脂肪细胞来源的激素和细胞因子可增强或抑制葡萄糖感应和胰岛素信号传导。
Hormones and cytokines from adipocytes can enhance or inhibit both glycemic sensing and insulin signaling.
结论免疫细胞因子和激素可通过各自的受体作用于同一个脑神经元而调节神经元的功能。
Conclusion Immunogical cytokines and hormone could regulate the neuronal function through their corresponding receptors which coexisted in the same brain neurons.
而持续时间长可能与受体免疫系统产生的细胞因子和激素的调控相关。
The long lasting time of regeneration might be relevant to the cytokines generated by the immune system in recipients and regulation of hormone.
激素和脂肪细胞因子可以调控脂肪组织的生长、分化及机体脂肪沉积。
Growth and differentiation processes of adipose tissues could be regulated by hormones and adipocytokins.
生物芯片检测经过归类可列成序列,并可同时对细胞因子和生长因子、孕激素和甲状腺激素、细胞黏附分子以及滥用药物进行检测。
Biochip tests are grouped together as arrays and allow the detection of cytokines and growth factors, fertility and thyroid hormones, cell adhesion molecules, and drugs of abuse.
本文总结了体重减轻、胃肠激素、前肠学说、后肠学说、脂肪细胞因子和炎症因子等方面机制的研究进展。
This review summarizes the possible mechanisms which include weight loss, gastrointestinal hormones, foregut hypothesis, hindgut hypothesis, adipocytokines, and inflammatory factors.
本文总结了体重减轻、胃肠激素、前肠学说、后肠学说、脂肪细胞因子和炎症因子等方面机制的研究进展。
This review summarizes the possible mechanisms which include weight loss, gastrointestinal hormones, foregut hypothesis, hindgut hypothesis, adipocytokines, and inflammatory factors.
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