Autophagy in aging and longevity Wong, Shi Q.; Kumar, Anita V.; Mills, Joslyn ...
Human Genetics,
03/2020, Volume:
139, Issue:
3
Journal Article
Peer reviewed
Open access
Our understanding of the process of autophagy and its role in health and diseases has grown remarkably in the last two decades. Early work established autophagy as a general bulk recycling process ...which involves the sequestration and transport of intracellular material to the lysosome for degradation. Currently, autophagy is viewed as a nexus of metabolic and proteostatic signalling that can determine key physiological decisions from cell fate to organismal lifespan. Here, we review the latest literature on the role of autophagy and lysosomes in stress response and longevity. We highlight the connections between autophagy and metabolic processes, the network associated with its regulation, and the links between autophagic dysfunction, neurodegenerative diseases, and aging.
This paper presents the development of wood flour (WF)-filled polylactic acid (PLA) composite filaments for a fused deposition modeling (FDM) process with the aim of application to 3D printing. The ...composite filament consists of wood flour (5 wt %) in a PLA matrix. The detailed formulation and characterization of the composite filament were investigated experimentally, including tensile properties, microstructure, thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) and X-ray diffraction (XRD). The feedstock filaments of this composite were produced and used successfully in an assembled FDM 3D printer. The research concludes that compared with pure PLA filament, adding WF changed the microstructure of material fracture surface, the initial deformation resistance of the composite was enhanced, the starting thermal degradation temperature of the composite decreased slightly, and there were no effects on the melting temperature. The WF/PLA composite filament is suitable to be printed by the FDM process.
In this study, an effective and green adsorbent was prepared by the self- activation of kenaf fiber and then the kenaf-based activated carbon (KAC) was applied for the removal of lead Pb(II), copper ...Cu(II), and Congo red (CR) dye from an aqueous solution by the process of adsorption. The surface morphology of mesoporous adsorbent was characterized. The KAC showed good capacity of adsorption of as Pb(II), Cu(II), and anionic dye CR in very short period of agitation. The adsorbent efficiency of metal ions and dye was estimated by varying the adsorbent dose, pH, contact time, initial metals and dye concentration, and temperature. Optimum adsorption of metal ions and CR dye was observed at pH 6, and at pH 4 at 120 min, respectively. The adsorption isotherm was described by the Langmuir and Freundlich isotherm equations. The green adsorbent followed the pseudo-second-order kinetic model with correlation coefficients R2 value >0.99. The increase in adsorption temperature enhanced the adsorption efficiency for both heavy metals and dye. The KAC showed no significant loss of the adsorption capacity after 3 cycles of reuse.
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•Kenaf core is used for the preparation of mesoporous activated carbon by a green process.•The green adsorbent obeyed the second order kinetic model.•Kenaf based activated carbon (KAC) exhibited ultra-rapid removal of anionic dye and heavy metal ions.•KAC is a low-cost bio adsorbent, which can be utilized for the treatment of toxic effluents.
Summary
Background
Inflammation plays a vital role in liver cirrhosis progression and prognosis.
Aim
To investigate the prognostic significance of inflammatory response markers in decompensated ...cirrhotic patients without acute‐on‐chronic liver failure (ACLF).
Methods
Independent predictors were identified using multivariate Cox model and then assembled into a nomogram to predict survival. Concordance index (C‐index) and time‐dependent receiver operating characteristics (td‐ROC) analysis were adopted to evaluate and compare the performance of nomogram, model for end‐stage liver disease (MELD) scores, MELD‐Na and Chronic Liver Failure‐consortium score for acute decompensated (CLIF‐C ADs).
Results
A total of 902 decompensated cirrhotic patients with different aetiologies were enrolled, with 6‐month, 1‐year and 3‐year mortality of 18.6%, 24.4% and 34.8%, respectively. The cut‐off values for neutrophil‐to‐lymphocyte ratio (NLR) and lymphocyte‐to‐monocyte ratio (LMR) determined by X‐tile program were 5.7 and 1.1 respectively. Patients with NLR>5.7 or LMR≤1.1 had significantly higher mortality (P < 0.001). Independent factors derived from multivariable Cox analysis of development cohort to predict mortality were age, NLR and LMR (hazard ratio (HR): 1.064, 95% confidence interval (CI): 1.045–1.084, P < 0.001; HR: 1.124, 95%CI: 1.091–1.158, P < 0.001; HR: 0.794, 95%CI: 0.702–0.898, P < 0.001, respectively). The C‐indexes of nomogram were higher than that of MELD score, MELD‐Na and CLIF‐C ADs for predicting survival. The tdROC and decision curves showed that nomogram was superior to MELD score, MELD‐Na and CLIF‐C ADs. Similar results were observed in validation cohort.
Conclusion
The proposed nomogram with neutrophil‐to‐lymphocyte ratio and lymphocyte‐to‐monocyte ratio resulted in accurate prognostic prediction for decompensated cirrhotic patients without ACLF.
Linked ContentThis article is linked to Forest and Cai and Shi et al papers. To view these articles visit https://doi.org/10.1111/apt.14183 and https://doi.org/10.1111/apt.14208.
During periods of storm activity and enhanced convection, the plasma density in the afternoon sector of the magnetosphere is highly dynamic due to the development of plasmaspheric drainage plume ...(PDP) structure. This significantly affects the local Alfvén speed and alters the propagation of ULF waves launched from the magnetopause. Therefore, it can be expected that the accessibility of ULF wave power for radiation belt energization is sensitively dependent on the recent history of magnetospheric convection and the stage of development of the PDP. This is investigated using a 3‐D model for ULF waves within the magnetosphere in which the plasma density distribution is evolved using an advection model for cold plasma, driven by a (VollandStern) convection electrostatic field (resulting in PDP structure). The wave model includes magnetic field day/night asymmetry and extends to a paraboloid dayside magnetopause, from which ULF waves are launched at various stages during the PDP development. We find that the plume structure significantly alters the field line resonance location, and the turning point for MHD fast waves, introducing strong asymmetry in the ULF wave distribution across the noon meridian. Moreover, the density enhancement within the PDP creates a waveguide or local cavity for MHD fast waves, such that eigenmodes formed allow the penetration of ULF wave power to much lower L within the plume than outside, providing an avenue for electron energization.
Key Points
ULF wave accessibility to the inner magnetosphere depends on plasmaspheric density structure generated during periods of strong convection
A 3‐D MHD model for ULF waves shows that eigenmodes are excited within plasmaspheric drainage plume density structures
This provides a pathway for radiation belt energization by ULF waves at lower L shell than would otherwise be possible
Human health and environmental protection demand wood-based panel industry for innovative soy-based adhesives with high production efficiency, straightforward synthesis processes, non-toxicity, and ...high bonding performance. A simple and efficient microwave pretreatment process and low addition of bio-derived crosslinking agent was used in this study to prepare a non-toxic and high-bonding performance soybean protein-based adhesive. After 4 min of microwave pretreatment time, the complex quaternary structure of soybean protein molecule unfolds, the soybean protein disperses evenly and stably, and active groups of soybean protein molecules are exposed. After adding 3.85% crosslinking agent, the moisture absorption rate of the soybean protein-based adhesive decreases by 41.77%, the residual rate increases by 3.68%, and the wet shear strength of the resultant plywood increases to 1.12 MPa, which satisfies requirement of interior use plywood. Compared with previously reported soy-based adhesives, this adhesive is dependent on fewer chemical reagents, but has good bonding performance. The 204.41% of relative cell viability indicates the resultant adhesive was non-toxic. The proposed high-efficiency, high-performance, non-toxic biomass adhesive has great prospects for the industrial application.
•A non-toxic and high-performance soybean protein-based adhesive was developed.•Microwave treatment (MT) breaks soybean protein molecule and exposes active groups.•After 4 mins MT, the wet shear strength of resultant plywood increased by 160.47%.•MT reduces the dosage of chemical reagent for soybean protein-based adhesive.•Relative cell viability of modified soybean protein-based adhesive reaches 204.41%.
Magnetic cavities (sometimes referred to as magnetic holes) at electron kinetic scale are thought to be one of the extremely small intermittent structures formed in magnetized turbulent plasmas, ...where the turbulence energy cascaded down to electron scale may finally be dissipated and consequently energize the electrons. However, the geometry and formation of these structures remain not definitively resolved. Here we discuss an electron scale magnetic cavity embedded in a proton scale magnetic cavity observed by the MMS spacecraft in the magnetosheath. By applying an innovative particle sounding technique, we directly depict the boundary of the electron scale magnetic cavity and uncover the geometry. We find that this structure is nearly circular with a radius of 10.0 km and its formation is due to the diamagnetic current. Investigation of the electron scale structure is only recently made possible by the high spatial and temporal resolution provided by MMS observations.