Formation of atherosclerotic lesions is independent of eosinophils in male mice.

BACKGROUND AND AIMS: Oxidation of low-density lipoprotein (LDL) and oxidized LDL-mediated activation of the innate immune system have been recognized as early key events during the pathogenesis of atherosclerosis. Recent evidence identified eosinophils as a major source of enzymatic lipid oxidation and suggested a potential role of type 2 immunity in atherogenesis. However, the involvement of individual type 2 immune cell subsets involved in this process has been incompletely defined. We therefore sought to determine the role of eosinophils during LDL oxidation and the pathogenesis of this disease. METHODS: Using eosinophil-deficient dblGATA1 mice, we studied the role of eosinophils in two established mouse models of atherosclerosis. RESULTS: These experiments revealed that the presence of eosinophils did neither affect biomarkers of LDL oxidation nor atherosclerotic lesion development. CONCLUSIONS: The obtained results show that LDL oxidation and development of atherosclerosis are largely independent of eosinophils or eosinophil-mediated LDL oxidation.

Evidence that the plastid translocon Tic40 components possess modulating capabilities.

The transport of proteins into the plastid is a process that faces changing cellular needs such as the situation found in different plant organs or developing tissues. The plastid translocon must therefore be responsive to the changing cell environment to deliver efficiently different arrays of structurally diverse proteins. Although the Tic40-related envelope proteins appear to be translocon components designed to address the varying needs of protein translocation, details of their involvement remain elusive. This study was thus designed to combine plant-based experiments and yeast mitochondrion-based approaches for unveiling clues related to how the Tic40 components may behave during the protein translocation process. The main findings related to how Tic40 proteins may work are: 1) natural fluctuations are apparent in developing tissues, in different organs of the same plant, and in different species; 2) transgenic Arabidopsis seedlings can tolerate functionally a wide range of variations in Tic40 levels, from partial suppression to excessive production; 3) the Tic40 proteins themselves exhibit configurational changes in their association with yeast mitochondria in response to different carbon sources; 4) the presence of Tic40 proteins in yeast mitochondria influences regulatory aspects of the mitochondrial translocon; and 5) the Tic40 proteins associate with mitochondrial translocon components involved in regulatory-like events. The combined data provide evidence that Tic40 proteins possess modulating capabilities.

A rapid method for analyzing recombinant protein inclusion bodies by mass spectrometry.

The identification and characterization of a protein overexpressed in insoluble inclusion bodies in Escherichia coli are the first crucial and time-limiting steps in recombinant protein expression. Here, a straightforward approach to the analysis of recombinant proteins in inclusion bodies is presented. Inclusion bodies were dissolved in 8M urea and analyzed by matrix-assisted laser desorption ionization (MALDI)-time of flight mass spectrometry without prior desalting. Mass determination was achieved by direct spotting of the samples onto the MALDI target and serial dilution in the matrix. The masses of four different proteins, expressed in inclusion bodies, were determined with a mass accuracy better than 0.1%. Furthermore, protein modifications, such as N-terminal processing of single amino acids or artificial cyanylation caused by incubation of the inclusion bodies with urea at elevated temperatures, could be detected. Similarly, tryptic digests were directly analyzed in 2M urea to obtain peptide mass fingerprints for identification and more detailed information on the primary protein structure and secondary modifications. Due to the presence of ammonia in the urea-containing buffers, no Na(+) adducts were observed in the peptide mass fingerprint analysis. Taken together, the rapid and robust procedures presented here greatly facilitate the analysis of recombinant proteins.