Curtisrodriguez1287

Socioeconomic disadvantage and disorder in the residential neighborhood have been linked to multiple health risks, but less is known about the relevance of other spaces of daily life. This article considers whether disadvantage and disorder in the immediate context-within or outside of the residential neighborhood-is associated with physiological symptoms indicative of stress and strain. We use data from a study of 61 older adults in four New York City neighborhoods. Participants carried smartphones to capture GPS locations and ecological momentary assessments during the study week. We find that instantaneous exposure to disorder is associated with momentary spikes in pain and fatigue. This is not explained by cumulative exposure to disorder or concurrent stress or fear. Rather, disordered spaces may be physically and cognitively taxing for older adults in real time. We urge further research on short- and long-term health consequences of activity spaces.Hepatocellular carcinoma (HCC) is one of the most common causes of cancer-related deaths worldwide, especially in developing countries. Although advances in surgical procedures and targeted medicine have improved the overall survival of patients with HCC, the prognosis is poor. Hence, there is a need to identify novel therapeutic targets for HCC. Here, we report that the expression of RP11-909N17.2, a novel, long, noncoding RNA (lncRNA), is dysregulated in patients with HCC and cell lines. Additionally, this study demonstrated that RP11-909N17.2 facilitates the proliferation and invasion of HCC cells by binding to miRNA-767-3p, a tumor-suppressive microRNA (miRNA). Small integral membrane protein 7 (SMIM7) was identified as the downstream target of miRNA-767-3p. The expression of SMIM7 was upregulated in HCC clinical samples and cell lines. Moreover, SMIM7 was involved in the proliferation and invasion of HCC cells. Furthermore, SMIM7 inhibited the apoptosis of HCC cells, which indicated the oncogenic role of SMIM7 in HCC. The findings of this study suggest that the lncRNA-miRNA-mRNA regulatory axis, which regulates the pathogenesis of HCC, can be a potential novel diagnostic and therapeutic target for HCC.Staphylococcus aureus represents an opportunistic pathogen, which utilizes elaborate quorum sensing mechanisms to precisely control the expression and secretion of virulence factors. Previous studies indicated a role of the ClpXP proteolytic system in controlling pathogenesis. While detailed transcriptome data for S. aureus ClpP and ClpX knockout mutants is available, corresponding studies on the proteome and secretome level are largely lacking. To globally decipher the functional roles of ClpP and ClpX, we utilized S. aureus genomic deletion mutants of the corresponding genes for in-depth proteomic liquid chromatography-mass spectrometry (LC-MS)/MS analysis. D609 supplier These studies were complemented by an inactive ClpP active-site mutant strain to monitor changes solely depending on the activity and not the presence of the protein. A comparison of these strains with the wildtype revealed, e.g., downregulation of virulence, purine/pyrimidine biosynthesis, iron uptake, and stress response. Correspondingly, the integration of metabolomics data showed a reduction in the subset of purine and pyrimidine metabolite levels. Interestingly, a comparison between the ClpP knockout and ClpP S98A active-site mutant strains revealed characteristic differences. These results are not only of fundamental importance to understand the cellular role of ClpXP but also have implications for the development of novel virulence inhibitor classes.The adsorption of proteins from aqueous medium leads to the formation of protein corona on nanoparticles. The formation of protein corona is governed by a complex interplay of protein-particle and protein-protein interactions, such as electrostatics, van der Waals, hydrophobic, hydrogen bonding, and solvation. The experimental parameters influencing these interactions, and thus governing the protein corona formation on nanoparticles, are currently poorly understood. This lack of understanding is due to the complexity in the surface charge distribution and anisotropic shape of the protein molecules. Here, we investigate the effect of pH and salinity on the characteristics of corona formed by myoglobin on silica nanoparticles. We experimentally measure and theoretically model the adsorption isotherms of myoglobin binding to silica nanoparticles. By combining adsorption studies with surface electrostatic mapping of myoglobin, we demonstrate that a monolayered hard corona is formed in low salinity dispersions, which transforms into a multilayered hard + soft corona upon the addition of salt. We attribute the observed changes in protein adsorption behavior with increasing pH and salinity to the change in electrostatic interactions and surface charge regulation effects. This study provides insights into the mechanism of protein adsorption and corona formation on nanoparticles, which would guide future studies on optimizing nanoparticle design for maximum functional benefits and minimum toxicity.Airborne particulate matter (PM) pollution is an environmental and health concern. The health impact of PM pollution has typically focused on the respiratory system. The impact of PM pollution on skin has been largely understudied due to the lack of a quantitative method to measure the deposition on skin. This manuscript presents a method to quantify PM pollution on skin using elemental markers as a proxy for PM. Skin tape strips were collected from forehead and buttock of 100 outdoor workers in Beijing, China. Skin samples were analyzed for 19 elemental markers using inductively coupled plasma mass spectrometry. To determine the specific elemental signature of PM for the region, air samples were collected over 7 days for PM less then 2.5 μm (PM2.5) and analyzed for the same 19 elements as the skin samples. An enrichment factor was calculated for each element and the potential source was evaluated. Using the elemental markers unique to PM pollution for the region, the PM concentration deposited on skin was determined to be 0.