Purpose To clarify the role of KAI1/CD82 in metastasis of nasopharyngeal carcinom and to evaluate the clinical efficacy of KAI1/CD82-expressing EPCs in the prevention of nasopharyngeal carcinoma.Method Umbilical vein-derived EPCs were infected with KAI1/CD82-expressing lenti-virus to get a KAI1/CD82-overexpressing EPC cell line (KAI1/CD82-EPCs).A xenograft mouse model of human nasopharyngeal carcinoma was established,and KAI1/CD82-EPCs were injected through the tail vein.The effect of the KAI1/CD82-EPCs on growth and metastasis of the xenograft was observed.Results Time required for tumor formation was 14.70 ± 3.81,15.05 ±3.85,14.20 ± 3.55 days respectively for the EPCs,EPCs-NC,and KAI1/CD82-EPCs groups,with no significant difference among the three groups (P =0.771).Weight of the xenograft was (1.388 ±0.204) g,(1.487 ±0.223) g,(1.485 ±0.234) g respectively for the EPCs,EPCs-NC,and KAI1/CD82-EPCs groups,with no significant difference (P =0.274).Rate of lung metastasis was 55％,45％ and 10％ for the EPCs,EPCs-NC,and KAI1/CD82-EPC groups,and the difference was significant (P =0.005).Number of metastatic lesions was 34.27 ± 5.35,38.44 ± 9.63,17.50 ± 3.54 for the three groups,and the difference was also significant (P =0.007).Immunohistochemistry indicated positive KAI1/CD82 expression in metastatic lesion of the KAI1/CD82-EPCs group,but no KAI1/CD82 expression in the EPCs group or EPCs-NC group.Conclusion KAI1/CD82-expressing EPCs inhibits lung metastasis of the xenograft mouse model of human nasopharyngeal carcinoma.

Objective To establish a magnetic nanoparticles separation-based quantitative real-time PCR(RT-PCR)assay for fast and accurate detection of Plasmodium falciparum and providing a technical support for improving the control and preven-tion of imported malaria. Methods According to the conserved sequences of the P. falciparum genome 18SrRNA,the species-specific primers and probe were designed and synthetized. The RT-PCR was established by constructing the plasmid standard , fitting the standard curve and using magnetic nanoparticles separation. The sensitivity and specificity of the assay were evaluat-ed. Results The relationship between the threshold cycle(Ct)and logarithm of initial templates copies was linear over a range of 2.5×101 to 2.5×108 copies/μl(R2=0.999). Among 13 subjects of entry frontier,a P. falciparum carrier with low load was de-tected by using the assay and none was detected with the conventional examinations(microscopic examinations and rapid tests). Conclusion This assay shows a high sensitivity in detection of P. falciparum,with rapid and accurate characteristics,and is especially useful in diagnosis of P. falciparum infectors with low parasitaemia at entry-exit frontier ports.

With the rapid development of gene editing technology, the study of spermatogonial stem cells (SSCs) holds great significance in understanding spermatogenesis and its regulatory mechanism, developing transgenic animals, gene therapy, infertility treatment and protecting rare species. Biogenesis of lysosome-related organelles complex 1 subunit 1 (BLOC1S1) is believed to have anti-brucella potential. Exploring the impack of BLOC1S1 on goat SSCs not only helps investigate the ability of BLOC1S1 to promote SSCs proliferation, but also provides a cytological basis for disease-resistant breeding research. In this study, a BLOC1S1 overexpression vector was constructed by homologous recombination. The BLOC1S1 overexpression cell line of goat spermatogonial stem cells was successfully constructed by lentivirus packaging, transfection and puromycin screening. The overexpression efficiency of BLOC1S1 was found to be 18 times higher using real time quantitative PCR (RT-qPCR). Furthermore, the results from cell growth curve analysis, flow cytometry for cell cycle detection, and 5-ethynyl-2'-deoxyuridine (EdU) staining showed that BLOC1S1 significantly increased the proliferation activity of goat SSCs. The results of RT-qPCR, immunofluorescence staining and Western blotting analyses revealed up-regulation of proliferation-related genes (PCNA, CDK2, CCND1), and EIF2S3Y, a key gene regulating the proliferation of spermatogonial stem cells. These findings strongly suggest that the proliferative ability of goat SSCs can be enhanced through the EIF2S3Y/ERK pathway. In summary, this study successfully created a goat spermatogonial stem cell BLOC1S1 overexpression cell line, which exhibited improved proliferation ability. This research laid the groundwork for exploring the regulatory role of BLOC1S1 in goat spermatogonia and provided a cell platform for further study into the biological function of BLOC1S1. These findings also establish a foundation for breeding BLOC1S1 overexpressing goats.
Animals ; Male ; Goats ; Stem Cells ; Spermatogonia/metabolism* ; Cell Proliferation ; Flow Cytometry ; Testis/metabolism*