Viral infections usually result in alterations in the host cell proteome which determine the fate of the infected cells and the progress of pathogenesis. To uncover cellular protein responses in classical swine fever virus-infected PK-15 cells, a proteomic analysis was conducted using 2D PAGE followed by MALDI-TOF-MS/MS identification. Altered expression of 35 protein spots in infected cells at 48 h p.i. were identified in 2D gels, with 21 of these being characterized by MALDI-TOF-MS/MS, including 16 upregulated proteins and 5 down-regulated proteins. Western-blot analysis confirmed the up-regulation of annexin 2 and down-regulation of glyceraldehyde-3-phosphate dehydrogenase (GAPDH). The altered proteins could be sorted into 7 groups according to cellular function: cytoskeleton, energy metabolism, replication/transcription and translation processes, protein processing, antioxidative stress proteins, heat shock proteins and signal transduction. The altered expression of these proteins provides a response profile of PK-15 host cells to CSFV infection. Further study of these altered proteins may facilitate understanding the mechanisms of CSFV infection and pathogenesis.
Organelle proteome has become one of the most important fields of proteomics, and the subcellular fractionation with high purity and yield has always been a challenge for cell biologists and also for the Human Liver Proteome Project (HLPP). The liver of a C57BL/6J mouse was chosen as the model to find the optimum method for subcellular preparation. The method we selected could obtain the multiple fractions including plasma membrane, mitochondria, nucleus, ER, and cytosol from a single homogenate. With the same procedure, it is for the first time that the preparation method of frozen homogenized livers was compared with that of the fresh livers and frozen livers. We systematically evaluated the purity, efficiency, and integrity by protein yield, immunoblotting, and transmission electron microscopy. Taken together, the method of multiple fractions from a single tissue is effective enough for subcellular fractionation of mouse liver. We give a selective sample preparation method for frozen homogenized livers, for rare clinical samples, which cannot easily be used for subcellular separation immediately. But the frozen livers are not recommended for organelles isolation. This result is especially useful for sample preparation of human liver for subcellular fractionation of HLPP.
The extraordinary ability of the liver to regenerate after resection continues to be an important fascination to mammalian liver researchers. However, at present, there are still several central questions regarding the process of liver regeneration that are not clear. In our study, we try to clarify how the liver is able to maintain its functions as well as to initiate liver regeneration after a significant loss of two-thirds. Here differentially expressed proteins in rat livers at 1 h after partial hepatectomy (PHx) and sham operation were analyzed using 2-DE combined with MALDI-TOF/TOF MS. After the analysis, 24 significantly changed spots (ratio> or =2, p<0.05) were identified. Those proteins are involved in important liver functions such as metabolism, detoxification, and inflammation. Based on the changes in the protein levels found in our data, we identified two aspects of remnant liver immediately after PHx, which focused on the hepatic adaptation and the inflammatory response associated with the initiation of liver regeneration after PHx. For the first time, the differential expression of pyruvate dehydrogenase complex (PDHX), paraoxonase 1 (PON1), thyroid hormone receptor beta, GAP43 (where GAP stands for growth-associated protein), and interleukin-2 (IL2), after PHx, were validated by Western blot.
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