313 research outputs found
Na(+) -K(+) -2Cl(-) cotransporter type 2 trafficking and activity: The role of interacting proteins.
The central role of Na+âK+â2Clâ cotransporter type 2 (NKCC2) in vectorial transepithelial salt reabsorption in
thick ascending limb cells from Henleâs loop in the kidney is evidenced by the effects of loop diuretics, the
pharmacological inhibitors of NKCC2, that are amongst the most powerful antihypertensive drugs available to
date. Moreover, genetic mutations of the NKCC2 encoding gene resulting in impaired apical targeting and function
of NKCC2 transporter give rise to a pathological phenotype known as type I Bartter syndrome, characterised by
a severe volume depletion, hypokalaemia and metabolic alkalosis with high prenatal mortality. On the contrary,
excessive NKCC2 activity has been linkedwith inherited hypertension in humans and in rodent models. Interestingly,
in animal models of hypertension, NKCC2 upregulation is achieved by post-translational mechanisms underlining
the need to analyse the molecular mechanisms involved in the regulation of NKCC2 trafficking and activity to gain insights in the pathogenesis of hypertension
A novel formulation of glucoseâsparing peritoneal dialysis solutions with lâcarnitine improves biocompatibility on human mesothelial cells
The main reason why peritoneal dialysis (PD) still has limited use in the management of patients with endâstage renal disease (ESRD) lies in the fact that the currently used glucoseâbased PD solutions are not completely biocompatible and determine, over time, the degeneration of the peritoneal membrane (PM) and consequent loss of ultrafiltration (UF). Here we evaluated the biocompatibility of a novel formulation of dialytic solutions, in which a substantial amount of glucose is replaced by two osmometabolic agents, xylitol and Lâcarnitine. The effect of this novel formulation on cell viability, the integrity of the mesothelial barrier and secretion of proâinflammatory cytokines was evaluated on human mesothelial cells grown on cell culture inserts and exposed to the PD solution only at the apical side, mimicking the condition of a PD dwell. The results were compared to those obtained after exposure to a panel of dialytic solutions commonly used in clinical practice. We report here compelling evidence that this novel formulation shows better performance in terms of higher cell viability, better preservation of the integrity of the mesothelial layer and reduced release of proâinflammatory cytokines. This new formulation could represent a step forward towards obtaining PD solutions with high biocompatibility
Enterocutaneous fistula management and clinical nutrition in sepsis of abdominal wall incisional hernia. Tips, tricks and literature revision
Background: The Enterocutaneous Fistula (ECF) treatment requires a multidisciplinary approach and high costs, and shows critical morbidity and mortality rates. For these reasons, it is one of the most challenging problems in colorectal and incisional hernia surgery. Methods: This article synopsizes the current classification systemsâ successful management and provides an in-depth review of septic source surgical control, Clinical Nutrition, Hyper Baric Oxygen Therapy (HBOT) and negative pressure (VAC), output quantity management, wound care, operative timeline, and considerations such as Inflammatory Bowel Disease (IBD), and Enteroatmospheric Fistula (EAF). Result: We report a 71-year-old septic fistulated male with an incisional hernia, and chronic medullary dysplasia. This study compares our results with the literature. This case concerns a very complex and long-lasting clinical scenario because of erythropoietic and immunity systems default that led the patient to death. The use of negative pressure therapy to manage abdominal fistula is still controversial. Patients suffering from enterocutaneous fistula require adequate nutritional support to fight hypercatabolism due to the fistulaâs inflammation, fluids, proteins, and salts loss. Conclusions: An aggressive multidisciplinary approach, including prosthesis explantation are needed. Clinical nutrition starts with TPN (Total Parenteral Nutrition) followed by EN (Enteral Nutrition) as soon as possible. Moreover, VAC and HBOT therapies are useful to treat this life-threatening condition
Activation of the Thiazide-Sensitive Sodium-Chloride Cotransporter by Beta3-Adrenoreceptor in the Distal Convoluted Tubule
We previously showed that the beta-3 adrenergic receptor (BAR3) is expressed in most segments of the nephron where its agonism promotes a potent antidiuretic effect. We localized BAR3 in distal convoluted tubule (DCT) cells expressing the thiazide-sensitive sodium-chloride cotransporter (NCC). Aim of this study is to investigate the possible functional role of BAR3 on NCC modulation in DCT cells. Here, we found that, in mice, the knockout of BAR3 was paralleled by a significant attenuation of NCC phosphorylation, paralleled by reduced expression and activation of STE-20/SPS1-related proline-alanine-rich kinase (SPAK) and WNKs the main kinases involved in NCC activation. Conversely, in BAR1/2 knockout mice, we found reduced NCC abundance with no changes in the phosphorylation state of NCC. Moreover, selective BAR3 agonism promotes both SPAK and NCC activation in wild-type mouse kidney slices. In conclusion, our findings suggest a novel role for BAR3 in the regulation of NCC in DCT
Role of PKC in the Regulation of the Human Kidney Chloride Channel ClC-Ka
The physiological role of the renal ClC-Ka/ClC-K1 channels is to confer a high Cl- permeability to the thin Ascending Limb of Henle (tAL), which in turn is essential for establishing the high osmolarity of the renal medulla that drives water reabsorption from collecting ducts. Here, we investigated by whole-cell patch-clamp measurements on HEK293 cells co-expressing ClC-Ka (tagged with GFP) and the accessory subunit barttin (tagged with m-Cherry) the effect of a natural diuretic extract from roots of Dandelion (DRE), and other compounds activating PKC, such as ATP, on ClC-Ka activity and its membrane localization. Treatment with 400 ”g/ml DRE significantly inhibited Cl- currents time-dependently within several minutes. Of note, the same effect on Cl- currents was obtained upon treatment with 100 ”M ATP. Pretreatment of cells with either the intracellular Ca2+ chelator BAPTA-AM (30 ΌM) or the PKC inhibitor Calphostin C (100 nM) reduced the inhibitory effect of DRE. Conversely, 1 ”M of phorbol meristate acetate (PMA), a specific PKC activator, mimicked the inhibitory effect of DRE on ClC-Ka. Finally, we found that pretreatment with 30 ”M Heclin, an E3 ubiquitin ligase inhibitor, did not revert DRE-induced Cl- current inhibition. In agreement with this, live-cell confocal analysis showed that DRE treatment did not induce ClC-Ka internalization. In conclusion, we demonstrate for the first time that the activity of ClC-Ka in renal cells could be significantly inhibited by the activation of PKC elicited by classical maneuvers, such as activation of purinergic receptors, or by exposure to herbal extracts that activates a PKC-dependent pathway. Overall, we provide both new information regarding the regulation of ClC-Ka and a proof-of-concept study for the use of DRE as new diuretic
Inhibiting the urokinase-type plasminogen activator receptor system recovers STZ-induced diabetic nephropathy.
The urokinaseâtype plasminogen activator (uPA) receptor (uPAR) participates to the mechanisms causing renal damage in response to hyperglycaemia. The main function of uPAR in podocytes (as well as soluble uPAR â(s)uPARâ from circulation) is to regulate podocyte function through αvÎČ3 integrin/Racâ1. We addressed the question of whether blocking the uPAR pathway with the small peptide UPARANT, which inhibits uPAR binding to the formyl peptide receptors (FPRs) can improve kidney lesions in a rat model of streptozotocin (STZ)âinduced diabetes. The concentration of systemically administered UPARANT was measured in the plasma, in kidney and liver extracts and UPARANT effects on dysregulated uPAR pathway, αvÎČ3 integrin/Racâ1 activity, renal fibrosis and kidney morphology were determined. UPARANT was found to revert STZâinduced upâregulation of uPA levels and activity, while uPAR on podocytes and (s)uPAR were unaffected. In glomeruli, UPARANT inhibited FPR2 expression suggesting that the drug may act downstream uPAR, and recovered the increased activity of the αvÎČ3 integrin/Racâ1 pathway indicating a major role of uPAR in regulating podocyte function. At the functional level, UPARANT was shown to ameliorate: (a) the standard renal parameters, (b) the vascular permeability, (c) the renal inflammation, (d) the renal fibrosis including dysregulated plasminogenâplasmin system, extracellular matrix accumulation and glomerular fibrotic areas and (e) morphological alterations of the glomerulus including diseased filtration barrier. These results provide the first demonstration that blocking the uPAR pathway can improve diabetic kidney lesion in the STZ model, thus suggesting the uPA/uPAR system as a promising target for the development of novel uPARâtargeting approaches
Functional study of a KCNH2 mutant: Novel insights on the pathogenesis of the LQT2 syndrome
The K+ voltage-gated channel subfamily H member 2 (KCNH2) transports the rapid component of the cardiac delayed rectifying K+ current. The aim of this study was to characterize the biophysical properties of a C-terminus-truncated KCNH2 channel, G1006fs/49 causing long QT syndrome type II in heterozygous members of an Italian family. Mutant carriers underwent clinical workup, including 12-lead electrocardiogram, transthoracic echocardiography and 24-hour ECG recording. Electrophysiological experiments compared the biophysical properties of G1006fs/49 with those of KCNH2 both expressed either as homotetramers or as heterotetramers in HEK293 cells. Major findings of this work are as follows: (a) G1006fs/49 is functional at the plasma membrane even when co-expressed with KCNH2, (b) G1006fs/49 exerts a dominant-negative effect on KCNH2 conferring specific biophysical properties to the heterotetrameric channel such as a significant delay in the voltage-sensitive transition to the open state, faster kinetics of both inactivation and recovery from the inactivation and (c) the activation kinetics of the G1006fs/49 heterotetrameric channels is partially restored by a specific KCNH2 activator. The functional characterization of G1006fs/49 homo/heterotetramers provided crucial findings about the pathogenesis of LQTS type II in the mutant carriers, thus providing a new and potential pharmacological strategy
NKCC2 activity is inhibited by the Bartter's syndrome type 5 gain-of-function CaR-A843E mutant in renal cells.
The gain-of-function A843E mutation of the calcium sensing receptor (CaR) causes Bartter syndrome type 5. Patients carrying this CaR variant show a remarkably reduced renal NaCl reabsorption in the thick ascending limb (TAL) of Henle's loop resulting in renal loss of NaCl in the absence of mutations in renal Na(+) and Cl(-) ion transporters. The molecular mechanisms underlying this clinical phenotype are incompletely understood. We investigated, in human embryonic kidney 293 (HEK 293) cells and porcine kidney epithelial (LLC-PK1) cells, the functional cross-talk of CaR-A843E with the Na(+):K(+):2Cl(-) co-transporter, NKCC2, which provides NaCl reabsorption in the TAL.
RESULTS:
The expression of the CaR mutant did not alter the apical localisation of NKCC2 in LLC-PK1 cells. However, the steady-state NKCC2 phosphorylation and activity were decreased in cells transfected with CaR-A843E compared with the control wild-type CaR (CaR WT)-transfected cells. Of note, low-Cl(-)-dependent NKCC2 activation was also strongly inhibited upon the expression of CaR-A843E mutant. The use of either P450 Ï-hydroxylase (CYP4)- or phospholipase A2 (PLA2)-blockers suggests that this effect is likely mediated by arachidonic acid (AA) metabolites.
CONCLUSIONS:
The data suggested that the activated CaR affects intracellular pathways modulating NKCC2 activity rather than NKCC2 intracellular trafficking in renal cells, and throw further light on the pathological role played by active CaR mutants in Bartter syndrome type 5
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