‘Two-Stage Double-Technique Hybrid (TSDTH)’ Identification Strategy for the Analysis of BMP2-Induced Transdifferentiation of Premyoblast C2C12 Cells to Osteoblast

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• 作者：Byung-Gyu Kim ; Ji-Hyun Lee ; Jung-Mo Ahn ; Sung Kyu Park ; Ji-Hoon Cho ; Daehee Hwang ; Jong-Shin Yoo ; John R. Yates ; III ; Hyun-Mo Ryoo ; Je-Yoel Cho
• 刊名：Journal of Proteome Research
• 出版年：2009
• 出版时间：October 2, 2009
• 年：2009
• 卷：8
• 期：10
• 页码：4441-4454
• 全文大小：720K
• 年卷期：v.8,no.10(October 2, 2009)
• ISSN：1535-3907

文摘

Transdifferentiation offers new opportunities in the area of cell replacement therapy; however, the molecular mechanism by which transdifferentiation occurs is not fully understood. Our understanding about the sophisticated regulations of transdifferentiation is limited yet since their comprehensive proteome regulations have not been fully elucidated. Studies on bone morphogenic protein-2 (BMP2)-induced transdifferentiation of murine C2C12 cells, a myogenic lineage committed premyoblast, to osteogenic cells can provide a full picture of the dynamic events that occur at the level of protein activity and/or expression. Here, we investigated the overall dynamic regulatory proteome associated with BMP2-induced osteoblast transdifferentiation in premyoblast C2C12 cells using a novel Two-Stage Double-Technique Hybrid (TSDTH) strategy for proteomic analysis. Here, we took the approach of a TSDTH involving phosphoproteomic analysis after a short-term treatment (stage one, 30 min) and a long-term treatment (stage two, 3 days); SILAC (Stable isotope labeling with amino acids in cell culture)-proteomics was used to map the proteins. In these experiments, a total of 1321 potential phosphoproteins were identified in stage one analysis and 433 proteins were quantified in stage two analysis. Among them, 374 BMP2-specific phosphoproteins and 54 up- or down-regulated proteins were selected. In first stage analysis, several deubiquitination enzymes including Uch-l3 as well as ubiquitination related proteins were newly identified, and its inhibitor reduced the stability of phosphorylated Smad1, and the BMP2-induced ALP levels of C2C12 cells were detected. In second stage analysis, Thrombospondin1 was identified as the highest up-regulated protein by BMP2-long time stimulation and this was confirmed with immunoblot analysis. Furthermore, pathway enrichment and network analyses revealed that insulin-like growth factor (IGF) and calcium signaling pathways as well as TGFβ/BMP signaling proteins are found to be potentially involved in the early and long-term actions of BMP2. Collectively, our TSDTH is a useful simple strategy to obtain comprehensive molecular mechanism of cellular processes such as transdifferntiation.