Gene expression changes at metamorphosis induced by thyroid hormone in Xenopus laevis tadpoles

详细信息    查看全文

• 作者：Biswajit Das ; Liquan Cai ; Mark G. Carter ; Yu-Lan Piao ; Alexei A. Sharov ; Minoru S.H. Ko and Donald D. Brown
• 关键词：Thyroid hormone ; Metamorphosis ; Tadpole ; Xenopus laevis ; Tail resorption ; Limb growth ; Brain ventricle proliferation ; Mitochondrial electron transport chain ; Cell cycle ; Transcriptional regulation
• 刊名：Developmental Biology
• 出版年：2006
• 出版时间：15 March 2006
• 年：2006
• 卷：291
• 期：2
• 页码：342-355
• 全文大小：928 K

文摘

Thyroid hormone (TH) controlled gene expression profiles have been studied in the tail, hind limb and brain tissues during TH-induced and spontaneous Xenopus laevis metamorphosis. Amplified cRNA probes mixed with a universal standard were hybridized to a set of 21,807-sense strand 60-mer oligonucleotides on each slide representing the entries in X. laevis UniGene Build 48. Most of the up-regulated genes in hind limb and brain are the same. This reflects in part the fact that the initial response to TH induction in both tissues is cell proliferation. A large number of up-regulated genes in the limb and brain programs encode common components of the cell cycle, DNA and RNA metabolism, transcription and translation. Notch is one of the few genes that is differentially expressed exclusively in the brain in the first 48 h of TH induction studied in these experiments. The TH-induced gene expression changes in the tail are different from the limb and brain programs. Distinct muscle and fibroblast programs were identified in the tail. Dying muscle fibers in tail (marked by active caspase-3) up-regulate a group of genes that include proteolytic enzymes. At the climax of metamorphosis, tail muscle down-regulates more than half of the genes that encode the glycolytic enzymes in the cytoplasm and the tricarboxylic acid pathway and all five complexes of the electron transport system in mitochondria. These changes in gene expression precede the activation of caspase-3. Some of these same energy metabolism-related genes are up-regulated in the limb and brain programs by TH. A prominent feature of the tail fibroblasts is the down-regulation of several collagen and other extra cellular matrix genes and the up-regulation of hydrolytic enzymes that are responsible for dissolving the notochord and resorbing the tail.