joints were exposed, fixed, decalcified, wrapped and cut into slices. Confocal laser scanning microscope and immunohistochemical method were used to observe migration and distribution of MSCs in different organs. Independent samples group t test with SPSS 12.0 software package was used for statistical analysis. ResultsIt was found that allogenic MSCs could stay in spleen, thymus gland and joints of CIA rats for a relatively long period (42days). Forty-two days after transplantation of MSCs, the average grey scale values of spleen and thymus gland in CIA group(37.5±8.8, 29.9±5.9 respectively) were significantly higher than the normal group(16.0±2.3,13.2±4.3 respectively), the average grey scale values of ankle joints in CIA group 78±8 was significantly lower than the normal group 93±14(P<0.05). ConclusionIt has been found that MSCs can stay in the injured tissue and organs preferentially.

For the study of muscle function and features during exercise, a multi-channel data acquisition system was developed, the overall design of the system, hardware composition, the function of system and so on have made a detail implements. The synchronous acquisition and storage of the surface EMG signal, joint angle signal, plantar pressure signal, ultrasonic image and initial results have been achieved.
Electromyography ; instrumentation ; Exercise ; Foot ; Humans ; Motion ; Muscle, Skeletal ; physiology

Objective:To study the effect of different doses of 60Co γ-ray ionizing radiation on mitochondrial function in mouse hematopoietic stem and progenitor cells (HSPCs). Methods:C57BL/6 mice were divided into control group, 1 Gy irradiation group and 4.5 Gy irradiation group. The mitochondrial functions were detected at 12 h and 24 h after irradiation, including ROS level, membrane potential, mitochondrial structure, and mitochondrial stress. Bone marrow c-Kit + cells received a single 15 Gy irradiation in vitro, after 24 h, mitochondrial function was detected. Results:It was found that mice leukocytes ( t=12.41, 18.31, 16.48, 14.16, 19.08, 20.25, P<0.05), red blood cells ( t=4.81, 6.62, P<0.05) and platelets ( t=4.33, 6.68, P<0.05) were significantly reduced. The numbers of bone marrow colony formation unit ( t=16.27, 55.66, 17.06, 43.75, P<0.05), and HSPCs ( t=5.16, 11.55, P<0.05) were decreased dose-dependently post-irradiation. Under 1 Gy irradiation, the mitochondrial function and mitochondrial basal metabolic index of HSPCs ( t= 7.36, 3.68, 4.58, 3.15, 3.15, P<0.05) were enhanced at 24 h post-irradiation. Under 4.5 Gy irradiation, mitochondrial number, mitochondrial membrane potential ( t=12.29, 10.46, P<0.05), maximal respiration and spare respiratory capacity were decreased ( t=7.81, 5.78, 6.70, 5.83, P<0.05), ROS level was increased ( t=4.63, 4.12, P<0.05). The basal respiration and oxidative phosphorylated ATP production were reduced at 12 h after irradiation ( t=8.48, 3.80, P<0.05); and the proton leakage was increased ( t=6.57, P<0.05) and coupling efficiency was reduced ( t=11.43, P<0.05) at 24 h after irradiation. In cultured c-Kit + cells, the level of ROS ( t=11.30, P<0.05) and the maximum respiration and spare respiratory capacity were increased ( t=4.25, 3.44, P<0.05) while the mitochondrial membrane potential was decreased ( t=34.92, P<0.05) significantly. Conclusions:A method for systematically assessing mitochondrial function in HSPCs was established, and the effect of ionizing radiation on mitochondrial function of HSPCs was clarified, laying a foundation for further revealing the mechanism of ionizing radiation-induced mitochondrial damage in HSPCs.

Objective:To investigate the effect and underlying mechanism of BRCC3 knockout on acute GVHD(aGVHD) of mice.Methods:A total of 12 recipient C57BL/6J mice were divided into two groups, including 6 wild type(WT) and BRCC3 -/-(KO). The recipients were exposed to 4.5 Gy + 4.5 Gy 60Co γ-rays in total body irradiation (TBI) at 30 min intervals. At 6 h post-irradiation, 1×10 7bone marrow cells and 8×10 6 splenocytes from BALB/c mice were infused into C57BL/6J mouse via tail vein to develop aGVHD mouse model. BRCC3 was specifically knocked out in aGVHD mouse model. The organ damage was examined through histopathology. The levels of serum cytokines were measured by enzyme-linked immuno sorbent assay (ELISA) and cytometric bead array (CBA), respectively. Spleen, liver and small intestine lymphocytes were isolated at 9 d post-transplantation, and the infiltration and activation of T cells in the target organs were assayed using flow cytometry. Results:The absence of BRCC3 in recipient mice significantly shortened survival ( P<0.05) with increased liver injury of aGVHD mice. In BRCC3 -/-recipient mice, the proportions of CD8+ T cells and CD8+ CD25+ T cells were significantly higher than those in the spleen( t=6.53, 5.52, P<0.05), and the proportions of CD8+ T cells and CD8+ CD25+ T cells were significantly increased in the liver ( t=3.74, 3.19, P<0.05). Similarly, the proportions of CD8+ T cells, CD8+ CD25+ T cells and CD8+ CD69+ T cells were significantly elevated in the small intestine ( t=3.52, 4.06, 3.29, P<0.05). Conclusions:BRCC3 deletion increased the proliferation and activation of donor CD8+ T cells and aggravated aGVHD, which might provide a new prevention and treatment target for aGVHD.

Objective:To investigate the difference in the radiation sensitivity of hematopoietic stem and progenitor cells (HSPCs) derived from fetal liver and bone marrow.Methods:HSPCs from fetal liver of 14.5 d embryo or bone marrow of 8 week-old mice were isolated to receive a single dose of 5 or 10 Gy irradiation in vitro using a 60Co irradiator. Twelve hours later, the cell apoptosis, mitochondrial reactive oxygen species (ROS) level, colony formation ability and DNA damage in HSPCs were detected. Freshly isolated HSPCs were injected into lethally irradiated CD45.1 + C57BL/6J mice (4.5 Gy+ 5 Gy with an interval of 30 min) Chimerism rate, lineage constitution, and cell cycle were analyzed 12 weeks after transplantation. Results:Compared with bone marrow HSPCs after irradiation, the percentage of apoptosis in fetal liver HSPCs was significantly higher ( t=16.21, 12.27, P<0.05), the level of ROS was dramatically elevated ( t=68.72, 18.89, P<0.05). At 10 Gy, fetal liver HSPCs could not form colonies at all ( t=12.41, 15.67, 9.46, P<0.05). γ-H2AX immunofluorescence staining showed that the DNA damage of fetal liver HSPCs was more severe after irradiation, and the number of Foci formed was significantly higher than that of bone marrow HSPCs ( t=2.27, 2.03, P< 0.05), which indicated that fetal liver HSPCs were more sensitive to radiation. The chimerism rate of transplanted fetal liver HSPCs was lower than that of bone marrow cells ( t=5.84, P<0.05) with a higher proportion of myeloid lineage, suggesting that fetal liver HSPCs had lower in vivo reconstitution capacity than bone marrow HSPCs and were more prone to myeloid differentiation. The cell cycle of bone marrow HSPCs from transplanted chimeric mice was examined, and the proportion of S-phase was significantly higher in the fetal liver group than that in the bone marrow group ( t=2.89, P<0.05). Mitochondrial stress results showed that fetal liver HSPCs had higher basal respiratory capacity ( t=39.19, P<0.05), proton leakage ( t=6.64, P<0.05), ATP production ( t=9.33, P<0.05), and coupling efficiency ( t=7.10, P<0.05) than bone marrow c-Kit + cells, while respiratory reserve capacity ( t=5.53, P< 0.05) was lower than that of bone marrow c-Kit + cells. Conclusions:HSPCs derived from fetal liver display higher radiosensitivty compared with bone marrow HSPCs, laying the foundation for an in-depth illustration of the effects of radiation on hematopoietic stem cells at different developmental stages.

For the study of muscle function and features during exercise, a multi-channel data acquisition system was developed, the overall design of the system, hardware composition, the function of system and so on have made a detail implements. The synchronous acquisition and storage of the surface EMG signal, joint angle signal, plantar pressure signal, ultrasonic image and initial results have been achieved.

Objective To investigate the effect of erythroid differentiation associated gene(EDAG)on hematopoietic stem/progenitor cells(HSPCs)under chronic inflammation.Methods In this study,EDAG-/-and wild type(WT)mice were divided into the experiment group and control group.An infectious chronic inflammation model was established via multiple intraperitoneal injections of Listeria monocytogenes(LM),while a sterile chronic inflammation model was generated via multiple intraperitoneal injections of polyinosinic-polycytidylic acid[Poly(I∶C)].The effect of EDAG on HSPCs was explored under chronic inflammation conditions.Results In the LM repeated infection model,EDAG deletion led to a decrease in HSPCs and long-term hematopoietic stem cells(LT-HSCs)in mice as well as a significant bias towards myeloid differentiation in peripheral blood.Similarly,EDAG knockout also resulted in reduced numbers of HSPCs and decreased colony-forming ability in aseptic chronic inflammation models.Conclusion EDAG deficiency accelerates HSPC depletion in young mice under chronic inflammation,indicating strong protection of EDAG against HSPC damage induced by chronic inflammation.

Objective To develop a Behavioral Decision-making Scale for Glycemic Management in pregnant women with gestational diabetes and to test its reliability and validity.Methods Based on the trans-theoretical model and behavioral decision theory,the test version of the scale was formed through literature review,semi-structured interview,brainstorming,2 rounds of expert consultation and cognitive interview.A total of 560 pregnant women with gestational diabetes mellitus were recruited from 10 hospitals in Quanzhou,Fujian Province by convenience sampling method from 21 July to November 2023.The data were divided into 2 parts by random number method for exploratory factor analysis and confirmatory factor analysis.Results The scale included 4 dimensions of"behavioral decision-making motivation""behavioral decision-making influencing factors""behavioral decision-making intention"and"behavioral decision-making effectiveness"with 34 items.The Cronbach's αcoefficient of the total scale was 0.971;the split-half reliability was 0.919;the test-retest reliability was 0.863;the content validity index of the scale was 0.853.The exploratory factor analysis extracted 4 common factors,and the cumulative variance contribution rate was 78.28％.The confirmatory factor analysis showed that the factor structure of the scale was stable.Conclusion The scale has ideal reliability and validity,which can be used to measure the level of glycemic management behavior decision-making of pregnant women with gestational diabetes mellitus.

Objective:To investigate the mechanism of benzyl isothiocyanate(BITC) in the treatment of anaplastic thyroid cancer(ATC).Methods:Using network pharmacological analysis, key targets of BITC and ATC were screened, followed by GO and KEGG enrichment analysis. In order to validate the findings, AutoDock software was used to dock BITC and ATC key targets. BITC was applied to two ATC cell lines(8505C and CAL-62). Flow cytometry was used to analyze cell apoptosis. Autophagy inhibitors hydroxychloroquine sulfate(HCQ) and 3-methyladenine(3MA) were used in combination with BITC. Real-time quantitative PCR was conducted to detect the gene level of LC3B, while Western blotting was utilized to examine the expression of NF-κB, LC3B Ⅱ, Beclin-1, and Bcl-2. In animal experiments, a mouse tumor model was constructed using CAL-62 cells, treated with intraperitoneal injections of BITC(100 mg/kg) and normal saline respectively, administered every other day for a total of 21 days. Immunoblotting of tumor tissue was performed to detect the expression of LC3B Ⅱ, Bcl-2, Beclin-1, and NF-κB.Results:A total of 10 key targets with binding energies≤-4.0 kcal/mol were identified. KEGG analysis showed that these genes are mainly involved in NF-κB signaling pathway and apoptosis. BITC inhibited ATC cells with IC50 values of 27.56 μmol/L for 8505C and 28.30 μmol/L for CAL-62. The expression levels of NF-κB, Beclin-1, and Bcl-2 decreased, while LC3B Ⅱ and LC3B gene expression increased. Combining 3MA with BITC enhanced cell inhibition LC3B Ⅱ expression. HCQ increased LC3B Ⅱ expression without enhancing cell and viability inhibition. In the mouse tumor model, compared to the control group, the treatment group had higher LC3B Ⅱ and lower Bcl-2, Beclin-1, and NF-κB levels.Conclusion:BITC could inhibit the growth of ATC cells in vitro and in vivo, disrupt the autophagy degradation, and inhibit the NF-κB pathway.