Birsoy Kivanç, Soukas Alexander, Torrens Javier, Ceccarini Giovanni, Montez Jason, Maffei Margherita, Cohen Paul, Fayzikhodjaeva Gulnorakhon, Viale Agnes, Socci Nicholas D, Friedman Jeffrey M
Laboratory of Molecular Genetics, The Rockefeller University, 1230 York Avenue, New York, NY 10065, USA.
Proc Natl Acad Sci U S A. 2008 Sep 2;105(35):12985-90. doi: 10.1073/pnas.0805621105. Epub 2008 Aug 27.
The cellular program responsible for the restoration of adipose tissue mass after weight loss is largely uncharacterized. Leptin mRNA levels are highly correlated with adipose tissue mass, and leptin expression can thus be used as a surrogate for changes in the amount of adipose tissue. To further study the responses of adipocytes to changes in weight, we created a transgenic mouse expressing the luciferase reporter gene under the control of leptin regulatory sequences, which allows noninvasive imaging of the leptin expression of mice in vivo. We used these animals to show that weight loss induced by fasting or leptin treatment results in the retention of lipid-depleted adipocytes in adipose depots. To further study the cellular response to weight regain after leptin treatment, a leptin withdrawal protocol was used to induce a state of acute leptin deficiency in wild type mice. Acute leptin deficiency led to the transient deposition of large amounts of glycogen within pre-existing, lipid-depleted adipocytes. This was followed by rapid reaccumulation of lipid. Transcriptional profiling revealed that this cellular response was associated with induction of mRNAs for the entire pathway of enzymes necessary to convert glucose into acetyl-CoA and glycerol, key substrates for the synthesis of triglycerides.
减肥后负责恢复脂肪组织量的细胞程序在很大程度上尚不明确。瘦素mRNA水平与脂肪组织量高度相关,因此瘦素表达可作为脂肪组织量变化的替代指标。为了进一步研究脂肪细胞对体重变化的反应,我们构建了一种转基因小鼠,其在瘦素调控序列的控制下表达荧光素酶报告基因,这使得能够对小鼠体内的瘦素表达进行无创成像。我们利用这些动物证明,禁食或瘦素治疗诱导的体重减轻会导致脂肪库中脂质耗尽的脂肪细胞保留下来。为了进一步研究瘦素治疗后对体重恢复的细胞反应,采用了瘦素撤药方案在野生型小鼠中诱导急性瘦素缺乏状态。急性瘦素缺乏导致在已有的脂质耗尽的脂肪细胞内大量糖原的短暂沉积。随后是脂质的快速重新积累。转录谱分析表明,这种细胞反应与诱导将葡萄糖转化为乙酰辅酶A和甘油(甘油三酯合成的关键底物)的整个酶途径的mRNA有关。