The Effect of Lactic Acid on Mast Cell Function

This study shows for the first time the effect that L-(+)-lactic acid has on mast cell activation. Lactic acid is a byproduct of anaerobic glycolysis and is associated with inflammatory environments such as wounds, tumors and, asthma. In this study, pre-treatment with lactic acid altered cytokine production by bone marrow-derived mast cells (BMMC). Specifically, lactic acid enhanced cytokine secretion following IgE cross-linking, but decreased IL-33 mediated cytokine production. These effects were altered by genetic background, since C57BL/6 mast cells demonstrated the aforementioned result, but lactic acid had no effect on IgE-mediated cytokine production in 129/SvJ mast cells. The affected cytokines included IL-6, TNF, MCP-1, MIP-1α, IL-13, and VEGF. Lactic acid pretreatment promoted a G0/G1 cell cycle arrest. Investigation into the IL-33 signaling pathway showed lactic acid decreased TAK1 and JNK phosphorylation, while increasing phosphorylated AKT levels. Blocking JNK and TAK1 with a small molecule inhibitor mimicked the effects of lactic acid. Interestingly, lactic acid significantly increased IL-33 mediated VEGF. An in vitro angiogenesis assay confirmed that mast cells were pro-angiogenic in a lactic acid-rich environment. Taken together, these data show that lactic acid impacts mast cell function, possibly promoting a pro-angiogenic, anti-inflammatory phenotype

Revisiting two-step Forbush decreases

Interplanetary coronal mass ejections (ICMEs) and their shocks can sweep out galactic cosmic rays (GCRs), thus creating Forbush decreases (FDs). The traditional model of FDs predicts that an ICME and its shock decrease the GCR intensity in a two-step profile. This model, however, has been the focus of little testing. Thus, our goal is to discover whether a passing ICME and its shock inevitably lead to a two-step FD, as predicted by the model. We use cosmic ray data from 14 neutron monitors and, when possible, high time resolution GCR data from the spacecraft International Gamma Ray Astrophysical Laboratory (INTEGRAL). We analyze 233 ICMEs that should have created two-step FDs. Of these, only 80 created FDs, and only 13 created two-step FDs. FDs are thus less common than predicted by the model. The majority of events indicates that profiles of FDs are more complicated, particularly within the ICME sheath, than predicted by the model. We conclude that the traditional model of FDs as having one or two steps should be discarded. We also conclude that generally ignored small-scale interplanetary magnetic field structure can contribute to the observed variety of FD profiles

THE UNIVERSITY OF AKRON NFPA 2015/2016 Chainless Challenge

Parker Hannifin has issued a challenge to student design teams of creating a Chainless bike using a hydraulic system. Each student design team will be assigned a technical advisor from the University. The project will be divided into two phases after the initial kickoff. The first phase will align with senior design course for motion control and hydraulics and will yield the student obtaining knowledge in hydraulics, including bio-degradable fluids, pneumatics, electromechanical systems, green technologies (sustainable energy) and controlling force and motion. Students will be provided data sheets, a list of in-stock Parker components and by the end of the first phase will be able to choose components. Additionally, mechanical drawings, fluid control circuits, and initial designs created for the vehicle will be required