In order to explore a suitable pathway for the scientific and technological achievement transformation at prefecture-level public hospitals, in October 2020, a prefecture-level tertiary hospital carried out the " 3+ 3+ 3" mode for scientific and technological innovation and achievement transformation. A three-level management structure was established, consisting of the ministry of science and education, the working group on the transformation of scientific and technological achievements, and the leading group. Three management systems were improved and formulated, including the " measures for reimbursement and rewards of scientific and technological achievements ", the " measures for intellectual property management", and the " implementation plan for promoting the transfer and transformation of scientific and technological achievements". The management measures for the three stages of intellectual property protection, incubation of scientific and technological achievements, and transfer and transformation of achievements were improved. These measures provided organizational support, institutional support, and feasible paths for this practice. After nearly three years of practice, hospitals had reduced the number of low-quality patent applications, and the number and amount of scientific and technological achievements transformed increased from 1 achievement and 10 000 yuan in 2020 to 9 achievements and 320 000 yuan in 2022. This exploration could provide a reference for the transfer and transformation of professional scientific and technological achievements in prefecture-level public hospitals in China.

Objective:To investigate the expression of Per2 mRNA, HDAC1 mRNA and E-cadherin mRNA in esophageal cancer cells and their significance.Methods:The experimental study was conducted. Human normal esophageal epithelial cells as the control group and human esophageal cancer cell line KYSE-150 cells as the experimental group were cultured in vitro to logarithmic growth stage. Observation indicators: (1) the proliferation of cells; (2) the migration and invasion of cells; (3) the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA in cells of initial physiological state; (4) the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA after cells were treated with Per2-agonists or inhibitors; (5) the expression of Per2 mRNA and E-cadherin mRNA after cells were treated with HDAC1 inhibitors. Measurement data with normal distribution were represented as Mean± SD, the t test was used for comparison within groups and the t test or ANCOVA were used for comparison between groups. Results:(1) The proliferation of cells: the cell proliferation of the experimental group and control group were 0.90%±0.14% and 0.52%±0.08%, with a significant difference between the two groups ( t=5.166, P<0.05). (2) The migration and invasion of cells: the numbers of cell migration and invasion for the experimental group were 173±41 and 86±27, versus 50±15 and 21±9 for the control group, with significant differences between the two groups ( t=6.274, 5.153, P<0.05). (3) The expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA in cells of initial physiological state: the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA in cells of initial physiological state for the experimental group was 11.7±2.7, 20.4±6.6, and 12.4±2.5, respectively, versus 2.4±0.5, 8.5±2.2, and 27.3±4.5 for the control group, with significant differences between the two groups ( t=5.782, 2.982, -5.034, P<0.05). (4) The expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA after cells were treated with Per2-agonists or inhibitors: after cells were treated with Per2-agonists, the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA were 13.1±2.2, 22.4±6.2, 16.6±4.2 for the experimental group, and 9.9±3.1, 18.4±5.6, 15.3±2.3 for the control group, respectively. There was no significant difference in the expression of Per2 mRNA, HDAC1 mRNA, or E-cadherin mRNA of the experimental group between cells being treated with and without Per2-agonists ( t=-4.300, 10.087, -4.187, P>0.05). There were significant differences in the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA of the control group between cells being treated with and without Per2-agonists ( t=-4.846, 3.501, 9.294, P<0.05). There was no significant difference in the expression of Per2 mRNA or E-cadherin mRNA between the experimental group and control group after cells were treated with Per2-agonists ( F=1.000, 7.582, P>0.05), while there was a significant difference in the expression of HDAC1 mRNA between the two groups ( F=1.724, P<0.05). After cells were treated with Per2-inhibitors, the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA were 4.1±1.7, 7.5±2.2, 22.8±4.2 for the experimental group, and 3.1±0.9, 9.3±3.2, 28.4±5.8 for the control group, respectively. There were significant differences in the expression of Per2 mRNA, HDAC1 mRNA, and E-cadherin mRNA of the experimental group between cells being treated with and without Per2-inhibitors ( t=12.124, 5.105, -10.245, P<0.05). There was no significant difference in the expression of Per2 mRNA, HDAC1 mRNA, or E-cadherin mRNA of the control group between cells being treated with and without Per2-inhibitors ( t=-2.815, 1.568, -1.439, P>0.05). There were significant differences in the expression of Per2 mRNA and E-cadherin mRNA after cells were treated with Per2-inhibitors between the experimental group and control group ( F=22.965, 82.134, P<0.05), while there was no significant difference in the expressions of HDAC1 mRNA between the two groups ( F=6.416, P>0.05). (5) The expression of Per2 mRNA and E-cadherin mRNA after cells were treated with HDAC1 inhibitors: after cells were treated with HDAC1 inhibitors, the expression of Per2 mRNA and E-cadherin mRNA were 13.4±3.5, 24.2±3.4 for the experimental group, and 3.1±1.2, 26.8±5.2 for the control group, respectively. There was no significant difference in the expression of Per2 mRNA of the experimental group between cells being treated with and without HDAC1-inhibitors ( t=-3.959, P>0.05). There was a significant difference in the expression of E-cadherin mRNA of the experimental group between cells being treated with and without HDAC1-inhibitors ( t=-21.977, P<0.05). There was no significant difference in the expression of Per2 mRNA or E-cadherin mRNA of the control group between cells being treated with and without HDAC1-inhibitors ( t=-1.440, 1.058, P>0.05). After cells were treated with HDAC1-inhibitors, there was no significant difference in the expressions of Per2 mRNA between the experimental group and control group ( F=2.004, P>0.05), while there was a significant difference in the expression of E-cadherin mRNA between the two groups ( F=325.800, P<0.05). Conclusions:Human esophageal cancer cells have an elevated expression of Per2 mRNA and HDAC1 mRNA, and a reduced expression of E-cadherin mRNA. The overexpression of Per2 mRNA may activate the expression of downstream targeting protein HDAC1, and inhibit the expression of cell surface E-cadherin mRNA.