ABSTRACT
For a long time, the cultivation of medical students’ scientific research and innovation abilitymainly depends on scattered extracurricular scientific research activities. With limited students, unsystematic teaching and inadequate administrative guarantee, it often results in obvious weakness andinefficiency. Since 2002, the Biochemistry and Molecular Biology teaching team in Shantou UniversityMedical College has been working on a “3+X” model to nurture the scientific research and innovationability of medical students. Guided by the concepts of complementary development of science andeducation, student-centeredness, and Problem-based Learning, a model is established based on the‘HEART” professionalism courses and the academy culture specific to Shantou University. We also takefull advantage of the first-tier disciplines of biology, basic medicine and clinical medicine in ShantouUniversity and collaborate with other professional teaching teams. It is conceptualized in a framework thatembraces the comprehensive connotation of scientific research and innovation ability and adopts a corecurriculum system that runs through the 5-year medical undergraduate education. In this model, " 3" means " whole-person training", " whole-process training" and " omni-directional training" for medicalstudents; " X" refers to several confirmatory dimensions of the operational effectiveness of the " 3+X" model, including organizing medical students to participate in various forms of national college students’ innovative experimental research competitions, international college students’ academic seminars, writingand publishing academic papers by medical undergraduates as the first author, etc. The model proves tobe effective in cultivating the scientific research and innovation ability of medical students, hence settinga good example to solve the current problems in the cultivation of medical students’ scientific researchand innovation ability.
ABSTRACT
It is now thought that atherosclerosis,although due to enhanced lipid deposition,is mainly the result of a series inflammatory process.Total saponins of Aralia elata (Miq)Seem(TASAES)from the Chinese traditional herb Longya Araliachinensis L.,a folk medicine used for treating various diseases, increasing energy and improving the body′s ability to prevent hypoxia in Asian countries has attracted widespread attention. However, the ability of TASAES on inflammation-triggered vascular endothelial cell injury, a key early event in the pathogenesis of atherosclerosis, and its potential mechanisms of this protection have never been demonstrated. The present study determined the anti-inflammatory and anti-apoptoticactivities and protective mechanisms of the total aralosides of Araliaelata(Miq)Seem (TASAES) ameliorate tumor necrosis factor-α (TNF-α)-induced human umbilical vein endothelial cells (HUVECs) injury. Our results indicate that TASAES pretreatment provided cytoprotective effects by suppressing TNF-α-induced HUVECs apoptosis, mitochondrial membrane depolarization, caspase-3 activation, and modulation of inflammatory factors (IL-6, MCP-1 and VCAM-1), meanwhile inhibiting NF- κB transcription. Furthermore, the effect was correlated with the activation of the PI3K/Akt signal pathway. Blocking Akt activation with the PI3K inhibitor LY294002 effectively reversed the protective effect of TASAES against TNF-α-induced cell apoptosis.Moreover,the PI3K inhibitor partially blocked the effects of TASAES on the increasing of Bcl-2 and Bcl-xl protein expression,and inactivation of Bax protein expression. In conclusion, the results showed that TASAES decreased the inflammation and apoptosis of HUVECs caused by TNF-α treatment,and PI3K played a crucial role in enhancing cell sur-vival during this process.