Dichotomous Responses to Chronic Fetal Hypoxia Lead to a Predetermined Aging Phenotype

Hypoxia-induced intrauterine growth restriction increases the risk for cardiovascular, renal, and other chronic diseases in adults, representing thus a major public health problem. Still, not much is known about the fetal mechanisms that predispose these individuals to disease. Using a previously validated mouse model of fetal hypoxia and bottom-up proteomics, we characterize the response of the fetal kidney to chronic hypoxic stress. Fetal kidneys exhibit a dichotomous response to chronic hypoxia, comprising on the one hand cellular adaptations that promote survival (glycolysis, autophagy, and reduced DNA and protein synthesis), but on the other processes that induce a senescence-like phenotype (infiltration of inflammatory cells, DNA damage, and reduced proliferation). Importantly, chronic hypoxia also reduces the expression of the antiaging proteins klotho and Sirt6, a mechanism that is evolutionary conserved between mice and humans. Taken together, we uncover that predetermined aging during fetal development is a key event in chronic hypoxia, establishing a solid foundation for Barker’s hypothesis of fetal programming of adult diseases. This phenotype is associated with a characteristic biomarker profile in tissue and serum samples, exploitable for detecting and targeting accelerated aging in chronic hypoxic human diseases

iTAP, a novel iRhom interactor, controls TNF secretion by policing the stability of iRhom/TACE

The apical inflammatory cytokine TNF regulates numerous important biological processes including inflammation and cell death, and drives inflammatory diseases. TNF secretion requires TACE (also called ADAM17), which cleaves TNF from its transmembrane tether. The trafficking of TACE to the cell surface, and stimulation of its proteolytic activity, depends on membrane proteins, called iRhoms. To delineate how the TNF/TACE/iRhom axis is regulated, we performed an immunoprecipitation/mass spectrometry screen to identify iRhom-binding proteins. This identified a novel protein, that we name iTAP (iRhom Tail-Associated Protein) that binds to iRhoms, enhancing the cell surface stability of iRhoms and TACE, preventing their degradation in lysosomes. Depleting iTAP in primary human macrophages profoundly impaired TNF production and tissues from iTAP KO mice exhibit a pronounced depletion in active TACE levels. Our work identifies iTAP as a physiological regulator of TNF signalling and a novel target for the control of inflammation.info:eu-repo/semantics/publishedVersio

Neue und interessante Insektenfunde aus dem Faunengebiete S\ufcdbayerns

Volume: 34Start Page: 492End Page: 49

How high-resolution techniques enable reliable steroid identification and quantification

Due to possible matrix interferences and artefact generation during sample preparation, careful method validation is required for quantitative bioanalytical methods, especially for analytes that are only present in low concentrations. Using the identification and quantification of progesterone metabolite in the urine of newborns as an example, we show how modern high-resolution instruments can be used to verify analyte assignment and avoid pitfalls commonly encountered by the use of low-resolution instruments

A comprehensive urinary steroid analysis strategy using two-dimensional gas chromatography - time of flight mass spectrometry.

Steroids are key players in a high variety of physiological processes and are typically analyzed for the diagnosis of hormonal disorders. Due to their chemical and structural similarity many of these metabolites cannot be separated by conventional techniques such as liquid chromatography. Herein, we present an analysis strategy based on two dimensional gas chromatography (GC×GC) coupled to time-of-flight mass spectrometry (TOF MS) which demonstrates superior separation power and enables comprehensive screening of steroids. We show absolute quantitation of 40 steroids in human urine over three orders of magnitude with limits of detection ≤50 nM and the tentative identification of additional 30 steroids based on accurate mass, isotopic pattern analysis and spectral similarity matching to known steroids. The method displays excellent inter- and intra-day stability, repeatability and recovery and was validated for clinical routine analysis. Additionally, we demonstrate the potential of the approach for untargeted analysis of urinary steroids in mouse and rat

Quantification of Cytokines secreted by primary human cells using multiple reaction monitoring: evaluation of analytical parameters

Determination of secreted proteins provides highly valuable information about cell functions. While the typical methods for the determination of biologically relevant but low-abundant molecular species still relies on the use of specific antibodies, mass spectrometry-based methods are now gaining sufficient sensitivity to cope with such challenges as well. In the current study we have identified several cytokines and chemokines which were induced in primary human umbilical vein endothelial cells upon inflammatory activation. Based on the high-resolution mass spectrometry data obtained with a Q Exactive orbitrap, we built an MRM method to quantify the most relevant molecules selected from the screening experiment. All experimental data are available via ProteomeXchange, PXD002211/12, and Panorama, www.panoramaweb.org. Using nano-flow Chip-HPLC coupled to a 6490 triple-quadrupole MS for MRM analyses we achieved calibration curves covering a linear range of four orders of magnitude and detection limits in the low attomol per microliter concentration range. Carryover was consistently less than 0.005%, the accuracy was between 80% and 120%, and the median coefficient of variation for LC/MS was only 2.2%. When including the variance of quantification introduced by cell culture and digestion, the coefficient of variation was less than 20% for most peptides. With appropriate marker molecules we monitored typical variations introduced by cell culture caused by differences in cell numbers, proliferative states and cell death. As a result, here, we present a robust and efficient MRM-based assay for the accurate and sensitive determination of cytokines and chemokines representative for functional cell states and including comprehensive quality controls

Impact of student to student peer mentoring program in first year of pharmacy program

BACKGROUND AND PURPOSE: Mentoring programs, a practical tool commonly used by universities, can serve to help new students adapt to challenging college life. Peer mentorship offers the potential for professional development of student pharmacists. EDUCATIONAL ACTIVITY AND SETTING: The Raabe College of Pharmacy at Ohio Northern University implemented a peer mentoring program in 2014. This study evaluates the impact of that program on new student pharmacists. A post-program survey was completed evaluating students\u27 career perception, emotional stability, academic success, and student perception of the program\u27s influence on these areas. FINDINGS: The results indicated that 71.7% of respondents found the mentoring program helpful in their transition to college, and that 60.4% of respondents would somewhat likely or extremely likely stay active in the mentoring program. DISCUSSION: Peer mentorship may serve as a tool to assist student acclimation to the expectations of a professional degree program. SUMMARY: It was concluded that the pharmacy mentorship program at the Raabe College of Pharmacy at Ohio Northern is making a positive impact on first-year students by engaging them in the pharmacy program and aiding their transition from high school to college