ObjectiveTo investigate microbial contamination status and distribution characteristics in laboratory animal barrier facilities, so as to provide a scientific basis for environmental quality control in barrier facilities. MethodsIn accordance with the national standard "Laboratory Animals—Environment and Housing Facilities" and the "Standard Operating Procedures" of the barrier facility, bacterial monitoring was performed on samples of air-settling bacteria, materials, and personnel gloves in the single-corridor barrier facility of the Animal Core Facility, Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences (CEMCS). The monitoring data from January 2020 to December 2024 were collected, organized and statistically analyzed, and partial samples were subjected to species identification using PCR and sequencing methods. ResultsA total of 7 898 samples were collected from 2020 to 2024, including 3 175 air-settling bacteria samples, 3 353 material samples, and 1 370 glove samples. The overall compliance rate was 95.7% (7 559/7 898), among which the compliance rate of air-settling bacteria was 97.1% (3 084/3 175), that of materials was 93.2% (3 125/3 353), and that of personnel gloves was 98.5% (1 350/1 370). Over the five years, the compliance rates of all three types of monitored samples were above 90%. There were statistically significant differences in the compliance rates of air-settling bacteria and material samples among different quarters (P<0.05). Further investigation was conducted on samples collected from January to March 2024, and 190 bacterial strains were obtained through isolation and culture, including 126 strains from air-settling bacteria, 52 strains from materials, and 12 strains from personnel gloves. The strains were identified by PCR amplification and sequencing, and the 190 bacterial strains belonged to 9 genera and 20 species. Gram-positive bacteria accounted for the majority, with Staphylococcus as the dominant genus, accounting for 77.9% (148/190). ConclusionMicroorganisms carried by air, materials, and personnel gloves in barrier facilities are mainly Gram-positive bacteria. Regular monitoring of air-settling bacteria, materials, and personnel gloves in barrier facilities enables timely detection and control of potential risks during husbandry management and facility operation, which is of great significance for maintaining the sound operation of the barrier facility system and ensuring the quality of animal experiments.

Objective To assess the clinical efficacy and safety of fire needling therapy for vitiligo. Method A self-control study was carried out. Fifty-six vitiligo patients with 124 skin lesions were allocated by long-axis random to two groups. The treatment group received fire needling therapy weekly for 12 times or until cure and the control group, no treatment as a blank control. The clinical efficacy and safety were assessed after the completion of treatment. Result The total efficacy rate of local fire needling therapy for vitiligo skin lesions was 79.8% and there was a statistically significant difference as compared with the control group (P<0.05). The therapeutic effect was better in patients with faciocervical skin lesions or short course of disease. The therapeutic effect increased with an increase in the course of treatment at the early stage of treatment but did not significantly increase after 8 weeks of treatment. Main adverse reactions were mild pain and skin infection. Conclusion Local fire needling has a definite therapeutic effect on vitiligo with high safety.

BACKGROUNDDendritic cells (DCs) are the unique antigen-presenting cells that can activate naive T lymphocytes. This function is critical for inducing specific immune response. DCs-based vaccines have been used broadly in immunotherapy for many carcinomas. Constructing vaccines by transfecting total tumor RNA into DCs can be done with a few tumor tissues and need not to identify tumor antigens, so it is especially suitable for lung cancer which lacks tumor-specific antigens but has great heterogenicity and weak immunogenicity. Currently, the best transfection stage and method are still indefinite. So, the objective of this study is to explore the best condition of transfecting total RNA extracted from lung cancer tissues into DCs.

METHODSTen patients with lung cancer were enrolled whose tumor tissues were CEA and MUC1 positive in immunohistochemical staining. Total tumor RNA were extracted by one-step method. Then DCs and T cells were separated and cultured from peripheral blood monocytes and the RNA was transfected into the DCs in different stages with different methods. CEA and MUC1 expression in the transfected DCs were measured by flow cytometry analysis and T cells' proliferation was examined by mixed lymphocyte reaction (MLR).

RESULTSThe expression of CEA and MUC1 protein in immature DCs (11.33±2.64, 39.68±7.25) was remarkably higher than that in mature DCs (5.46±1.63, 27.17±4.16) after transfection with total RNA of lung cancer tissues (P < 0.01), and the DCs presented more powerful effects on T cell proliferation. The CEA and MUC1 expression on DCs were significantly higher in electroporation transfection group (20.53±3.64, 65.39± 9.33) than that in lipofection group (11.33±2.64, 39.68±7.25) and passive pulsing transfection group ( 0.91±0.27,18.53±3.26)(P < 0.01), and the DCs in electroporation transfection group presented more powerful effects on stimulating T cell proliferation than the other two groups did.

CONCLUSIONSTransfecting total tumor RNA into immature DCs by using electroporation is a good way to construct DCs-based vaccines for lung cancer and to achieve a higher activity to stimulate T cell proliferation.