Salt Loading Research Articles

Polysilaketals: High‐Performance Polyether‐Based Electrolytes with Tunable Disubstituted Silane Linkers

Polymer electrolytes exhibit higher energy density and improved safety in lithium‐ion batteries relative to traditionally used liquid electrolytes but are currently limited by their lower electrochemical performance. Aiming to access polymer electrolytes with competitive electrochemical properties, we developed the anionic ring‐opening polymerization (AROP) of cyclic silaketals to synthesize amorphous silicon‐containing polyether‐based electrolytes with varying substituent bulk of the general formula [OSi(R)2(CH2CH2O)2]n (R = alkyl, phenyl). As opposed to previously reported uncontrolled polycondensation routes toward low molecular weight polysilaketals, AROP allows access to targeted molecular weights above the entanglement threshold of the polymers. The polysilaketal with the lowest steric bulk (P(OSiMe,Me‐2EO)) exceeds the conductivity of poly(ethylene oxide) (PEO), a leading polymer electrolyte. To the best of our knowledge, this is the first solid polymer electrolyte to achieve this benchmark. Steric bulk in polysilaketals was found to impart stability and two bulkier polysilaketals, P(OSiEt,Et‐2EO) and P(OSiMe,Ph‐2EO), exhibited higher current fractions than PEO over a wide range of salt loadings. Moreover, the efficacy of P(OSiEt,Et‐2EO) was competitive with that of PEO. Taken together, the tunable and competitive electrochemical properties of polysilaketals validate the systematic incorporation of silyl groups as a strategy to access high performance polymer electrolytes.

Polysilaketals: High-Performance Polyether-Based Electrolytes with Tunable Disubstituted Silane Linkers.

Polymer electrolytes exhibit higher energy density and improved safety in lithium-ion batteries relative to traditionally used liquid electrolytes but are currently limited by their lower electrochemical performance.Aiming to access polymer electrolytes with competitive electrochemical properties, we developed the anionic ring-opening polymerization (AROP) of cyclic silaketals to synthesize amorphous silicon-containing polyether-based electrolytes with varying substituent bulk of the general formula [OSi(R)2(CH2CH2O)2]n(R = alkyl, phenyl).As opposed to previously reported uncontrolled polycondensation routes toward low molecular weight polysilaketals, AROP allows access to targeted molecular weights above the entanglement threshold of the polymers. The polysilaketal with the lowest steric bulk (P(OSiMe,Me-2EO)) exceeds the conductivity of poly(ethylene oxide) (PEO), a leading polymer electrolyte. To the best of our knowledge, this is the first solid polymer electrolyte to achieve this benchmark. Steric bulk in polysilaketals was found to impart stability and two bulkier polysilaketals, P(OSiEt,Et-2EO) and P(OSiMe,Ph-2EO), exhibited higher current fractions than PEO over a wide range of salt loadings. Moreover, the efficacy of P(OSiEt,Et-2EO) was competitive with that of PEO. Taken together, the tunable and competitive electrochemical properties of polysilaketals validate thesystematic incorporation of silyl groups as a strategy to access high performance polymer electrolytes.

Myeloid-Specific JAK2 Contributes to Inflammation and Salt Sensitivity of Blood Pressure.

Salt sensitivity of blood pressure (SSBP), characterized by acute changes in blood pressure with changes in dietary sodium intake, is an independent risk factor for cardiovascular disease and mortality in people with and without hypertension. We previously found that elevated sodium concentration activates antigen-presenting cells (APCs), resulting in high blood pressure, but the mechanisms are unknown. Here, we hypothesized that APC-specific JAK2 (Janus kinase 2) through STAT3 (signal transducer and activator of transcription 3) and SMAD3 (small mothers against decapentaplegic homolog 3) contributes to SSBP. We performed bulk or single-cell transcriptomic analyses following in vitro monocytes exposed to high salt and in vivo high sodium treatment in humans using a rigorous salt-loading/depletion protocol to phenotype SSBP. We also used a myeloid cell-specific CD11c+ JAK2 knockout mouse model and measured blood pressure with radiotelemetry after N-omega-nitro-L-arginine-methyl ester and a high salt diet treatment. We used flow cytometry for immunophenotyping and measuring cytokine levels. Fluorescence in situ hybridization and immunohistochemistry were performed to spatially visualize the kidney's immune cells and cytokine levels. Echocardiography was performed to assess cardiac function. We found that high salt treatment upregulates gene expression of the JAK/STAT/SMAD pathway while downregulating inhibitors of this pathway, such as suppression of cytokine signaling and cytokine-inducible SH2, in human monocytes. Expression of the JAK2 pathway genes mirrored changes in blood pressure after salt loading and depletion in salt-sensitive but not salt-resistant humans. Ablation of JAK2, specifically in CD11c+ APCs, attenuated salt-induced hypertension in mice with SSBP. Mechanistically, we found that SMAD3 acted downstream of JAK2 and STAT3, leading to increased production of highly reactive isolevuglandins and proinflammatory cytokine IL (interleukin)-6 in renal APCs, which activate T cells and increase production of IL-17A, IL-6, and TNF-α (tumor necrosis factor-alpha). Our findings reveal the APC JAK2 signaling pathway as a potential target for the diagnosis and treatment of SSBP in humans.

ACTH stimulation and oral salt loading tests detect biochemical outcome early after primary aldosteronism surgery.

In primary aldosteronism (PA), the biochemical outcomes of the Primary Aldosteronism Surgical Outcome study are used to assess aldosterone hypersecretion 6-12 months after surgery. However, few studies have investigated whether the outcomes can be predicted in the early postoperative period. In this retrospective study, we evaluated whether the adrenocorticotropin stimulation test (AST) and oral salt loading test (OST) performed immediately after surgery could predict biochemical outcomes 1 year after surgery. We assessed 268 patients with PA who underwent adrenalectomy at our hospital between 2008 and 2020, underwent AST and OST within 15 days of surgery, and were assessed for biochemical outcomes 1 year after surgery. Patients were divided into two groups: biochemical complete success (B-com; n = 219) and incomplete success (B-inc; n = 49). Patients were divided into clinical complete and partial success and absent success groups. The relationships between various AST and OST values and outcomes were analyzed. The B-inc group had significantly higher plasma aldosterone concentration (PAC) and PAC/serum cortisol ratio (PAC/Cort) at baseline and after ACTH loading in AST and 24-hour urine aldosterone in OST than the B-com group. PAC/Cort at 30 min after ACTH loading (area under the curve (AUC) = 0.76) and 24-hour urine aldosterone (AUC = 0.77) were relatively superior predictors of the outcome. Parameters after ACTH loading were better predictors of biochemical and clinical outcomes than baseline. AST and OST immediately after surgery can predict biochemical and clinical outcomes 1 year after surgery in patients with PA.

Adsorption of Carotenoids, Chloride, and Sulfate from Annatto Dye Agro-Industrial Effluent

<p>Natural dyes, such as annatto, are widely used in the food and pharmaceutical industries. However, the effluents from annatto dye production pose environmental challenges due to the presence of residual dye components, organic matter, and dissolved inorganic species (chloride and sulfate). This study, the first attempt in the literature to deal with real annatto dye effluent, aimed to evaluate the use of activated carbon for the removal of carotenoids (norbixin), chloride, and sulfate. A 2³ full-factorial design was employed to optimize the adsorption process parameters (temperature, pH, and adsorbent mass). The results showed that up to 90% of carotenoids and chloride could be removed under optimized conditions (low temperature and pH). Sulfate removal was more strongly influenced by the pH of the medium, with a maximum removal of 53%. The adsorption process was well-described by empirical models, though traditional isotherm models did not adequately represent the experimental data. Hypotheses that support isotherm models such as pore homogeneity, monolayer formation, constant internal diffusion were not satisfied. This study demonstrates the potential of activated carbon adsorption as a feasible method for treating food industry effluents containing high loads of carotenoids and inorganic salts.</p>

8437 Improved Quality Of Life&Blood Pressure Following Diagnosis And Medical Management Of Primary Aldosteronism (PA) / Georgian Experience

Abstract Disclosure: Q. Gvazava: None. N. Zavrashvili: None. N. Shonia: None. Improved Quality of Life and Blood Pressure Following Diagnosis and Medical Management of Primary Aldosteronism (PA) - Georgian Experience Introduction: PA is the most common cause of secondary hypertension which still remains as an underdiagnosed condition in many countries, including Georgia. The choice of pharmacological or surgical therapy depends on the results of computed tomography scans of the adrenal glands and adrenal venous sampling. In patients with bilateral aldosterone hypersecretion, the optimal is a low-sodium diet and lifelong treatment with a mineralocorticoid receptor antagonist administered at a dosage to reach a high-normal serum potassium concentration. Discussion: 60 y/o male with a 17-year history of hypertension. He was treated with 3 drug-program: valsartan, amlodipine, bisoprolol. BP was not adequately managed with systolic BP >140 mm/Hg. Patient had a history of hypokalaemia and required regular potassium supplements. Patient had never been evaluated for possible PA. We planned case detection test, which came up positive, with increased aldosterone, suppressed renin concentration and increased aldosterone-renin ratio. Abdominal CT performed 1 year ago for another reason revealed “normal” adrenals.After discussing treatment options patient preferred medical management and Eplerenone was started, dose titrated accordingly, K supplements were discontinued which over time resulted in decrease in requirement of his other antihypertensive medications, with BP adequately managed. Patient’s quality of life improved significantly, he has shared his test results and progress on his follow up visits; He is very grateful and feels content with the treatment. We present another case of 49 y/o male patient with a 19 year history of hypertension. Patient was treated with 4 drug-regimen: Valsartan, Hydrochlorothiazide, Amlodipine, nebivolol with average BP findings – 140/90 mm/Hg.Case detection test was positive with increased aldosterone, suppressed renin and increased aldosterone-renin ratio. Patient required confirmatory testing. Salt loading was done which confirmed the diagnosis of PA. On unenhanced CT of the abdomen, bilateral adrenal hyperplasia was found. Patient was started on Eplerenone, on follow up, his BP findings are significantly improved, number of BP meds are also decreased. Conclusion: Diagnosis of PA provides clinicians with unique opportunity to cure or effectively improve hypertension and hypokalaemia, as well as to prevent potential target organ damage and complications. That’s why the importance of increased awareness and having high clinical suspicion cannot be understated. Presentation: 6/3/2024

5165 Cushing’s Disease And Primary Aldosteronism Confounded By A Non-functioning Solitary Adrenal Incidentaloma

Abstract Disclosure: J.G. Friedman: None. W. Huang: None. Background: Adrenal incidentalomas are common, affecting ∼2% of the general population. The presence of adrenal incidentaloma necessitates biochemical testing for hypersecretion, however hypercortisolism and/or hyperaldosteronism may not necessarily originate from the nodule that prompted the initial workup. Clinical Case: A 53-year-old man with a history of obesity and hypertension was referred for workup of a 2.4 x 1.4 cm R adrenal nodule that was incidentally discovered on an abdominal CT to rule out pancreatitis. He was noted on examination to have some Cushingoid features. He was on three antihypertensives (amlodipine 10 mg, carvedilol 50 mg, and spironolactone 50 mg) with adequate blood pressure control and no hypokalemia. He denied spells nor exogenous steroid exposure. Initial testing for hypersecretion showed an elevated cortisol 8.7 ug/dL (<1.8) after 1 mg dexamethasone with adequate dexamethasone level, aldosterone concentration (PAC) 9 ng/dL (3-16), plasma renin activity (PRA) 0.7 ng/mL/h (0.25-5.82), potassium of 3.8 mmol/L (3.5-5.1), and normal plasma metanephrines. Further testing revealed elevated 24-hour urinary free cortisol 81.3 mcg/24h (4-50) and elevated late night salivary cortisol 0.10 and 0.13 mg/dL (<0.09). Baseline 8 AM ACTH was not suppressed 16.3 pg/mL (7.2-63.6). DDAVP stimulation resulted in an increase in cortisol and ACTH suggestive of Cushing’s disease, which was confirmed by inferior petrosal sinus sampling (IPSS). Pituitary MRI showed a 3.6 mm L-sided microadenoma. He underwent transsphenoidal resection with pathology consistent with an ACTH-staining pituitary adenoma. Immediate post-op cortisol nadir was 4.9 ug/dL. A few weeks after surgery, he underwent retesting for primary aldosteronism notable for PAC 14 ng/dL, PRA 0.58 ng/mL/h, and K 4.0 mmol/L. After oral salt loading, 24-hour urine aldosterone was 14.4 mcg/24h (<12) with urine sodium 247 mmol/L/24h (>200). He completed AVS which lateralized to the L adrenal gland despite a R adrenal nodule. He underwent L adrenalectomy with significant improvement in blood pressure which is now well-controlled on carvedilol monotherapy with normalization of PRA to 1.94 ng/ml/h. The R adrenal nodule remains stable in size and appearance on follow up imaging. Conclusion: The presence of an adrenal adenoma with concomitant biochemical evidence of hormonal excess cannot inherently be attributed to nodular autonomous function without further workup. Other hormonal assessment including ACTH level and localization studies are necessary prior to any surgical procedure to avoid missed diagnoses of Cushing’s disease and contralateral primary aldosteronism in the presence of a non-functioning adrenal nodule. Presentation: 6/1/2024

Measurement and heuristic modelling of nitrogen and salt dynamics under Salicornia growing in a hyper-arid region and irrigated with groundwaters of differing nutrient and Salt loadings

Measurement and heuristic modelling of nitrogen and salt dynamics under Salicornia growing in a hyper-arid region and irrigated with groundwaters of differing nutrient and Salt loadings

SWIEET-a salt-free alternative to QuEChERS.

The efficient extraction of various analytes from a wide spectrum of matrices with organic solvents is still a great challenge in analytical chemistry. Especially polar and charged compounds are hard to extract in combination with neutral analytes of intermediate to low polarity. The QuEChERS method is often chosen and has been adapted not only to the analysis of food samples, but also to environmental matrices (soil, wastewater) or biota. In this study, we overcome major drawbacks of QuEChERS such as low recoveries of charged analytes and impairment of downstream analysis by high salt loads. The new extraction method, applicable to liquid and solid samples, is called SWIEET (sugar water isopropanol ethyl nitrile extraction technique). Phase separation of the otherwise miscible extraction solvents water and acetonitrile is achieved by sugaring-out instead of salting-out. Extraction efficiencies were greatly improved by adding isopropanol to the acetonitrile phase. The concentrations of the additives glucose and isopropanol, as well as temperature, were optimized by a design of experiment. Further improvement was achieved through electro- or double-extractions. For all sample types tested (surface water, wastewater treatment plant effluent, tomato, soil, and oats), recoveries and precision were higher with SWIEET than with the established QuEChERS method. From wastewater treatment plant effluent, 75% recovery on average were achieved with our SWIEET method compared to 37% with QuEChERS for a model analyte mixture with polarities of logDpH7 = - 5.7 - 3.5. Higher recoveries and lower standard deviations compared to QuEChERS were achieved especially for polar and charged analytes such as metformin. Handling proved to be easy, since there was no additional solid phase and no tedious weighing of salts.

Abstract P177: High salt modulates Antigen Presenting Cell TNF-alpha production in an Isolevuglandin-dependent manner in Hypertensive Humans

Salt intake is a predisposing factor to high blood pressure in people with salt sensitivity, but the mechanisms are not fully understood. Previously, we found that the epithelial sodium channel facilitates sodium entry into antigen-presenting cells (APCs), leading to the production of Isolevuglandins (IsoLGs) and hypertension via proinflammatory cytokines. TNF-alpha is a major proinflammatory cytokine that is produced in response to oxidative stress. We hypothesize that high salt intake-associated increased production of IsoLGs activates TNF-alpha-dependent mechanisms to contribute to salt-sensitive hypertension. To test this hypothesis, we conducted bulk RNA sequencing on isolated human monocytes with and without high salt. We also performed in vivo studies on humans living with hypertension using the rigorous Weinberger salt loading and depletion protocol at baseline (B), salt loading (SL), and salt depletion (SD) timepoints. We found that in vitro high salt treatment increased human monocyte expression of TNF-α, TNFRSF1A and TNFRSF1B (117.09 ± 23.71 vs 357.82 ± 59.62, p=0.001; 4560 ± 430.02 vs 6189 ± 461.11, p=0.0014 and 43824.73 ± 6462.55 vs 54585.64 ± 5383.58, p=0.0336 respectively, [n=11]) when compared to normal salt. In vivo studies on 16 hypertensive subjects reveal mean blood pressures as baseline (SBP: 137.7 ± 3.1, DBP: 85±2.2, MAP 104.7±2.1 [mmHg]), salt-loading (SBP: 141.3 ± 2.9, DBP: 86.1±2.3, MAP 105.6±2.2 [mmHg]), and salt-depletion (SBP: 138.7 ± 2.9, DBP: 87±2.4, MAP 104.7±2.1 [mmHg]). Using flow cytometry, we determined the buildup of Isolevuglandin adducts in APCs as follows: B: 57.6±6.4, SL: 59.8±4.6, SD: 46.0±7.1 (dendritic cells); B: 78.6±5.8, SL: 77.3±5.7, SD: 61.0±6.9 (CD14 + cells); B: 83.2±4.9, SL: 74.0±6.4, SD: 63.3±8.2 (CD14 + 16 + cells) and B: 63.3± 5.7, SL: 54.2±6.1, SD: 46.8±7.9 (CD16+ cells). In response to salt loading, patient plasma levels of TNF-α were B: 13.8±0.5 pg/mL, SL: 14.1±0.6 pg/mL, and SD: 15.3±1.2 pg/mL respectively. Finally, in vivo single-cell transcriptomic analysis in peripheral blood mononuclear cells revealed that in response to high salt treatment, TNF expression changes dynamically with blood pressure in salt-sensitive, but not salt-resistant patients. These preliminary findings suggest that TNF-α plays a role in salt-sensitive hypertension, possibly following IsoLG-driven reactive oxygen species generation. Further studies are needed to delineate specific dependent mechanisms by which this occurs.

Abstract MP34: Muscle Sodium Content and Isolevuglandin Formation in Antigen Presenting Cells in Human Salt Sensitive Hypertension

Background: Salt sensitivity of blood pressure (SSBP) is an independent risk factor for cardiovascular mortality. However, the mechanisms by which salt exposure affects blood pressure in SSBP are still unclear. We have shown that under high sodium (Na + ) concentrations, Na + enters antigen-presenting cells (APCs) via epithelial Na + channel (ENaC), which leads to isolevuglandin (IsoLG) production and hypertension. Baseline %IsoLG+ APC correlates with SSBP. While the exact location where APCs are activated by salt and trigger an inflammatory response remains to be elucidated, muscle and skin are proposed as potential sites. We hypothesize that muscle and skin Na + levels are associated with SSBP. Methods: We assessed SSBP in 30 hypertensive subjects using an inpatient salt loading and depletion protocol. Flow cytometry was used to identify IsoLG-containing APCs; dendritic cells (DCs), classic (CD14+16-), non-classic (CD14-16+), and intermediate (CD14+16+) monocytes. Salt loading was achieved through saline infusion and a high-salt diet (460mmol/24 hours), while salt depletion was achieved via diuretic administration (furosemide 40mg x3) and a low-salt diet (10mmol/24hours). Baseline muscle and skin Na + levels were assessed with the 23 Na MRI technique. Spearman's correlation was used to analyze the associations. Demographic data are presented with mean and standard error of the mean. Results: Participants’ age was 53 ± 1.34 years, 53% female, baseline blood pressure was 140.2 ± 2.62 / 87.30 ± 1.77 mmHg, and salt sensitivity index was 3.72 ± 1.4 mmHg. We found an inverse correlation between baseline muscle Na + levels and the decrease in IsoLGs from salt loading to depletion (ΔIsoLGs) in DCs (r=-0.50, p=0.007), intermediate (r=-0.42 p=0.0284) and non-classic monocytes (r=-0.39 p=0.0432), but not in classical monocytes. Skin Na + levels were not correlated with any of these measures. There was a decreasing trend of salt sensitivity index with increasing muscle Na + , although this correlation did not reach statistical significance (r=-0.35 p=0.0686) Conclusion: This highlights the potential importance of muscle Na + in SSBP, such that patients with lower muscle Na + exhibited a higher trend of salt sensitivity index and increased variability in IsoLG+ APCs. Moreover, baseline tissue Na + assessment may emerge as a potential tool for evaluating the degree of salt sensitivity and IsoLG activation in SSBP.

Effects of grid resolution on regional modelled groundwater salinity and salt fluxes to surface water

Coastal fresh groundwaters face growing threats from rising withdrawals and climate change, with salinization of surface and groundwater as notable impacts. Recent developments in parallel variable-density modelling enable studying these threats at unexplored resolutions and extents. To improve the understanding of ground- and surface water salinization processes, we designed an experiment to measure how spatial resolution affects both groundwater salinity distribution and salt loads to surface waters. An existing parallelized coupled variable-density groundwater flow and salt transport (VD-GWT) model is applied to a region in the Netherlands whereby the surface water drainage network is parameterized at grid resolutions between 10 and 250 m. The results show a strong dependency between resolution and the salinity distribution in shallow groundwater while simulated salt loads are affected by imperfect flux scaling. The computational resources needed for this test suggest that regional high-resolution VD-GWT models are feasible using HPC environments, albeit not practical.

Abstract P206: Renal hemodynamic and transcriptomic changes in response to salt in Dahl salt-sensitive rats

Introduction: Continuous measurements (24/7) of arterial pressure (AP) and renal blood flow (RBF), along with intermittent sampling of arterial and renal venous blood and urine in freely moving rats, have enabled the determination of sequential changes in global substrate metabolism and their association with physiological responses in the kidney. It was found that salt loading in Sprague-Dawley (SD) rats resulted in an increase in RBF and renal O 2 consumption with minimal changes in AP. At the same time, TCA cycle pathway was downregulated with reduced metabolism of free fatty acids and amino acids, while glycolysis was upregulated, in the kidney cortex (Cx). In contrast, no significant changes were observed in metabolism-related pathways in the outer medulla (OM). (PMID: 37575482). Here, we report transcriptomic responses of Dahl salt-sensitive (SS) rats to the HS diet as compared to the salt-resistant SD rats. Method: Male SS rats were fed a 0.4% NaCl (LS) diet. At 8 weeks of age, the rats were implanted with an RBF probe together with an arterial and a renal venous catheter. RBF and AP were measured continuously, and arterial and renal venous blood and urine were sampled when rats were fed the LS and on days 7, 14, and 21 after switching to the 4.0% NaCl (HS) diet. From separate groups of rats subjected to the same protocol, Cx and OM were removed for mRNAseq analysis (Novogene, Inc). Results: When switching to the HS diet, mean AP of SS rats rose from 122 ± 2 to 164 ± 5 mmHg by HS21. RBF (mL/min/g kidney weight) fell significantly over the 3 weeks of the HS diet averaging 7.2 ± 0.6 (LS) to 4.6 ± 0.7 (HS21). The gene set enrichment analysis (GSEA) of the mRNAseq data revealed that only a few metabolic pathways were enriched in HS7 in Cx such as glycosphingolipid biosynthesis, while metabolic pathways such as linolenic acid and arachidonic acid metabolism and glycosphingolipid biosynthesis were enriched in OM. Downregulation of the lysine degradation and glutathione metabolic pathways was observed in both Cx and OM in HS21. In general, fewer metabolic pathways responded to HS in SS rats compared to SD in Cx (22 in SD vs 7 in SS). Conclusion: The Cx of SS rats appear less capable of adjusting to the increased metabolic needs imposed by a HS diet compared to SD rats in contrast to the OM. The functional implications of this are being examined and the metabolomic analysis of blood, tissue and urine samples is currently in progress at the JAX lab.

Abstract P147: Inappropriate Activation of the Leptin-Aldosterone-Endothelial Mineralocorticoid Receptor Axis Promotes Salt Sensitivity of Blood Pressure in Young Female Mice

While compelling clinical evidence indicates that women are more salt-sensitive than men, the mechanisms of the onset of women’s salt-sensitive blood pressure (SSBP) remain largely elusive. Herein, we employed salt-sensitive (SS)-Balb/C and salt-resistant (SR)-C57Bl/6 mice to investigate the etiopathology of SSBP in females. We hypothesized that a high-salt diet alters the leptin-aldosterone-endothelial mineralocorticoid receptor axis (ECMR), leading to SSBP and vascular dysfunction in young SS-female mice. Eleven-week-old female mice were fed a normal (0.4%, NSD) or a high salt diet (4%, HSD) for 7-days. We implanted radiotelemeters for BP monitoring at baseline, HSD, and in response to the leptin receptor (LepR) blockade combined with HSD. Following euthanasia, mesenteric arteries are isolated to measure vascular function via wire myography. HSD elevated mean arterial pressure in Balb/C (NSD: 98.4±2.3 vs. HSD: 105.1±0.9 mmHg) but not in C57 mice (NSD: 99.3±0.9 vs. HSD: 101.3±0.5 mmHg). However, SS-Balb/C mice showed superior natriuretic function in response to salt loading experiments (NSD: 13.3% vs. HSD: 42.3%) as opposed to C57 mice (NSD: 25.8% vs. HSD: 35.1%) (N=3). HSD feeding notably blunted endothelial relaxation to acetylcholine in Balb/c (NSD: 96.5% vs. HSD: 75.4%, N=7), an effect not seen in C57. SS-Balb/C mice failed to suppress aldosterone and adrenal aldosterone synthase (CYP11B2) levels (protein and transcript) compared to C57 mice. This concomitated a 1.8-fold increase in adrenal steroidogenic acute regulatory (StAR) mRNA in SS-Balb/C mice. HSD raised CYP11B2 protein levels in the visceral adipose tissue (VAT) of Balb/C mice. Leptin regulating CYP11B2 expression; we measured fat mass, leptin, and LepR expression. HSD enhanced fat accumulation (C57: +0.7% vs. Balb/c: +26.5%, N=12), leptin levels, and LepR transcript in the adrenal and VAT only in Balb/C mice. LepR blockade reduced BP in Balb/C mice fed a HSD (HSD: 105.1±0.9 vs. HSD+Allo-aca: 100.3±1.9 mmHg). HSD elevated ECMR expression only in Balb/C mice (N=6). To test the potential role of aldosterone-mediated ECMR activation in SSBP, we employed mice with selective overexpression of MR in endothelial cells (ECMR-OE). ECMR-OE young female mice exhibited impaired endothelial function (N=7), reproducing the effects of HSD. In conclusion, SSBP involves an over-activation of the leptin-aldosterone axis in both adrenal and adipose tissue, along with an escalated ECMR expression in females.

Abstract P148: Loss of Ovarian Estrogen Downregulates Renal Steroidogenesis

Hypertension impacts half of US adults and importantly is more prevalent in men than premenopausal women. Sex hormones, particularly estrogen, have been implicated in this sex-difference. Recently we showed renal medullary estrogenic signaling via the G protein-coupled estrogen receptor 1 promotes sodium excretion in female, but not male, Sprague Dawley (SD) rats which implicates estrogen as a possible female-specific natriuretic factor. This led us to question whether the kidney could produce its own steroids, including estrogen, to respond to salt load changes locally. Evidence in cultured COS-7 and fetal kidney cells indicates the expression and activity of steroidogenic enzymes. Recently, we showed the outer medulla of the female SD rat kidney expresses key enzymes and metabolites involved in sex steroid biosynthesis. It is unknown how ovarian estrogen regulates steroidogenesis in the kidney. We hypothesize that ovarian estrogen stimulates the intrarenal capacity to biosynthesize sex steroids. To test this, we measured mRNA expression of several steroidogenic enzymes in the renal outer medulla of gonadally-intact female or ovariectomized SD rats (N=6). Cholesterol is the initial substrate for steroid synthesis. Thus, we first measured HMG-CoA reductase (HMGCR), the key synthesizing enzyme for cholesterol and steroidogenic acute regulatory protein (StAR), which helps commit cholesterol to steroid synthesis. Ovariectomy (OVX) reduced mRNA expression of both when compared to intact females (HMGCR: 63.5 ± 6.2 vs 100.0 ± 10.7 P=0.0169; StAR: 66.6 ± 12.4 vs 100.0 ± 6.4 P=0.0298). Although not significantly different, OVX seemed to reduce the expression of hydroxysteroid 3-β Dehydrogenase, which converts several intermediate steps in androgen and estrogen synthesis, compared to intact females (73.4 ± 13.3 vs 100.0 ± 9.7 P=0.1283). Hydroxysteroid 17-β Dehydrogenase (17β-HSD) 1, which converts estrone to estradiol, was unchanged in OVX compared to intact females (107.6 ± 13.2 vs 100.0 ± 10.1 P=0.6537). OVX reduced expression of 17β-HSD2 (28.34 ± 7.8 vs 100.0 ± 12.85 P=0.0008) and 17β-HSD3 (71.1 ± 7.5 vs 100.0 ± 5.7 P=0.0097) which interconvert androstenedione and testosterone compared to intact females. Combined these data suggest that ovariectomy blunts the intrarenal machinery for steroidogenesis. Additional experiments are required to test whether menopause downregulates renal sex steroid biosynthesis and predisposes postmenopausal women to hypertension.

The role of carboxyl and cationic groups in low-level cationised cellulose fibres investigated by zeta potential and sorption studies

The anionic nature of both cellulose fibres and reactive dyes prevents substantial exhaustion of dye from the dyebath, which is at neutral pH before alkali is added to initiate dye fixation. Conventionally, salt is added to minimize the electrostatic repulsions that interfere with dye sorption, but that increases salt loads in effluents. An alternative is to affix cationic agents on the cellulose to overcome the inherent anionic charge, but that has generally been observed to result in uneven dye sorption. The focus of investigations in this work is to examine the influence of the ratio of charges on cellulose (of affixed cationic charges to inherent anionic charges) on the extents and evenness of dye sorption. The cationisation agent 3-chloro-2-hydroxypropyl-N,N,N-trimethylammonium chloride (CHPTAC) was grafted on loose viscose fibres to yield 12 to 185 mmol kg−1 cationic group content on the fibre that exhibited an inherent carboxyl group content of 68 mmol kg−1. Three different dyes (of varying molecular sizes and anionic group content) were employed for examination of sorption profiles. The results from both zeta potential measurements and dye sorption profiles showed evidence of limited dye uptake until the cationic group content in fibres exceeded that of the inherent carboxyl groups. Thereafter, an uptick in dye sorption was observed, with dye sorption levels increasing with rise in degree of cationisation. There were differences between the dyes in their degrees of sorption, which appear correlated with their molecular sizes.

A novel water-in-deep eutectic solvent microemulsions for chemical polishing of single crystal KDP

Microemulsion (ME) has been investigated as a chemical polishing (CP) fluid for effective polishing of single crystal potassium dihydrogen phosphate (KDP), perfectly avoiding the generation of mechanical stress. In this work, a water-in-deep eutectic solvent ME was proposed as the polishing fluid for CP of single crystal KDP. Deep eutectic solvent (DES) is formulated using n-octanol as hydrogen bond donor and methyltrioctylammonium chloride (MTOAC) as hydrogen bond acceptor, with a mass ratio of 2:1. The ME was prepared by mixing DES as the oil phase (12.5 %, wt.), a hydrochloric acid solution as the water phase (12.5 %, wt.), and isopropanol as the cosolvent (75 %, wt.), without adding any other surfactants. The properties of the ME were characterized by conductivity measurements and ultraviolet (UV) spectroscopy. The reactivity of ME with KDP was measured by the conductivity method, and it was higher at low pH values. A hydrochloric acid solution with a pH of 3 was selected as aqueous phase, considering its effects on particle size, salt loading, and static etching rate. The water content affects the polarity of ME and the final water content was determined to be 12.5 % to ensure high polarity of ME. The surface quality of the KDP crystals before and after polishing was examined using grazing incidence X-ray diffraction (GIXRD) analysis. The average roughness of the KDP crystal surface was decreased from 1.96 nm to 1.43 nm, and the root-mean-square (RMS) roughness was reduced from 2.81 nm to 1.86 nm, demonstrating a significant polishing effect. Finally, the polishing mechanism was elucidated in terms of the irreversible chemical reaction between the active components in the microemulsion and the KDP crystals.

The potential role of finerenone in patients with type 1 diabetes and chronic kidney disease.

Chronic kidney disease (CKD) represents a global health concern, associated with an increased risk of cardiovascular morbidity and mortality and decreased quality of life. Many patients with type 1 diabetes (T1D) will develop CKD over their lifetime. Uncontrolled glucose levels, which occur in patients with T1D as well as type 2 diabetes (T2D), are associated with substantial mortality and cardiovascular disease burden. T2D and T1D share common pathological features of CKD, which is thought to be driven by haemodynamic dysfunction, metabolic disturbances, and subsequently an influx of inflammatory and profibrotic mediators, both of which are major interrelated contributors to CKD progression. The mineralocorticoid receptor is also involved, and, under conditions of oxidative stress, salt loading and hyperglycaemia, it switches from homeostatic regulator to pathophysiological mediator by promoting oxidative stress, inflammation and fibrosis. Progressive glomerular and tubular injury leads to macroalbuminuria a progressive reduction in the glomerular filtration rate and eventually end-stage renal disease. Finerenone, a non-steroidal, selective mineralocorticoid receptor antagonist, is approved for treatment of patients with CKD associated with T2D; however, the benefit of finerenone in patients with T1D has yet to be determined. This narrative review will discuss treatment of CKD in T1D and the potential future role of finerenone in this setting.

Fabrication of nickel cobalt based-phosphides prepared from VIB group elements (M = Cr, Mo, W)-doped NiCo-LDH precursors for supercapacitors: Effects of VIB group elements (M = Cr, Mo, W) on capacitance of nickel cobalt based-phosphides

Metal-doped nickel cobalt based-phosphides are an effective method to improve electrochemical performance. This work aims to prepare nickel cobalt based-phosphides based on VIB group elements (M = Cr, Mo, W)-doped nickel cobalt hydroxides precursors. The influences of different mass of metal salts loading into phosphides on the electrochemical performance are investigated. The results show the flower shape morphology for all samples. Further, the excellent specific capacitances are to be 1839, 1599 and 1786 F g−1 for NiCoCr phosphides (NCCP), NiCoMo phosphides (NCMP) and NiCoW phosphides (NCWP), respectively, higher than pristine NiCo phosphides (NCP, 1128 F g−1) at 1 A g−1. In addition, the assembled supercapacitor device can reach maximum energy density of 29 Wh kg−1 with excellent capacitance retention.

Myeloid Cell Glucocorticoid, Not Mineralocorticoid Receptor Signaling, Contributes to Salt-Sensitive Hypertension in Humans via Cortisol.

Salt sensitivity of blood pressure (SSBP) is an independent risk factor for cardiovascular morbidity and mortality, yet the etiology is poorly understood. We previously found that serum/glucocorticoid-regulated kinase 1 (SGK1) and epoxyeicosatrienoic acids (EETs) regulate epithelial sodium channel (ENaC)-dependent sodium entry into monocyte-derived antigen-presenting cells (APCs) and activation of NADPH oxidase, leading to the formation of isolevuglandins (IsoLGs) in SSBP. Whereas aldosterone via the mineralocorticoid receptor (MR) activates SGK1 leading to hypertension, our past findings indicate that levels of plasma aldosterone do not correlate with SSBP, and there is little to no MR expression in APCs. Thus, we hypothesized that cortisol acting via the glucocorticoid receptor (GR), not the MR in APCs mediates SGK1 actions to induce SSBP. We performed cellular indexing of transcriptomes and epitopes by sequencing (CITE-Seq) analysis on peripheral blood mononuclear cells of humans rigorously phenotyped for SSBP using an inpatient salt loading/depletion protocol to determine expression of MR, GR, and SGK1 in immune cells. In additional experiments, we performed bulk transcriptomic analysis on isolated human monocytes following in vitro treatment with high salt from a separate cohort. We then measured urine and plasma cortisol, cortisone, renin, and aldosterone. Subsequently, we measured the association of these hormones with changes in systolic, diastolic, mean arterial pressure and pulse pressure as well as immune cell activation via IsoLG formation. We found that myeloid APCs predominantly express the GR and SGK1 with no expression of the MR. Expression of the GR in APCs increased after salt loading and decreased with salt depletion in salt-sensitive but not salt-resistant people and was associated with increased expression of SGK1. Moreover, we found that plasma and urine cortisol/cortisone but not aldosterone/renin correlated with SSBP and APCs activation via IsoLGs. We also found that cortisol negatively correlates with EETs. Our findings suggest that renal cortisol signaling via the GR but not the MR in APCs contributes to SSBP via cortisol. Urine and plasma cortisol may provide an important currently unavailable feasible diagnostic tool for SSBP. Moreover, cortisol-GR-SGK1-ENaC signaling pathway may provide treatment options for SSBP.