Cystic fibrosis (CF) results from mutations in the chloride-conducting CF transmembrane conductance regulator (CFTR) gene. Airway dehydration and impaired mucociliary clearance in CF is proposed to result in tonic epithelial sodium channel (ENaC) activity, which drives amiloride-sensitive electrogenic sodium absorption. Decreasing sodium absorption by inhibiting ENaC can reverse airway surface liquid dehydration. Here, we inhibit endogenous heterotrimeric ENaC channels by introducing inactivating mutant ENaC α mRNA (αmutENaC). Lipid nanoparticles carrying αmutENaC were transfected in CF-based airway cells in vitro and in vivo. We observed a significant decrease in macroscopic as well as amiloride-sensitive ENaC currents and an increase in airway surface liquid height in CF airway cells. Similarly, intranasal transfection of αmutENaC mRNA decreased amiloride-sensitive nasal potential difference in CFTRKO mice. These data suggest that mRNA-based ENaC inhibition is a powerful strategy for reducing mucus dehydration and has therapeutic potential for treating CF in all patients, independent of genotype.
Lipid nanoparticles containing messenger RNA (mRNA-LNPs) have launched to the forefront of nonviral delivery systems with their realized potential during the COVID-19 pandemic. Here, we investigate the impact of commonly used biological buffers on the performance and durability of mRNA-LNPs. We tested the compatibility of three common buffers�HEPES, Tris, and phosphate-buffered saline�with a DLin-MC3-DMA mRNA-LNP formulation before and after a single controlled freeze−thaw cycle. We hypothesized that buffer composition would affect lipid-aqueous phase separation. Indeed, the buffers imposed structural changes in LNP morphology as indicated by electron microscopy, differential scanning calorimetry, and membrane fluidity assays. We employed in vitro and in vivo models to measure mRNA transfection and found that Tris or HEPES-buffered LNPs yielded better cryoprotection and transfection efficiency compared to PBS. Understanding the effects of various buffers on LNP morphology and efficacy provides valuable insights into maintaining the stability of LNPs after long-term storage.
The paper describes the demand response programs developed and in operation in New England, and the revised designs for participation in the forward capacity market. This description will include how energy efficiency, demand-side resources, and distributed generation are eligible to participate in this new forward capacity market. The paper will also discuss various methods that can be used to configure and communicate with demand response resources and important concerns in specifying interfaces that accommodate multiple technologies and allow technology choice and evolution.
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