The role of nitric oxide in cancer

Nitric oxide (NO) is a pleiotropic regulator, critical to numerous biological processes, including va-sodilatation, neurotransmission and macrophage-mediated immunity. The family of nitric oxide synthases (NOS) comprises inducible NOS (iNOS), endothelial NOS (eNOS), and neuronal NOS (nNOS). Interestingly, various studies have shown that all three isoforms can be involved in promoting or inhibiting the etiology of cancer. NOS activity has been detected in tumour cells of various histogenetic origins and has been associated with tumour grade, proliferation rate and expression of important signaling components associated with cancer development such as the oestrogen receptor. It appears that high levels of NOS expression (for example, generated by activated macrophages) may be cytostatic or cytotoxic for tumor cells, whereas low level activity can have the opposite effect and promote tumour growth. Paradoxically therefore, NO (and related reactive nitrogen species) may have both genotoxic and angiogenic pro     

UN system efforts to support the response to AIDS in China

INTRODUCTION China has made considerable progress in the response to the AIDS epidemic in the past years, particularly in terms of commitment by the national leadership, the establish- ment of a supportive policy framework, improved under- standing of the…     

Redox physiology in animal function:The struggle of living in an oxidant environment

A strong focus of ecological research for several decades has been to understand the factors underlying the variation in animal life-histories. In recent times, ecological studies have begun to show that oxidative stress may represent another important modulator of competitive trade-offs among fitness traits or of positively integrated patterns of traits. Therefore, incorporating mechanisms underlying oxidative physiology into evolutionary ecology has the potential to help understand variation in life-histo...     

大鼠内细胞团和胎儿神经干细胞构建嵌合体的潜力(英文）

嵌合体大鼠是研究人类疾病的重要动物模型。用囊胚注射法研究了大鼠内细胞团（ICM）和胎儿神经干细胞（FNS）构建嵌合体的潜力。结果发现来自黑色（DA）大鼠第5天（D5）和第6天（D6）囊胚的ICM细胞注入D5 Sprague-Dawley（SD）大鼠囊胚后得到3只嵌合体大鼠;D5 SD大鼠ICM细胞注射入D5 DA囊胚后得到4只嵌合体大鼠;而体外培养的DA或SD大鼠ICM细胞注射后均未能获得嵌合体大鼠。本研究用大鼠胎儿神经干细胞（rFNS）和LacZ转染的rFNS构建嵌合体,未能获得嵌合体大鼠;但在LacZ转染的SD rFNS注射到DA大鼠囊胚后发育来的41只胎儿中,有2只胎儿其组织切片中发现少量LacZ阳性细胞。结果表明DA和SD大鼠ICM具有参与嵌合体发育的潜力,但ICM细胞经体外培养后构建嵌合体的潜力显著下降（P<0.05）;大鼠胎儿神经干细胞构建嵌合体的潜力较低,可能仅具有参与早期胚胎发育的潜力。