SUMMARY
Survival in the wild requires organismal adaptations to the availability of nutrients. Endosomes and lysosomes are key intracellular organelles that couple nutrition and metabolic status to cellular responses, but how they detect cytosolic ATP levels is not well understood. Here we identify an endolysosomal ATP-sensitive Na+ channel (lysoNaATP). The channel is a complex formed by Two-Pore Channels (TPC1 and TPC2), ion channels previously thought to be gated by nicotinic acid adenine dinucleotide phosphate (NAADP), and the mammalian target of rapamycin (mTOR). The channel complex detects nutrient status, becomes constitutively open upon nutrient removal and mTOR translocation off the lysosomal membrane, and controls the lysosome's membrane potential, pH stability, and the amino acid homeostasis. Mutant mice lacking lysoNaATP have much reduced exercise endurance after fasting. Thus, TPCs are a new ion channel family that couple the cell's metabolic state to endolysosomal function and are crucial for physical endurance during food restriction.
Betel nut (BN) is a psychoactive oral carcinogen that is commonly used among Asian communities. This study aims to investigate BN usage patterns and the effectiveness of a visually guided educational initiative in a high-risk refugee population. All adult patients presenting to a private practice clinic, free community clinic, or health fair in the refugee community of Clarkston, Georgia during days when survey staff were present were approached for the study. Participants were first categorized into a familiar and unfamiliar cohort depending on participant-reported familiarity with BN. Depending on familiarity, subjects were then administered a pre-intervention test surveying health awareness for BN and usage patterns where relevant; subsequently, a visually guided educational brochure was reviewed, and a post-intervention test was administered. Results were statistically analyzed (STATA 12). Forty-eight participants were surveyed for the familiar cohort and 25 for the unfamiliar cohort. Among the familiar cohort, South and Southeast Asians comprised 91% of participants. On frequency of use, 42.8% reported social, 28.6% reported usage during celebrations only, and 28.6% reported daily. The most common reasons for use were for taste (40.9%), enjoyment (38.6%), and addiction (25%). Among the familiar cohort, 75% believed BN was harmful for health compared to 8% among the unfamiliar (p < 0.0001). In the familiar cohort, 52.3% believed BN alone could cause cancer compared to 4% among the unfamiliar (p < 0.0001). Following the educational intervention, 100% of participants believed BN mastication is harmful in both cohorts (p < 0.01), while 87.5% of participants in both cohorts recognized that BN alone could cause cancer (p < 0.0007). This study illustrates gaps in understanding regarding oral cancer and the health consequences of chronic BN mastication, as well as the efficacy of a visually guided educational brochure to improve participant knowledge among a high-risk refugee population.
Oil/water separations have become an area of great interest, as growing oil extraction activities are increasing the generation of oily wastewaters as well as increasing the risk of oil spills. Here, we demonstrate a membrane-based and fouling-free oil/water separation method that couples carbon nanotube-poly(vinyl alcohol) underwater superoleophobic ultrafiltration membranes with magnetic Pickering emulsions. We demonstrate that this process is insensitive to low water temperatures, high ionic strength, or crude oil loading, while allowing operation at high permeate fluxes and producing high quality permeate. Furthermore, we develop a theoretical framework that analyzes the stability of Pickering emulsions under filtration mechanics, relating membrane surface properties and hydrodynamic conditions in the Pickering emulsion cake layer to membrane performance. Finally, we demonstrate the recovery and recyclability of the nanomagnetite used to form the Pickering emulsions through a magnetic separation step, resulting in an environmentally friendly, continuous process for oil/water separation.
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