细胞间黏附分子与胃癌侵袭、转移关系的研究进展

细胞间黏附分子-1(intercellularadhesionmolecule-1,ICAM-1)是体内重要的细胞活性分子,不仅参与了机体免疫过程及炎症反应,而且还通过与其相应配体的结合,介导癌细胞与不同细胞、基质的黏附,最终使癌细胞逃避免疫监视,利于侵袭转移.近年来,对ICAM-1与恶性肿瘤侵袭转移关系的研究已成为研究热点,其在肿瘤侵袭转移中的作用日益受到众多学者的重视.现就其近年的文献从ICAM-1的结构、生物学特征、在胃癌组织中的表达及作用机制等几个方面作一综述.     

Toxicity induced by nanoparticles

Nanoparticle research is currently an area of intense scientific interest due to a wide variety of potential applications. Human beings have been exposed to airborne nanosized particles throughout their evolutionary stages, and such exposures have increased dramatically over the last century. Nanoparticle can modify the physicochemical properties of the material as well as create the opportunity for increased uptake and interaction with biological tissues through inhalation, ingestion, and injection. This combination of effects can generate adverse biological effects in living cells. Nanoparticles have proved toxic to human once in the blood stream, nanoparticles, spleen, bone marrow and nervous system can be transported around the body and be taken up by organs tissue and cell cultures, resulting in increased oxidative stress, inflammatory cytokine production and cell death. Unlike larger particles, nanoparticles may be taken up by cell mitochondria and the cell nucleus studies demonstrate the potential for nanoparticles to cause DNA mutation and induce major structural damage to mitochondria, even resulting in cell death. Size is therefore a key factor in determining the potential toxicity of a particle. How these nanoparticles behave inside the body is still a major question that needs to be resolved. There is a responsibility to test and optimize these new nanomaterials early during the development process to eliminate or ameliorate identified toxic characteristics.