人参皂甙Rb_1和Rg_1对小鼠中枢神经递质受体和脑内蛋白质合成的影响

应用放射配基结合法测定了人参皂甙Rb_1和Rg_1对α_1,α_2,β肾上腺素能受体、M胆碱能受体、5-羟色胺、多巴胺及GABA等七种受体的作用。结果均不能证明它们对这七种受体有亲和力。但给动物ip药物连续5天,Rb_1和Rg_1均能使中枢M胆碱受体密度显著增高。Rb_1及Rg_1还能显著增加脑内蛋白质的含量。上述实验结果对解释人参的中枢作用提供了重要证据。     

柯萨奇-腺病毒受体在肾癌组织中的表达及意义

目的:研究柯萨奇-腺病毒受体(CAR)在肾癌组织中的表达及意义.方法:应用免疫组化SP法检测12例癌旁正常肾组织和48例肾细胞癌组织中CAR的表达.结果:12例正常肾组织全部表达CAR,48例肾细胞癌组织中31例无CAR表达.不同分级CAR表达率分别为Ⅰ级54.5%(12/22)、Ⅱ级23.5%(4/17)、Ⅲ级11.1%(1/9);不同分期CAR表达率分别为Ⅰ期57.9%(11/19)、Ⅱ期30.8%(4/13)、Ⅲ期18.2%(2/11)、Ⅳ期0(0/5).结论:在多数肾细胞癌组织中CAR基因表达丧失;CAR表达变化与肾癌的分级、分期相关,可以作为肾癌分化、转移的重要生物学指标.     

The formation and function of the neutrophil phagosome

Neutrophils are the most abundant circulating leukocyte and are crucial to the initial innate immune response to infection. One of their key pathogen-eliminating mechanisms is phagocytosis, the process of particle engulfment into a vacuole-like structure called the phagosome. The antimicrobial activity of the phagocytic process results from a collaboration of multiple systems and mechanisms within this organelle, where a complex interplay of ion fluxes, pH, reactive oxygen species, and antimicrobial proteins creates a dynamic antimicrobial environment. This complexity, combined with the difficulties of studying neutrophils ex vivo, has led to gaps in our knowledge of how the neutrophil phagosome optimizes pathogen killing. In particular, controversy has arisen regarding the relative contribution and integration of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-derived antimicrobial agents and granule-delivered antimicrobial proteins. Clinical syndromes arising from dysfunction in these systems in humans allow useful insight into these mechanisms, but their redundancy and synergy add to the complexity. In this article, we review the current knowledge regarding the formation and function of the neutrophil phagosome, examine new insights into the phagosomal environment that have been permitted by technological advances in recent years, and discuss aspects of the phagocytic process that are still under debate.