English 
Spanish 
Russian 
German 
French 
Japanese 
Portuguese 
Hindi 开放获取期刊获得更多读者和引用
700 种期刊 和 15,000,000 名读者 每份期刊 获得 25,000 多名读者
抽象的
Enhanced Temozolomide Resistance in Glioblastoma by the Novel Cancer Stem Cell Marker MVP
Sangyu Yen
In this study, we discovered that CSEs from HTPs induced CSC marker expression and proliferation in the lung. In addition, the HTPs' CSEs induced the expression of EMT markers and inflammatory cytokines, indicating that HTP aerosols may contain harmful chemicals that could influence lung cancer development. These information recommend that HTPs are related with the improvement of cellular breakdown in the lungs [1].
We discovered that all three HTP-derived CSEs promoted cell proliferation. The impacts were somewhat unique among the HTPs, as each was made at an alternate temperature [HTPc (200 °C) < HTPa (240 °C) < HTPb (300-350 °C)], proposing that their synthetic parts contrasted. It is also known that the smoking conditions have an impact on the components of the HTPs. After smoking HTPs, it's important to think about the concentrations of the chemicals in the air and blood.
The opposition of profoundly forceful glioblastoma multiforme (GBM) to chemotherapy is a significant clinical issue bringing about an unfortunate guess. GBM contains an intriguing populace of self-reestablishing disease undeveloped cells (CSCs) that multiply, prodding the development of new growths, and sidestep chemotherapy. In malignant growth, significant vault protein (MVP) is remembered to add to sedate obstruction [2]. In any case, the job of MVP as CSCs marker stays obscure and whether MVP could sharpen GBM cells to Temozolomide (TMZ) likewise is hazy. We observed that aversion to TMZ was stifled by essentially expanding the MVP articulation in GBM cells with TMZ obstruction. Additionally, MVP was related with the outflow of other multidrug-safe proteins in tumorsphere of TMZsafe GBM cell, and was profoundly co-communicated with CSC markers in tumorsphere culture. In contrast, MVP knockdown decreased sphere formation and invasive capability. In addition, patients with glioblastoma had a higher survival rate and tumor malignancy when MVP was expressed at high levels [3]. According to the findings of our research, MVP is a novel maker of glioblastoma stem cells that has the potential to be useful as a target for preventing TMZ resistance in GBM patients.