Chronic obstructive pulmonary disease (COPD) is the fourth leading cause of morbidity and mortality in the United States and cigarette smoking is a primary determinant of the disease. COPD is characterized by chronic airflow limitation as measured by the forced expiratory volume in one second (FEV(1)). In this study, the plasma proteomes of 38 middle-aged or older adult smokers with mild to moderate COPD, with FEV(1) decline characterized as either rapid (RPD, n = 20) or slow or absent (SLW, n = 18), were interrogated using a comprehensive high-throughput proteomic approach, the accurate mass and time (AMT) tag technology. This technology is based upon a putative mass and time tag database (PMT), high-resolution LC separations and high mass accuracy measurements using FT-ICR MS with a 9.4-T magnetic field. The peptide and protein data were analyzed using three statistical approaches to address ambiguities related to the high proportion of missing data inherent to proteomic analysis. The RPD and SLW groups were differentiated by 55 peptides which mapped to 33 unique proteins. Twelve of the proteins have known roles in the complement or coagulation cascade and, despite an inability to adjust for some factors known to affect lung function decline, suggest potential mechanistic biomarkers associated with the rate of lung function decline in COPD. Whether these proteins are the cause or result of accelerated decline will require further research.
Secreted proteins, the secretome, can be isolated from biological fluids (e.g., blood) and are often responsible for the regulation of biological processes such as cell signaling, growth, and apoptosis. The identification of secreted proteins can lead to an understanding of disease mechanisms and they can serve as early candidate biomarkers of disease and exposure. However, it is time-consuming and costly to conduct in vivo interrogations of the human secretome. The purpose of this article is to provide a detailed description of a rapid in vitro technique for the analysis of differential protein secretion due to exposure to smoking-machine-generated cigarette smoke (CS) condensate (total particulate matter, TPM). Endothelial cells were exposed to CS-TPM, the supernatant was collected, and the secretome was elucidated by nano liquid chromatography coupled with high-resolution mass spectrometry. A total of 1,677 unique peptides were identified in the cell culture supernatants. Several proteins were differentially expressed following CS-TPM exposure that relate to several biological processes, such as metabolism, development, communication, response to stimulus, and response to stress.
Kikuchi Fujimoto Disease, originally discovered in 1972, is a rare lymphoproliferative disorder traditionally characterized by cervical lymphadenopathy, fevers, parotid gland enlargement, and several other nonspecific manifestations. Differentials include lymphoma, other viral diseases such as Epstein-Bar Virus, as well as other autoimmune conditions such as Systemic Lupus Erythematosus. Central nervous system involvement is exceptionally rare, with manifestations including meningitis as well as subdural effusions, as presented in this case. This review will summarize a case of a 24-year-old man with recurrent subdural effusions requiring intervention, subsequent relapse with abdominal lymphadenopathy, and possible IgG4 related disease. The background epidemiology, radiology, and potential pathophysiology will be reviewed.
Phosphorylation is the most widely studied posttranslational modification (PTM) and is an important regulatory mechanism used during cellular responses to external stimuli. The kinases and phosphatases that regulate protein phosphorylation are known to be affected in many human diseases. Cigarette smoking causes cardiovascular disease (CVD). Endothelial cells play a pivotal role in CVD initiation and development; however, there have been limited investigations of the specific signaling cascades and protein phosphorylations activated by cigarette smoke in endothelial cells. The purpose of this research was to better understand the differential protein phosphorylation in endothelial cells stimulated with extracts of cigarette smoke total particulate matter (CS-TPM) in vitro. Human microvascular endothelial cells were exposed in vitro to CS-TPM at concentrations that were shown to cause endothelial cell dysfunction. The phosphorylated proteins were isolated using phosphoprotein-specific chromatography, followed by enzymatic digestion and nano-flow capillary liquid chromatography (ncap-LC) coupled to high resolution mass spectrometry. This study putatively identified 94 proteins in human microvascular endothelial cells that were differentially bound to a phosphoprotein-specific chromatography column following exposure to CS-TPM suggesting differential phosphorylation. Pathway analysis has also been conducted and confirmations of several observations have been made using immunoaffinity-based techniques (e.g., Western blotting).
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