Your search keyword '"AQP2"' showing total 93 results

1. Autosomal dominant nephrogenic diabetes insipidus in one family caused by a novel AQP2 mutation.

Author

Huang, Hou‐Xuan, Sullivan, Monika, Zayas Borges, Paola, and Kennedy, Sabina

Subjects

GENETIC testing, EOSINOPHILIC esophagitis, PEDIATRIC nephrology, DIABETES in children, HYPERNATREMIA

Abstract

A 9‐month‐old male presented with vomiting and dehydration with mild hypernatremia in the context of failure to thrive. He was later diagnosed with nephrogenic diabetes insipidus (NDI) during this hospitalisation and was also found to have eosinophilic esophagitis (EoE). He has since been growing well after EoE and NDI were properly managed. Molecular genetic testing revealed an unreported deletion in AQP2 which was deemed pathogenic and of autosomal dominant inheritance when correlated with his clinical findings and family history. This case report describes the clinical course of this patient in comparison to his family members and reviews current literature on autosomal dominant NDI caused by AQP2 mutations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Bioinformatics‐guided disproportionality analysis of sevoflurane‐induced nephrogenic diabetes insipidus using the FDA Adverse Event Reporting System database.

Author

Jacob, Akhil T., Kumar, Ankitha Hari, Halivana, Gayethri, Lukose, Lipin, Nair, Gouri, and Subeesh, Viswam

Subjects

DIABETES insipidus, DATABASES, MEDICAL personnel, MOLECULAR docking, SEVOFLURANE

Abstract

Aims: Sevoflurane is an ether‐based inhalational anaesthetic that induces and maintains general anaesthesia. Our study aimed to detect sevoflurane‐induced nephrogenic diabetes insipidus using data mining algorithms (DMAs) and molecular docking. The FAERS database was analysed using OpenVigil 2.1 for disproportionality analysis. Methods: We analysed FAERS data from 2004 to 2022 to determine the incidence of nephrogenic diabetes insipidus associated with sevoflurane. Reporting odds ratios (RORs) and proportional reporting ratios (PRRs) with 95% confidence intervals were calculated. We also used molecular docking with AutoDock Vina to examine sevoflurane's binding affinity to relevant receptors. Results: A total of 554 nephrogenic diabetes insipidus cases were reported in FAERS, of which 2.5% (14 cases) were associated with sevoflurane. Positive signals were observed for sevoflurane with ROR of 76.012 (95% CI: 44.67–129.35) and PRR of 75.72 (χ2: 934.688). Of the 14 cases, 50% required hospitalization, 14% resulted in death, and the remaining cases were categorized as other outcomes. Molecular docking analysis showed that sevoflurane exhibited high binding affinity towards AQP2 (4NEF) and AVPR2 (6U1N) with docking scores of −4.9 and −5.3, respectively. Conclusions: Sevoflurane use is significantly associated with the incidence of nephrogenic diabetes insipidus. Healthcare professionals should be cautious when using this medication and report any adverse events to regulatory agencies. Further research is needed to validate these findings and identify risk factors while performing statistical adjustments to prevent false‐positives. Clinical monitoring is crucial to validate potential adverse effects of sevoflurane. [ABSTRACT FROM AUTHOR]

Published

2024

3. Many kinases for controlling the water channel aquaporin‐2.

Author

Kharin, Andrii and Klussmann, Enno

Subjects

AQUAPORINS, VASOPRESSIN, CELL membranes, ARGININE, PROTEOMICS, MOLECULAR biology

Abstract

Aquaporin‐2 (AQP2) is a member of the aquaporin water channel family. In the kidney, AQP2 is expressed in collecting duct principal cells where it facilitates water reabsorption in response to antidiuretic hormone (arginine vasopressin, AVP). AVP induces the redistribution of AQP2 from intracellular vesicles and its incorporation into the plasma membrane. The plasma membrane insertion of AQP2 represents the crucial step in AVP‐mediated water reabsorption. Dysregulation of the system preventing the AQP2 plasma membrane insertion causes diabetes insipidus (DI), a disease characterised by an impaired urine concentrating ability and polydipsia. There is no satisfactory treatment of DI available. This review discusses kinases that control the localisation of AQP2 and points out potential kinase‐directed targets for the treatment of DI. [ABSTRACT FROM AUTHOR]

Published

2024

4. In vivo treatment with calcilytic of CaSR knock‐in mice ameliorates renal phenotype reversing downregulation of the vasopressin‐AQP2 pathway.

Author

Ranieri, Marianna, Angelini, Ines, D'Agostino, Mariagrazia, Di Mise, Annarita, Centrone, Mariangela, Venneri, Maria, Ferrulli, Angela, Mastrodonato, Maria, Tamma, Grazia, Endo, Itsuro, Fukumoto, Seiji, Matsumoto, Toshio, and Valenti, Giovanna

Subjects

PHENOTYPES, CALCIUM, ALKALINE earth metals, PHOSPHORYLATION, MICRORNA

Abstract

High concentrations of urinary calcium counteract vasopressin action via the activation of the Calcium‐Sensing Receptor (CaSR) expressed in the luminal membrane of the collecting duct cells, which impairs the trafficking of aquaporin‐2 (AQP2). In line with these findings, we provide evidence that, with respect to wild‐type mice, CaSR knock‐in (KI) mice mimicking autosomal dominant hypocalcaemia, display a significant decrease in the total content of AQP2 associated with significantly higher levels of AQP2 phosphorylation at Ser261, a phosphorylation site involved in AQP2 degradation. Interestingly, KI mice also had significantly higher levels of phosphorylated p38MAPK, a downstream effector of CaSR and known to phosphorylate AQP2 at Ser261. Moreover, ATF1 phosphorylated at Ser63, a transcription factor downstream of p38MAPK, was significantly higher in KI. In addition, KI mice had significantly higher levels of AQP2‐targeting miRNA137 consistent with a post‐transcriptional downregulation of AQP2. In vivo treatment of KI mice with the calcilytic JTT‐305, a CaSR antagonist, increased AQP2 expression and reduced AQP2‐targeting miRNA137 levels in KI mice. Together, these results provide direct evidence for a critical role of CaSR in impairing both short‐term vasopressin response by increasing AQP2‐pS261, as well as AQP2 abundance, via the p38MAPK‐ATF1‐miR137 pathway. Key points: Calcium‐Sensing Receptor (CaSR) activating mutations are the main cause of autosomal dominant hypocalcaemia (ADH) characterized by inappropriate renal calcium excretion leading to hypocalcaemia and hypercalciuria. Current treatments of ADH patients with parathyroid hormone, although improving hypocalcaemia, do not improve hypercalciuria or nephrocalcinosis.In vivo treatment with calcilytic JTT‐305/MK‐5442 ameliorates most of the ADH phenotypes of the CaSR knock‐in mice including hypercalciuria or nephrocalcinosis and reverses the downregulation of the vasopressin‐sensitive aquaporin‐2 (AQP2) expression, providing direct evidence for a critical role of CaSR in impairing vasopressin response.The beneficial effect of calcilytic in reducing the risk of renal calcification may occur in a parathyroid hormone‐independent action through vasopressin‐dependent inhibition of cAMP synthesis in the thick ascending limb and in the collecting duct.The amelioration of most of the abnormalities in calcium metabolism including hypercalciuria, renal calcification, and AQP2‐mediated osmotic water reabsorption makes calcilytic a good candidate as a novel therapeutic agent for ADH. [ABSTRACT FROM AUTHOR]

Published

2024

5. Novel signalling pathways in nephrogenic syndrome of inappropriate antidiuresis: functional implication of site‐specific AQP2 phosphorylation.

Author

Venneri, Maria, Vezzi, Vanessa, Di Mise, Annarita, Ranieri, Marianna, Centrone, Mariangela, Tamma, Grazia, Nejsum, Lene N., and Valenti, Giovanna

Subjects

PROTEOMICS, SYSTEMS biology, BIOINFORMATICS, MASS spectrometry, PHOSPHORYLATION

Abstract

Nephrogenic syndrome of inappropriate antidiuresis (NSIAD) is a rare X‐linked disease caused by gain‐of‐function mutations of arginine vasopressin receptor 2 (V2R). Patients with NSIAD are characterized by the inability to excrete a free water load and by inappropriately increased urinary osmolality despite very low levels of plasma vasopressin, resulting in euvolaemic hyponatraemia. To dissect the signalling downstream V2R constitutively active variants, Flp‐In T‐REx Madin‐Darby canine kidney (FTM) cells, stably transfected with V2R mutants (R137L, R137C and F229V) and AQP2‐wt or non‐phosphorylatable AQP2‐S269A/AQP2‐S256A, were used as cellular models. All three activating V2R mutations presented constitutive plasma membrane expression of AQP2‐wt and significantly higher basal water permeability. In addition, V2R‐R137L/C showed significantly higher activity of Rho‐associated kinase (ROCK), a serine/threonine kinase previously suggested to be involved in S269‐AQP2 phosphorylation downstream of these V2R mutants. Interestingly, FTM cells expressing V2R‐R137L/C mutants and AQP2‐S269A showed a significant reduction in AQP2 membrane abundance and a significant reduction in ROCK activity, indicating the crucial importance of S269‐AQP2 phosphorylation in the gain‐of‐function phenotype. Conversely, V2R‐R137L/C mutants retained the gain‐of‐function phenotype when AQP2‐S256A was co‐expressed. In contrast, cells expressing the F229V mutant and the non‐phosphorylatable AQP2‐S256A had a significant reduction in AQP2 membrane abundance along with a significant reduction in basal osmotic water permeability, indicating a crucial role of Ser256 for this mutant. These data indicate that the constitutive AQP2 trafficking associated with the gain‐of‐function V2R‐R137L/C mutants causing NSIAD is protein kinase A independent and requires an intact Ser269 in AQP2 under the control of ROCK phosphorylation. Key points: Nephrogenic syndrome of inappropriate antidiuresis is caused by two constitutively active variant phenotypes of AVPR2, one sensitive to vaptans (V2R‐F229V) and the other vaptan resistant (V2R‐R137C/L). In renal cells, all three activating arginine vasopressin receptor 2 (V2R) variants display constitutive AQP2 plasma membrane expression and high basal water permeability.In cells expressing V2R‐R137L/C mutants, disruption of the AQP2‐S269 phosphorylation site caused the loss of the gain‐of‐function phenotype, which, in contrast, was retained in V2R‐F229V‐expressing cells.Cells expressing the V2R‐F229V mutant were instead sensitive to disruption of the AQP2‐S256 phosphorylation site.The serine/threonine kinase Rho‐associated kinase (ROCK) was found to be involved in AQP2‐S269 phosphorylation downstream of the V2R‐R137L/C mutants.These findings might have clinical relevance for patients with nephrogenic syndrome of inappropriate antidiuresis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Proteomics and AQP2 regulation.

Author

Yang, Chin‐Rang, Park, Euijung, Chen, Lihe, Datta, Arnab, Chou, Chung‐Lin, and Knepper, Mark A.

Subjects

PROTEOMICS, SYSTEMS biology, BIOINFORMATICS, MASS spectrometry, PHOSPHORYLATION

Abstract

The advent of modern quantitative protein mass spectrometry techniques around the turn of the 21st century has contributed to a revolution in biology referred to as 'systems biology'. These methods allow identification and quantification of thousands of proteins in a biological specimen, as well as detection and quantification of post‐translational protein modifications including phosphorylation. Here, we discuss these methodologies and show how they can be applied to understand the effects of the peptide hormone vasopressin to regulate the molecular water channel aquaporin‐2. The emerging picture provides a detailed framework for understanding the molecular mechanisms involved in water balance disorders. [ABSTRACT FROM AUTHOR]

Published

2024

7. Aquaporin 2 in Cerebral Edema: Potential Prognostic Marker in Craniocerebral Injuries.

Author

Czyżewski, Wojciech, Korulczyk, Jan, Szymoniuk, Michał, Sakwa, Leon, Litak, Jakub, Ziemianek, Dominik, Czyżewska, Ewa, Mazurek, Marek, Kowalczyk, Michał, Turek, Grzegorz, Pawłowski, Adrian, Rola, Radosław, and Torres, Kamil

Subjects

AQUAPORINS, CRANIOCEREBRAL injuries, PROGNOSIS, CEREBRAL edema, SUBDURAL hematoma, CHILDREN'S injuries

Abstract

Despite continuous medical advancements, traumatic brain injury (TBI) remains a leading cause of death and disability worldwide. Consequently, there is a pursuit for biomarkers that allow non-invasive monitoring of patients after cranial trauma, potentially improving clinical management and reducing complications and mortality. Aquaporins (AQPs), which are crucial for transmembrane water transport, may be significant in this context. This study included 48 patients, with 27 having acute (aSDH) and 21 having chronic subdural hematoma (cSDH). Blood plasma samples were collected from the participants at three intervals: the first sample before surgery, the second at 15 h, and the third at 30 h post-surgery. Plasma concentrations of AQP1, AQP2, AQP4, and AQP9 were determined using the sandwich ELISA technique. CT scans were performed on all patients pre- and post-surgery. Correlations between variables were examined using Spearman's nonparametric rank correlation coefficient. A strong correlation was found between aquaporin 2 levels and the volume of chronic subdural hematoma and midline shift. However, no significant link was found between aquaporin levels (AQP1, AQP2, AQP4, and AQP9) before and after surgery for acute subdural hematoma, nor for AQP1, AQP4, and AQP9 after surgery for chronic subdural hematoma. In the chronic SDH group, AQP2 plasma concentration negatively correlated with the midline shift measured before surgery (Spearman's ρ −0.54; p = 0.017) and positively with hematoma volume change between baseline and 30 h post-surgery (Spearman's ρ 0.627; p = 0.007). No statistically significant correlation was found between aquaporin plasma levels and hematoma volume for AQP1, AQP2, AQP4, and AQP9 in patients with acute SDH. There is a correlation between chronic subdural hematoma volume, measured radiologically, and serum AQP2 concentration, highlighting aquaporins' potential as clinical biomarkers. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effect of the DASH diet on the sodium-chloride cotransporter and aquaporin-2 in urinary extracellular vesicles.

Author

Bielopolski, Dana, Musante, Luca, Hoorn, Ewout J., Molina, Henrik, Barrows, Douglas, Carrol, Thomas S., Harding, Michael A., Upson, Samantha, Qureshi, Adam, Weder, Max M., Tobin, Jonathan N., Kost, Rhonda G., and Erdbrügger, U.

Subjects

DASH diet, EXTRACELLULAR vesicles, HIGH-salt diet, AQUAPORINS, FOOD labeling

Abstract

The dietary approach to stop hypertension (DASH) diet combines the antihypertensive effect of a low sodium and high potassium diet. In particular, the potassium component of the diet acts as a switch in the distal convoluted tubule to reduce sodium reabsorption, similar to a diuretic but without the side effects. Previous trials to understand the mechanism of the DASH diet were based on animal models and did not characterize changes in human ion channel protein abundance. More recently, protein cargo of urinary extracellular vesicles (uEVs) has been shown to mirror tissue content and physiological changes within the kidney. We designed an inpatient open label nutritional study transitioning hypertensive volunteers from an American style diet to DASH diet to examine physiological changes in adults with stage 1 hypertension otherwise untreated (Sacks FM, Svetkey LP, Vollmer WM, Appel LJ, Bray GA, Harsha D, Obarzanek E, Conlin PR, Miller ER 3rd, Simons-Morton DG, Karanja N, Lin PH; DASH-Sodium Collaborative Research Group. N Engl J Med 344: 3–10, 2001). Urine samples from this study were used for proteomic characterization of a large range of pure uEVs (small to large) to reveal kidney epithelium changes in response to the DASH diet. These samples were collected from nine volunteers at three time points, and mass spectrometry identified 1,800 proteins from all 27 samples. We demonstrated an increase in total SLC12A3 [sodium-chloride cotransporter (NCC)] abundance and a decrease in aquaporin-2 (AQP2) in uEVs with this mass spectrometry analysis, immunoblotting revealed a significant increase in the proportion of activated (phosphorylated) NCC to total NCC and a decrease in AQP2 from day 5 to day11. This data demonstrates that the human kidney's response to nutritional interventions may be captured noninvasively by uEV protein abundance changes. Future studies need to confirm these findings in a larger cohort and focus on which factor drove the changes in NCC and AQP2, to which degree NCC and AQP2 contributed to the antihypertensive effect and address if some uEVs function also as a waste pathway for functionally inactive proteins rather than mirroring protein changes. NEW & NOTEWORTHY: Numerous studies link DASH diet to lower blood pressure, but its mechanism is unclear. Urinary extracellular vesicles (uEVs) offer noninvasive insights, potentially replacing tissue sampling. Transitioning to DASH diet alters kidney transporters in our stage 1 hypertension cohort: AQP2 decreases, NCC increases in uEVs. This aligns with increased urine volume, reduced sodium reabsorption, and blood pressure decline. Our data highlight uEV protein changes as diet markers, suggesting some uEVs may function as waste pathways. We analyzed larger EVs alongside small EVs, and NCC in immunoblots across its molecular weight range. [ABSTRACT FROM AUTHOR]

Published

2024

9. Deciphering Molecular Mechanisms Involved in the Modulation of Human Aquaporins' Water Permeability by Zinc Cations: A Molecular Dynamics Approach.

Author

Mom, Robin, Réty, Stéphane, Mocquet, Vincent, and Auguin, Daniel

Subjects

MOLECULAR dynamics, ZINC, ZINC proteins, AQUAPORINS, PERMEABILITY, IN vitro studies

Abstract

Aquaporins (AQPs) constitute a wide family of water channels implicated in all kind of physiological processes. Zinc is the second most abundant trace element in the human body and a few studies have highlighted regulation of AQP0 and AQP4 by zinc. In the present work, we addressed the putative regulation of AQPs by zinc cations in silico through molecular dynamics simulations of human AQP0, AQP2, AQP4, and AQP5. Our results align with other scales of study and several in vitro techniques, hence strengthening the reliability of this regulation by zinc. We also described two distinct putative molecular mechanisms associated with the increase or decrease in AQPs' water permeability after zinc binding. In association with other studies, our work will help deciphering the interaction networks existing between zinc and channel proteins. [ABSTRACT FROM AUTHOR]

Published

2024

10. Following the cellular itinerary of renal aquaporin-2 shuttling with 4.5x expansion microscopy.

Author

Login, Frédéric H., Dam, Vibeke S., and Nejsum, Lene N.

Subjects

EXPANSION microscopy, ENDOCYTOSIS, AQUAPORINS, VASOPRESSIN, CELL membranes, ENDOSOMES

Abstract

The shuttling of renal collecting duct aquaporin-2 (AQP2) between intracellular vesicles and the apical plasma membrane is paramount for regulation of renal water reabsorption. The binding of the circulating antidiuretic hormone arginine vasopressin (AVP) to the basolateral AVP receptor increases intracellular cAMP, which ultimately leads to AQP2 plasma membrane accumulation via a dual effect on AQP2 vesicle fusion with the apical plasma membrane and reduced AQP2 endocytosis. This AQP2 plasma membrane accumulation increases water reabsorption and consequently urine concentration. Conventional fluorescent microscopy provides a lateral resolution of ~250 nm, which is insufficient to resolve the AQP2-containing endosomes/vesicles. Therefore, detailed information regarding the AQP2 vesicular population is still lacking. Newly established 4.5x Expansion Microscopy (ExM) can increase resolution to 60-70 nm. Using 4.5x ExM, we detected AQP2 vesicles/endosomes as small as 79 nm considering an average expansion factor of 4.3 for endosomes. Using different markers of the endosomal system provided detailed information of the cellular AQP2 itinerary upon changes in endogenous cAMP levels. Before cAMP elevation, AQP2 colocalized with early and recycling, but not late endosomes. Forskolininduced cAMP increase was characterized by AQP2 insertion into the plasma membrane and AQP2 withdrawal from large perinuclear endosomes as well as some localization to lysosomal compartments. Forskolin washout promoted AQP2 endocytosis where AQP2 localized to not only early and recycling endosomes but also late endosomes and lysosomes indicating increased AQP2 degradation. Thus, our results show that 4.5 ExM is an attractive approach to obtain detailed information regarding AQP2 shuttling. NEW & NOTEWORTHY: Renal aquaporin-2 (AQP2) imaged by expansion microscopy provides unprecedented 3-D information regarding the AQP2 itinerary in response to changes in cellular cAMP. [ABSTRACT FROM AUTHOR]

Published

2024

11. LRBA signalosomes activate vasopressin‐induced AQP2 trafficking at recycling endosomes.

Author

Yanagawa, Hideki, Hara, Yu, Ando, Fumiaki, Suzuki, Soichiro, Fujiki, Tamami, Oikawa, Daisuke, Yui, Naofumi, Mandai, Shintaro, Mori, Yutaro, Susa, Koichiro, Mori, Takayasu, Sohara, Eisei, Tokunaga, Fuminori, and Uchida, Shinichi

Subjects

IMMUNE checkpoint proteins, CYTOTOXIC T cells, CYCLIC adenylic acid, MEMBRANE proteins, IMMUNOELECTRON microscopy

Abstract

Aquaporin‐2 (AQP2) water channels are proteins that are recycled between intracellular vesicles and the apical plasma membrane in renal collecting ducts. Lipopolysaccharide‐responsive beige‐like anchor protein (LRBA) is a protein kinase A (PKA) anchoring protein that creates compartmentalized PKA signalling responsible for AQP2 phosphorylation. In response to increased plasma osmolality, vasopressin/cyclic adenosine monophosphate (cAMP)/PKA signalling phosphorylates AQP2, promoting AQP2 trafficking into the apical plasma membrane and increasing water reabsorption from urine. However, the molecular mechanisms by which LRBA mediates vasopressin‐induced AQP2 phosphorylation remain unknown. To investigate AQP2 intracellular localization and phosphorylation status in vivo, a density gradient ultracentrifugation technique was combined with an in situ proximity ligation assay, super‐resolution structured illumination microscopy and immunoelectron microscopy. Most of the AQP2 was localized on the recycling endosome in the presence of tolvaptan, a vasopressin type 2 receptor (V2R) antagonist. Desmopressin, a V2R agonist, phosphorylated AQP2, translocating it from the recycling endosome to the apical plasma membrane. In contrast, LRBA was constitutively localized at the recycling endosome. Therefore, LRBA and AQP2 were well colocalized in the absence of vasopressin stimulation. The loss of LRBA/PKA signalling by Lrba knockout impaired vasopressin‐induced AQP2 phosphorylation, resulting in AQP2 retention at the recycling endosome. Defective AQP2 trafficking caused low urinary concentrating ability in Lrba−/− mice. The LRBA‐PKA complex created compartmentalized PKA signalling at the recycling endosome, which facilitated AQP2 phosphorylation in response to vasopressin. Key points: Membrane proteins are continuously internalized into the endosomal system via endocytosis, after which they are either recycled back to the plasma membrane or degraded at the lysosome.In T cells, lipopolysaccharide‐responsive beige‐like anchor protein (LRBA) binds directly to the cytotoxic T lymphocyte antigen 4 (CTLA‐4), a checkpoint immune molecule, to prevent CTLA‐4 lysosomal degradation and promote its vesicle recycling.LRBA has different physiological functions in renal collecting ducts. LRBA and aquaporin‐2 (AQP2) water channels were colocalized on the recycling endosome in vivo in the absence of the anti‐diuretic hormone vasopressin.LRBA promoted vasopressin‐induced AQP2 trafficking, increasing water reabsorption from urine via AQP2. LRBA determined renal responsiveness to vasopressin at recycling endosomes.LRBA is a ubiquitously expressed anchor protein. LRBA signalosomes might regulate membrane trafficking of several constitutively recycled proteins at recycling endosomes. [ABSTRACT FROM AUTHOR]

Published

2023

12. Modulation of AQP2 localization and water reabsorption.

Author

Empitu, Maulana A., Ramadhan, Roy N., and Rampengan, Derren D. C. H.

Subjects

COMMON variable immunodeficiency, B cell differentiation, AQUAPORINS, MEMBRANE proteins, WESTERN immunoblotting, HUMAN physiology

Abstract

The article discusses the regulation of water reabsorption in the collecting ducts of the kidney, focusing on the role of aquaporin 2 (AQP2) and the lipopolysaccharide-responsive beige-like anchor protein (LRBA). LRBA acts as an anchoring protein for vasopressin/PKA-mediated phosphorylation of AQP2, influencing its localization from recycling endosomes to the apical membrane. The study sheds light on a new layer of regulation in water reabsorption and provides a basis for further research on LRBA's role in protein trafficking and water balance in the kidney. [Extracted from the article]

Published

2024

13. Treatment and long-term outcome in primary nephrogenic diabetes insipidus.

Author

Lopez-Garcia, Sergio C, Downie, Mallory L, Kim, Ji Soo, Boyer, Olivia, Walsh, Stephen B, Nijenhuis, Tom, Papizh, Svetlana, Yadav, Pallavi, Reynolds, Ben C, Decramer, Stéphane, Besouw, Martine, Carrascosa, Manel Perelló, Scola, Claudio La, Trepiccione, Francesco, Ariceta, Gema, Hummel, Aurélie, Dossier, Claire, Sayer, John A, Konrad, Martin, and Keijzer-Veen, Mandy G

Subjects

MENTAL illness, DIABETES insipidus, ATTENTION-deficit hyperactivity disorder, CHRONIC kidney failure, FULL-time employment, BODY mass index

Abstract

Background Primary nephrogenic diabetes insipidus (NDI) is a rare disorder and little is known about treatment practices and long-term outcome. Methods Paediatric and adult nephrologists contacted through European professional organizations entered data in an online form. Results Data were collected on 315 patients (22 countries, male 84%, adults 35%). Mutation testing had been performed in 270 (86%); pathogenic variants were identified in 258 (96%). The median (range) age at diagnosis was 0.6 (0.0–60) years and at last follow-up 14.0 (0.1–70) years. In adults, height was normal with a mean (standard deviation) score of −0.39 (±1.0), yet there was increased prevalence of obesity (body mass index >30 kg/m2; 41% versus 16% European average; P < 0.001). There was also increased prevalence of chronic kidney disease (CKD) Stage ≥2 in children (32%) and adults (48%). Evidence of flow uropathy was present in 38%. A higher proportion of children than adults (85% versus 54%; P < 0.001) received medications to reduce urine output. Patients ≥25 years were less likely to have a university degree than the European average (21% versus 35%; P = 0.003) but full-time employment was similar. Mental health problems, predominantly attention-deficit hyperactivity disorder (16%), were reported in 36% of patients. Conclusion This large NDI cohort shows an overall favourable outcome with normal adult height and only mild to moderate CKD in most. Yet, while full-time employment was similar to the European average, educational achievement was lower, and more than half had urological and/or mental health problems. [ABSTRACT FROM AUTHOR]

Published

2023

14. Cortisol Interaction with Aquaporin-2 Modulates Its Water Permeability: Perspectives for Non-Genomic Effects of Corticosteroids.

Author

Mom, Robin, Réty, Stéphane, and Auguin, Daniel

Subjects

PERMEABILITY, AQUAPORINS, MOLECULAR dynamics, HYDROCORTISONE, GLUCOCORTICOID receptors

Abstract

Aquaporins (AQPs) are water channels widely distributed in living organisms and involved in many pathophysiologies as well as in cell volume regulations (CVR). In the present study, based on the structural homology existing between mineralocorticoid receptors (MRs), glucocorticoid receptors (GRs), cholesterol consensus motif (CCM) and the extra-cellular vestibules of AQPs, we investigated the binding of corticosteroids on the AQP family through in silico molecular dynamics simulations of AQP2 interactions with cortisol. We propose, for the first time, a putative AQPs corticosteroid binding site (ACBS) and discussed its conservation through structural alignment. Corticosteroids can mediate non-genomic effects; nonetheless, the transduction pathways involved are still misunderstood. Moreover, a growing body of evidence is pointing toward the existence of a novel membrane receptor mediating part of these rapid corticosteroids' effects. Our results suggest that the naturally produced glucocorticoid cortisol inhibits channel water permeability. Based on these results, we propose a detailed description of a putative underlying molecular mechanism. In this process, we also bring new insights on the regulatory function of AQPs extra-cellular loops and on the role of ions in tuning the water permeability. Altogether, this work brings new insights into the non-genomic effects of corticosteroids through the proposition of AQPs as the membrane receptor of this family of regulatory molecules. This original result is the starting point for future investigations to define more in-depth and in vivo the validity of this functional model. [ABSTRACT FROM AUTHOR]

Published

2023

15. β3 Adrenergic Receptor Agonist Mirabegron Increases AQP2 and NKCC2 Urinary Excretion in OAB Patients: A Pleiotropic Effect of Interest for Patients with X-Linked Nephrogenic Diabetes Insipidus.

Author

Milano, Serena, Maqoud, Fatima, Rutigliano, Monica, Saponara, Ilenia, Carmosino, Monica, Gerbino, Andrea, Lucarelli, Giuseppe, Battaglia, Michele, Svelto, Maria, and Procino, Giuseppe

Subjects

ADRENERGIC agonists, DIABETES insipidus, LUTEINIZING hormone releasing hormone, BLADDER, EXCRETION, KIDNEY tubules, GENETIC disorders

Abstract

We previously reported the novel finding that β3-AR is functionally expressed in the renal tubule and shares its cellular localization with the vasopressin receptor AVPR2, whose physiological stimulation triggers antidiuresis by increasing the plasma membrane expression of the water channel AQP2 and the NKCC2 symporter in renal cells. We also showed that pharmacologic stimulation of β3-AR is capable of triggering antidiuresis and correcting polyuria, in the knockout mice for the AVPR2 receptor, the animal model of human X-linked nephrogenic diabetes insipidus (XNDI), a rare genetic disease still missing a cure. Here, to demonstrate that the same response can be evoked in humans, we evaluated the effect of treatment with the β3-AR agonist mirabegron on AQP2 and NKCC2 trafficking, by evaluating their urinary excretion in a cohort of patients with overactive bladder syndrome, for the treatment of which the drug is already approved. Compared to baseline, treatment with mirabegron significantly increased AQP2 and NKCC2 excretion for the 12 weeks of treatment. This data is a step forward in corroborating the hypothesis that in patients with XNDI, treatment with mirabegron could bypass the inactivation of AVPR2, trigger antidiuresis and correct the dramatic polyuria which is the main hallmark of this disease. [ABSTRACT FROM AUTHOR]

Published

2023

16. Expression of growth arrest specific 1 (Gas1) in the distal tubules and collecting ducts in normal kidney and in the early stages of diabetic nephropathy.

Author

Luna-Antonio, Brenda I., Rodríguez-Muñoz, Rafael, Namorado-Tonix, Carmen, Pérez-López, Alejandro, Sanchez, Elsa I., Vergara, Paula, Reyes, José L., and Segovia, José

Abstract

The Growth Arrest-Specific protein 1 (Gas1) has been recently described in kidney as an endogenous inhibitor of cell proliferation in mesangial cells and with an important role in the maintenance of nephron progenitor cells. Furthermore, the expression of Gas1 was demonstrated in NCAM + progenitor parietal cells of Bowman's capsule. Thus, the aim of this study was to analyze the expression of Gas1 in the collecting ducts (CD) of healthy rats and to examine whether high glucose levels modify its expression during the early stages of diabetes in STZ-treated rats. Immunofluorescence reveals that principal cells AQP2 + express Gas1 in both healthy and diabetic conditions. Western blot from enriched fractions of medullary CD suggests that diabetes promotes the increase of Gas1. AQP2 + cells are also positive for the expression of CD24 and CD1133 in diabetic rats. In addition, diabetes modifies the cell morphology in the CD and favors the increase of principal cells (AQP2+/Gas1+), induces a significant decrease of intercalated cells (V-ATPase+/Gas1-) and the presence of intermediate cells (Gas1+/V-ATPase+) which express both principal and intercalated cell markers. The expression of Gas1 in the distal tubules was also determined by immunofluorescence, western blot and ELISA in diabetic rats. The results identify Gas1 as a specific marker of principal cells in healthy and diabetic rats and suggest that diabetes promotes the expression of Gas1. Gas1 may have an important role in the maintenance and differentiation to principal cells in the CD during early stages of diabetes. [ABSTRACT FROM AUTHOR]

Published

2022

17. LRBA is essential for urinary concentration and body water homeostasis.

Author

Yu Hara, Fumiaki Ando, Daisuke Oikawa, Koichiro Ichimura, Hideki Yanagawa, Yuriko Sakamaki, Azuma Nanamatsu, Tamami Fujiki, Shuichi Mori, Soichiro Suzuki, Naofumi Yui, Shintaro Mandai, Koichiro Susa, Takayasu Mori, Eisei Sohara, Tatemitsu Rai, Mikiko Takahashi, Sei Sasaki, Hiroyuki Kagechika, and Fuminori Tokunaga

Subjects

HOMEOSTASIS, PROTEIN kinases, KNOCKOUT mice, DRUG target, AQUAPORINS

Abstract

Protein kinase A (PKA) directly phosphorylates aquaporin-2 (AQP2) water channels in renal collecting ducts to reabsorb water from urine for the maintenance of systemic water homeostasis. More than 50 functionally distinct PKA-anchoring proteins (AKAPs) respectively create compartmentalized PKA signaling to determine the substrate specificity of PKA. Identification of an AKAP responsible for AQP2 phosphorylation is an essential step toward elucidating the molecular mechanisms of urinary concentration. PKA activation by several compounds is a novel screening strategy to uncover PKA substrates whose phosphorylation levels were nearly perfectly correlated with that of AQP2. The leading candidate in this assay proved to be an AKAP termed lipopolysaccharideresponsive and beige-like anchor protein (LRBA). We found that LRBA colocalized with AQP2 in vivo, and Lrba knockout mice displayed a polyuric phenotype with severely impaired AQP2 phosphorylation. Most of the PKA substrates other than AQP2 were adequately phosphorylated by PKA in the absence of LRBA, demonstrating that LRBAanchored PKA preferentially phosphorylated AQP2 in renal collecting ducts. Furthermore, the LRBA–PKA interaction, rather than other AKAP–PKA interactions, was robustly dissociated by PKA activation. AKAP–PKA interaction inhibitors have attracted attention for their ability to directly phosphorylate AQP2. Therefore, the LRBA–PKA interaction is a promising drug target for the development of anti-aquaretics. [ABSTRACT FROM AUTHOR]

Published

2022

18. HDAC3 inhibition improves urinary‐concentrating defect in hypokalaemia by promoting AQP2 transcription.

Author

Xu, Long, Xie, Haixia, Hu, Shan, Zhao, Xiaoduo, Han, Mengke, Liu, Qiaojuan, Feng, Pinning, Wang, Weidong, and Li, Chunling

Subjects

HYPOKALEMIA, LOW-potassium diet, HISTONE acetylation, POTASSIUM, LABORATORY rats, HISTONE deacetylase inhibitors

Abstract

Aim: This study investigated whether enhanced histone acetylation, achieved by inhibiting histone deacetylases (HDACs), could prevent decreased aquaporin‐2 (AQP2) expression during hypokalaemia. Methods: Male Wistar rats were fed a potassium‐free diet with or without 4‐phenylbutyric acid (4‐PBA) or the selective HDAC3 inhibitor RGFP966 for 4 days. Primary renal inner medullary collecting duct (IMCD) cells and immortalized mouse cortical collecting duct (mpkCCD) cells were cultured in potassium‐deprivation medium with or without HDAC inhibitors. Results: 4‐PBA increased the levels of AQP2 mRNA and protein in the kidney inner medullae in hypokalaemic (HK) rats, which was associated with decreased urine output and increased urinary osmolality. The level of acetylated H3K27 (H3K27ac) protein was decreased in the inner medullae of HK rat kidneys; this decrease was mitigated by 4‐PBA. The H3K27ac levels were decreased in IMCD and mpkCCD cells cultured in potassium‐deprivation medium. Decreased H3K27ac in the Aqp2 promoter region was associated with reduced Aqp2 mRNA levels. HDAC3 protein expression was upregulated in mpkCCD and IMCD cells in response to potassium deprivation, and the binding of HDAC3 to the Aqp2 promoter was also increased. RGFP966 increased the levels of H3K27ac and AQP2 proteins and enhanced binding between H3K27ac and AQP2 in mpkCCD cells. Furthermore, RGFP966 reversed the hypokalaemia‐induced downregulation of AQP2 and H3K27ac and alleviated polyuria in rats. RGFP966 increased interstitial osmolality in the kidney inner medullae of HK rats but did not affect urinary cAMP levels. Conclusion: HDAC inhibitors prevented the downregulation of AQP2 induced by potassium deprivation, probably by enhancing H3K27 acetylation. [ABSTRACT FROM AUTHOR]

Published

2022

19. A Vasopressin-Induced Change in Prostaglandin Receptor Subtype Expression Explains the Differential Effect of PGE2 on AQP2 Expression.

Author

Deen, Peter M. T., Boone, Michelle, Schweer, Horst, Olesen, Emma T. B., Carmone, Claudia, Wetzels, Jack F. M., Fenton, Robert A., and Kortenoeven, Marleen L. A.

Subjects

PROSTAGLANDIN receptors, VASOPRESSIN, CYCLIC adenylic acid, DESMOPRESSIN

Abstract

Arginine vasopressin (AVP) stimulates the concentration of renal urine by increasing the principal cell expression of aquaporin-2 (AQP2) water channels. Prostaglandin E2 (PGE2) and prostaglandin2α (PGF2α) increase the water absorption of the principal cell without AVP, but PGE2 decreases it in the presence of AVP. The underlying mechanism of this paradoxical response was investigated here. Mouse cortical collecting duct (mkpCCDc14) cells mimic principal cells as they endogenously express AQP2 in response to AVP. PGE2 increased AQP2 abundance without desmopressin (dDAVP), while in the presence of dDAVP, PGE2, and PGF2α reduced AQP2 abundance. dDAVP increased the cellular PGD2 and PGE2 release and decreased the PGF2α release. MpkCCD cells expressed mRNAs for the receptors of PGE2 (EP1/EP4), PGF2 (FP), and TxB2 (TP). Incubation with dDAVP increased the expression of EP1 and FP but decreased the expression of EP4. In the absence of dDAVP, incubation of mpkCCD cells with an EP4, but not EP1/3, agonist increased AQP2 abundance, and the PGE2-induced increase in AQP2 was blocked with an EP4 antagonist. Moreover, in the presence of dDAVP, an EP1/3, but not EP4, agonist decreased the AQP2 abundance, and the addition of EP1 antagonists prevented the PGE2-mediated downregulation of AQP2. Our study shows that in mpkCCDc14 cells, reduced EP4 receptor and increased EP1/FP receptor expression by dDAVP explains the differential effects of PGE2 and PGF2α on AQP2 abundance with or without dDAVP. As the V2R and EP4 receptor, but not the EP1 and FP receptor, can couple to Gs and stimulate the cyclic adenosine monophosphate (cAMP) pathway, our data support a view that cells can desensitize themselves for receptors activating the same pathway and sensitize themselves for receptors of alternative pathways. [ABSTRACT FROM AUTHOR]

Published

2022

20. Regulated exocytosis: renal aquaporin-2 3D vesicular network organization and association with F-actin.

Author

Holst, Mikkel R., Jensen, Louis G., Aaron, Jesse, Login, Frédéric H., Rajkumar, Sampavi, Hahn, Ute, and Nejsum, Lene N.

Subjects

F-actin, EXOCYTOSIS, SYNAPTIC vesicles, CELL membranes, CELL culture, AQUAPORINS, VASOPRESSIN

Abstract

Regulated vesicle exocytosis is a key response to extracellular stimuli in diverse physiological processes, including hormone regulated short-term urine concentration. In the renal collecting duct, the water channel aquaporin-2 (AQP2) localizes to the apical plasma membrane as well as to small, subapical vesicles. In response to stimulation with the antidiuretic hormone, arginine vasopressin, aquaporin-2-containing vesicles fuse with the plasma membrane, which increases collecting duct water reabsorption and thus, urine concentration. The nanoscale size of these vesicles has limited analysis of their three-dimensional (3D) organization. Using a cell system combined with 3D superresolution microscopy, we provide the first direct analysis of the 3D network of aquaporin-2-containing exocytic vesicles in a cell culture system. We show that aquaporin-2 vesicles are 43 ± 3 nm in diameter, a size similar to synaptic vesicles, and that one fraction of AQP2 vesicles localized with the subcortical F-actin layer and the other localized in between the F-actin layer and the plasma membrane. Aquaporin-2 vesicles associated with F-actin and this association were enhanced in a serine 256 phospho-mimic of aquaporin-2, whose phosphorylation is a key event in antidiuretic hormone-mediated aquaporin-2 vesicle exocytosis. [ABSTRACT FROM AUTHOR]

Published

2021

21. Atorvastatin does not ameliorate nephrogenic diabetes insipidus induced by lithium or potassium depletion in mice.

Author

Thomsen, Maria L., Grønkjær, Camilla, Iervolino, Anna, Rej, Soham, Trepiccione, Francesco, and Christensen, Birgitte M.

Subjects

DIABETES insipidus, ATORVASTATIN, STATINS (Cardiovascular agents), ANTICHOLESTEREMIC agents

Abstract

Acquired forms of nephrogenic diabetes insipidus (NDI) include lithium (Li)‐induced and hypokalemia‐induced NDI. Both forms are associated with AQP2 downregulation and collecting duct (CD) cellular remodeling. Statins are cholesterol‐lowering drugs appearing to increase AQP2 membrane‐translocation and improve urine concentration in other NDI models. We have investigated if statins are able to prevent or rescue the Li‐induced changes in mice and in a mouse cortical CD cell line (mCCDc1l). Biotinylation assays showed that acute (1hr) atorvastatin, simvastatin, or fluvastatin increased AQP2 membrane accumulation in mCCDc1l cells showing that the cell line responds to acute statin treatment. To see whether chronic statin treatment abolish the Li effects, mCCDc1l cells were treated with 48 h Li, combined Li/atorvastatin or combined Li/simvastatin. Li reduced AQP2, but combined Li/atorvastatin or Li/simvastatin did not prevent AQP2 downregulation. In mice, chronic (21 days) Li increased urine output and reduced urine osmolality, but combined Li/atorvastatin did not prevent these effects. In inner medulla (IM), Li reduced total AQP2 and increased pS261‐AQP2. Combined Li/atorvastatin did not abolish these changes. Atorvastatin did not prevent a Li‐induced increase in intercalated cells and proliferation in IM. In mice with already established NDI, atorvastatin had no effect on the Li‐induced changes either. Mice subjected to 14 days of potassium‐deficient diet developed polyuria and AQP2 downregulation in IM. Co‐treatment with atorvastatin did not prevent this. In conclusion, atorvastatin does not appear to be able to prevent or rescue Li‐NDI or to prevent hypokalemic‐induced NDI. [ABSTRACT FROM AUTHOR]

Published

2021

22. Activation of AQP2 water channels by protein kinase A: therapeutic strategies for congenital nephrogenic diabetes insipidus.

Author

Ando, Fumiaki

Subjects

CYCLIC-AMP-dependent protein kinase, AQUAPORINS, DIABETES insipidus, CYCLIC adenylic acid, SCAFFOLD proteins

Abstract

Background: Congenital nephrogenic diabetes insipidus (NDI) is primarily caused by loss-of-function mutations in the vasopressin type 2 receptor (V2R). Renal unresponsiveness to the antidiuretic hormone vasopressin impairs aquaporin-2 (AQP2) water channel activity and water reabsorption from urine, resulting in polyuria. Currently available symptomatic treatments inadequately reduce patients' excessive amounts of urine excretion, threatening their quality of life. In the past 25 years, vasopressin/cyclic adenosine monophosphate (cAMP)/protein kinase A (PKA) has been believed to be the most important signaling pathway for AQP2 activation. Although cAMP production without vasopressin is the reasonable therapeutic strategy for congenital NDI caused by V2R mutations, the efficacy of candidate drugs on AQP2 activation is far less than that of vasopressin. Results: Intracellular distribution and activity of PKA are largely controlled by its scaffold proteins, A-kinase anchoring proteins (AKAPs). Dissociating the binding of AKAPs and PKA significantly increased PKA activity in the renal collecting ducts and activated AQP2 phosphorylation and trafficking. Remarkably, the AKAPs–PKA disruptor FMP-API-1 increased transcellular water permeability in isolated renal collecting ducts to the same extent as vasopressin. Moreover, derivatives of FMP-API-1 possessed much more high potency. FMP-API-1/27 is the first low-molecular-weight compound to be discovered that can phosphorylate AQP2 more effectively than preexisting drug candidates. Conclusion: AKAP-PKA disruptors are a promising therapeutic target for congenital NDI. In this article, we shall discuss the pathophysiological roles of PKA and novel strategies to activate PKA in renal collecting ducts. [ABSTRACT FROM AUTHOR]

Published

2021

23. Functional analysis of AQP2 mutants found in patients with diabetes insipidus.

Author

Karaduman, Tugce, Özcan Türkmen, Merve, Ozer, Emel Saglar, Ergin, Bora, Saglam, Berk, Erdem Tuncdemir, Beril, and Mergen, Hatice

Subjects

DIABETES insipidus, FUNCTIONAL analysis, MUTANT proteins, PEOPLE with diabetes, XENOPUS laevis

Abstract

Aquaporin-2 (AQP2) is a homotetrameric water channel responsible for the reabsorption of water in the main collecting duct cells of kidneys. Mutations in AQP2 gene induce nephrogenic diabetes insipidus (NDI), a pathogenic condition involving the maintenance of body water homeostasis, leading to excess urine production. Several hypotheses in the literature were confirmed by clinical and experimental observations regarding the role of these mutations in the pathogenesis of NDI. In this study, three mutations (A45T, R85X, and A147T) identified in NDI patients were analyzed using stably transfected Madin-Darby canine kidney (MDCK) cells and Xenopus laevis (X. laevis) oocyte expression system compared to the wt-AQP2. According to our study, the A45T-AQP2 protein is characterized by reduced half-life and targeting defects, therefore this mutant protein can be retained in the endoplasmic reticulum (ER). The mutation also causes the formation of a nonfunctional water channel. The R85X-AQP2 protein was not detected in immunoblot analysis, but the results of water permeability test data prove that this mutant protein cannot form a functional water channel. Despite its features such as partial false targeting and reduced half-life, A147T-AQP2 protein forms a semi-functional water channel. In a conclusion, studies on the intracellular functions of mutant water channels are important because these studies elucidate the mechanisms leading to disease phenotype and support development of pharmacological strategies related to pathological mechanisms. [ABSTRACT FROM AUTHOR]

Published

2021

24. Investigation of the aquaporin‐2 gating mechanism with molecular dynamics simulations.

Author

Hadidi, Hooman, Kamali, Reza, and Binesh, Alireza

Abstract

Aquaporin‐2 plays a vital role in the human kidney as a water passage channel. Any disorder with its function can cause water imbalance and consequently disease in humans, especially nephrogenic diabetes insipidus (NDI). For this reason, an accurate understanding of its performance can be useful for therapeutic purposes. In this article, we investigate the gating mechanism induced by spontaneous fluctuations in aquaporin‐2's (AQP2) channels in the palmitoyl‐oleoyl‐phosphatidyl‐ethanolamine lipid bilayer by molecular dynamics. Our results show that the selectivity filter (SF) in AQP2 is also a gating site depending on the side‐chain conformation of His172. The important role of His172 in modulating the wide and narrow conformations has been further investigated by the simulation of the H172G mutant. The osmotic permeability values of all four monomers are in the range of wide state and the average is very close to that of the wide channel formed by wild‐type AQP2. Moreover, by calculating the osmotic permeability and the potential of mean force of each of the AQP2 monomers for wide/narrow states of the SF, it is seen that the SF at its narrow conformation can induce a much larger energy barrier for water molecules permeation, hindering the transport of water molecules remarkably. The reason for the discrepancy among osmotic permeabilities of different monomers of aquaporins is revealed by investigating the osmotic permeability of each monomer through the wide/narrow states of their SF. [ABSTRACT FROM AUTHOR]

Published

2021

25. Local cyclic adenosine monophosphate signalling cascades—Roles and targets in chronic kidney disease.

Author

Sholokh, Anastasiia and Klussmann, Enno

Subjects

CYCLIC adenylic acid, CHRONIC kidney failure, HYPERPHOSPHATEMIA, PEDIATRIC nephrology, DIABETES insipidus, PRESSURE regulators, BLOOD pressure, HYPERTENSION

Abstract

The molecular mechanisms underlying chronic kidney disease (CKD) are poorly understood and treatment options are limited, a situation underpinning the need for elucidating the causative molecular mechanisms and for identifying innovative treatment options. It is emerging that cyclic 3′,5′‐adenosine monophosphate (cAMP) signalling occurs in defined cellular compartments within nanometre dimensions in processes whose dysregulation is associated with CKD. cAMP compartmentalization is tightly controlled by a specific set of proteins, including A‐kinase anchoring proteins (AKAPs) and phosphodiesterases (PDEs). AKAPs such as AKAP18, AKAP220, AKAP‐Lbc and STUB1, and PDE4 coordinate arginine‐vasopressin (AVP)‐induced water reabsorption by collecting duct principal cells. However, hyperactivation of the AVP system is associated with kidney damage and CKD. Podocyte injury involves aberrant AKAP signalling. cAMP signalling in immune cells can be local and slow the progression of inflammatory processes typical for CKD. A major risk factor of CKD is hypertension. cAMP directs the release of the blood pressure regulator, renin, from juxtaglomerular cells, and plays a role in Na+ reabsorption through ENaC, NKCC2 and NCC in the kidney. Mutations in the cAMP hydrolysing PDE3A that cause lowering of cAMP lead to hypertension. Another major risk factor of CKD is diabetes mellitus. AKAP18 and AKAP150 and several PDEs are involved in insulin release. Despite the increasing amount of data, an understanding of functions of compartmentalized cAMP signalling with relevance for CKD is fragmentary. Uncovering functions will improve the understanding of physiological processes and identification of disease‐relevant aberrations may guide towards new therapeutic concepts for the treatment of CKD. [ABSTRACT FROM AUTHOR]

Published

2021

26. Diuretic Action of Apelin-13 Mediated by Inhibiting cAMP/PKA/sPRR Pathway.

Author

Chen, Yanting, Xu, Chuanming, Hu, Jiajia, Deng, Mokan, Qiu, Qixiang, Mo, Shiqi, Du, Yanhua, and Yang, Tianxin

Subjects

CYCLIC adenylic acid, AQUAPORINS, DIURETICS, APELIN, DRUG target, PROTEIN expression

Abstract

Emerging evidence is showing that apelin plays an important role in regulating salt and water balance by counteracting the antidiuretic action of vasopressin (AVP). However, the underlying mechanism remains unknown. Here, we hypothesized that (pro) renin receptor (PRR)/soluble prorenin receptor (sPRR) might mediate the diuretic action of apelin in the distal nephron. During water deprivation (WD), the urine concentrating capability was impaired by an apelin peptide, apelin-13, accompanied by the suppression of the protein expression of aquaporin 2 (AQP2), NKCC2, PRR/sPRR, renin and nuclear β-catenin levels in the kidney. The upregulated expression of AQP2 or PRR/sPRR both induced by AVP and 8-Br-cAMP was blocked by apelin-13, PKA inhibitor (H89), or β-catenin inhibitor (ICG001). Interestingly, the blockage of apelin-13 on AVP-induced AQP2 protein expression was reversed by exogenous sPRR. Together, the present study has defined the cyclic adenosine monophosphate (cAMP)/protein kinase A (PKA)/sPRR pathway in the CD as the molecular target of the diuretic action of apelin. [ABSTRACT FROM AUTHOR]

Published

2021

27. Stevia rebaudiana extract attenuate metabolic disorders in diabetic rats via modulation of glucose transport and antioxidant signaling pathways and aquaporin‐2 expression in two extrahepatic tissues.

Author

Bayat, Elahe, Rahpeima, Zahra, Dastghaib, Sanaz, Gholizadeh, Fatemeh, Erfani, Mehran, Asadikaram, Gholamreza, and Mokarram, Pooneh

Subjects

STEVIA rebaudiana, STREPTOZOTOCIN, METABOLIC disorders, BLOOD urea nitrogen, DIABETES complications, BLOOD sugar, SKELETAL muscle

Abstract

Today, plant‐based therapies have been attracted attention to overcome diabetes complications. This study was an attempt to evaluate whether antidiabetic and nephroprotective effects of Stevia Rebaudiana Bertoni (SRB) can be exerted via upregulation of GLUT‐4, SNAP23, and Stx4 in skeletal muscles or modulation of AQP2 mRNA expression and antioxidant signaling pathway activity (Nrf2/Keap1) in kidneys. To achieve this aim, diabetes was induced via STZ‐nicotinamide (STZ‐NA). Diabetes increased the level of Blood Urea Nitrogen (BUN), serum creatinine, Fasting Blood Sugar (FBS), and Keap1 mRNA expression, which was coincide with reduction in mRNA levels of Nrf2, GLUT4, SNAP23, and Stx4. SRB and metformin compensate mentioned variables. However, SRB extract was more effective than metformin to increase the levels of GLUT4 and Nrf2 mRNA. It seems that SRB might attenuate the diabetic complications via manipulating the glucose uptake components in peripheral tissues and might exert the nephroprotective effects by modulation of AQP2, and Nrf2/Keap1 mRNA expression. Practical applications: Synthetic antidiabetic drugs have been only partially successful in controlling the diabetic complications. Moreover, use of these drugs is associated with a number of adverse effects. Over the past few years, a renewed attention has been paid to the prevention and treatment of diabetes using medicinal plants and functional foods. SRB that have been known as natural sweetener for centuries, is a such natural agent that has high source of various phytochemicals with antidiabetic, renal protective, antitumor, and antioxidant properties. In the current study, possible molecular mechanisms of insulin‐mimetic and nephroprotective effects of SRB extract was evaluated in diabetic rats. Due to powerful antihyperglycemic and nephroprotective effects of SRB extract that were showed in this study and previous studies, hence the fact that SRB is to be highlighted for future research as a new therapeutic agent for diabetes. [ABSTRACT FROM AUTHOR]

Published

2020

28. Tyrosine phosphorylation is not a relevant mechanism to modulate aquaporin 2 activity in gestational queen endometrium and placenta.

Author

Ferré‐Dolcet, Lluis, Rodríguez‐Gil, Joan Enric, Yeste, Marc, Rigau, Teresa, and Rivera del Alamo, Maria Montserrat

Subjects

ENDOMETRIUM, TYROSINE, PHOSPHORYLATION, PROGESTERONE, PLACENTA, QUEENS, AQUAPORINS

Abstract

Aquaporins have been shown to be regulated by phosphorylation of serine residues, but the possible role of tyrosine residues phosphorylation has not been evaluated. Changes in the localization of aquaporin 2 (AQP2) in the queen endometrium have been related to serum progesterone levels. The aim of this study was to determine whether these AQP2‐localization changes are mediated by variations in its tyrosine phosphorylation levels. Twelve queens were included in the study and divided into (a) non‐macroscopically pregnant with low levels of progesterone; (b) non‐macroscopically pregnant with high levels of progesterone; (c) 30 days of pregnancy; and (d) 60 days of pregnancy. Samples from endometrium and placental transference zone were obtained, immunoprecipitated and analysed by immunoblotting to determine the abundance of AQP2 and its relative levels of tyrosine phosphorylation. No significant differences in the tyrosine phosphorylation levels of immunoprecipated‐AQP2 were observed between groups. We can thus conclude that changes in the localization of AQP2 in the queen endometrium are not modulated by tyrosine phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2020

29. Genetic Predisposition to Early Myocardial Infarction.

Author

Goncharova, I. A., Nazarenko, M. S., Babushkina, N. P., Markov, A. V., Pecherina, T. B., Kashtalap, V. V., Tarasenko, N. V., Ponasenko, A. V., Barbarash, O. L., and Puzyrev, V. P.

Subjects

MOTIVATIONAL interviewing, MYOCARDIAL infarction, GENE expression, MASS spectrometry, TRANSCRIPTION factors, GENOTYPES, GENETICS

Abstract

The aim of the study was to identify the features of the genetic structure of myocardial infarction (MI) susceptibility depending on age ("early MI" denoting individuals who had the first MI before the age of 60 years, and "late MI" the group of patients with the first "MI after 60 years"). A total of 355 patients were examined (n = 121 early MI and n = 234 late MI) and 285 residents of the Siberian region (as a control group). Genotyping of 58 single nucleotide variants (SNPs) was performed using mass spectrometry using the Agena (ex Sequenom) MassARRAY® System. Statistical analysis was performed using Statistica 8.0 ("StatSoft Inc.", USA), as well as the "stats" and "genetics" packages in the R environment. The regulatory potential of SNPs was evaluated using the rSNPBase online service (http://rsnp.psych.ac.cn/). eQTL loci were identified using data from the Genotype-Tissue Expression (GTEx) project (http://www.gtexportal.org/) and the Blood eQTL online service (https://genenetwork.nl/bloodeqtlbrowser/). The GG genotype of ITGA4 rs1143674, the CC genotype of CDKN2B-AS1 rs1333049, and the CC genotype of KIAA1462 rs3739998, are generally associated with MI. The AA genotype of ADAMDEC1 rs3765124 (OR = 2.03; 95% CI 1.23‒3.33; p = 0.004) and the GG genotype of AQP2 rs2878771 (OR = 2.24; 95% CI 1.23‒4.09; p = 0.006) are associated with the development of MI at an early age, and the TT genotype of TAS2R38 rs1726866 (OR = 1.82; 95% CI 1.11‒2.89; p = 0.009) was the high-risk genotype for the late MI. Genetic variants associated with MI are regulatory SNP (rSNP) and affect the affinity of DNA binding to transcription factors, carry out post-transcriptional control of gene activity and change the level of gene expression in various tissues. Thus, early and late MI are based on both common genetic variants of ITGA4, CDKN2B-AS1, KIAA1462 genes and specific ones (ADAMDEC1 and AQP2 for early MI and TAS2R38 for late MI). [ABSTRACT FROM AUTHOR]

Published

2020

30. Mangiferin Ameliorates Hyperuricemic Nephropathy Which Is Associated With Downregulation of AQP2 and Increased Urinary Uric Acid Excretion.

Author

Li, Xuechen, Yan, Zhenxin, Carlström, Mattias, Tian, Jinying, Zhang, Xiaolin, Zhang, Wenxuan, Wu, Song, and Ye, Fei

Subjects

URIC acid, XANTHONE, XANTHINE oxidase, EXCRETION, RENAL fibrosis, KIDNEY diseases, MANGIFERIN, CALCULI

Abstract

Hyperuricemia is characterized by abnormally high level of circulating uric acid in the blood and is associated with increased risk of kidney injury. The pathophysiological mechanisms leading to hyperuricemic nephropathy (HN) involve oxidative stress, endothelial dysfunction, inflammation, and fibrosis. Mangiferin is a bioactive C-glucoside xanthone, which has been exerting anti-inflammatory, anti-fibrotic, and antioxidative effects in many diseases. This study aimed to evaluate the effect of mangiferin treatment in HN. In a mouse model of HN, we observed lower circulating urate levels and ameliorated renal dysfunction with mangiferin treatment, which was associated with reduced renal inflammation and fibrosis. We next investigated the mechanism of urate lowering effect of mangiferin. Metabolic cage experiment showed that mangiferin-administrated mice excreted significantly more urinary uric acid due to elevated urine output, but no marked change in urine uric acid concentration. Expressions of water channels and urate transporters were further assessed by western blot. Renal AQP2 expression was decreased, yet urate transporters URAT1, GLUT9, and OAT1 expressions were not affected by mangiferin in HN mice. Moreover, mangiferin treatment also normalized xanthine oxidase and SOD activity in HN mice, which would decrease uric acid synthesis and improve oxidative stress, respectively. Therefore, our results reveal a novel mechanism whereby mangiferin can reduce serum uric acid levels by promoting AQP2-related urinary uric acid excretion. This study suggested that mangiferin could be a multi-target therapeutic candidate to prevent HN via mechanisms that involve increased excretion and decreased production of uric acid and modulation of inflammatory, fibrotic, and oxidative pathways. [ABSTRACT FROM AUTHOR]

Published

2020

31. Gain-of-function mutations of the V2 vasopressin receptor in nephrogenic syndrome of inappropriate antidiuresis (NSIAD): a cell-based assay to assess constitutive water reabsorption.

Author

Ranieri, Marianna, Tamma, Grazia, Pellegrino, Tommaso, Vezzi, Vanessa, Ambrosio, Caterina, Grò, Cristina, Di Mise, Annarita, Costa, Tommaso, Valenti, Giovanna, and Cotecchia, Susanna

Subjects

GAIN-of-function mutations, DRUG receptors, CELL permeability, PHARMACOLOGY, CELL membranes, OSMOTIC pressure, COPEPTINS

Abstract

Nephrogenic syndrome of inappropriate antidiuresis (NSIAD) is a recently identified chromosome X-linked disease associated with gain-of-function mutations of the V2 vasopressin receptor (V2R), a G-protein-coupled receptor. It is characterized by inability to excrete a free water load, hyponatremia, and undetectable vasopressin-circulating levels. Hyponatremia can be quite severe in affected male children. To gain a deeper insight into the functional properties of the V2R active mutants and how they might translate into the pathological outcome of NSIAD, in this study, we have expressed the wild-type V2R and three constitutively active V2R mutants associated with NSIAD (R137L, R137C, and the F229V) in MCD4 cells, a cell line derived from renal mouse collecting duct, stably expressing the vasopressin-sensitive water channel aquaporin-2 (AQP2). Our findings indicate that in cells expressing each active mutant, AQP2 was constitutively localized to the apical plasma membrane in the absence of vasopressin stimulation. In line with these observations, under basal conditions, osmotic water permeability in cells expressing the constitutively active mutants was significantly higher compared to that of cells expressing the wild-type V2R. Our findings demonstrate a direct link between activating mutations of the V2R and the perturbation of water balance in NSIAD. In addition, this study provides a useful cell-based assay system to assess the functional consequences of newly discovered activating mutations of the V2R on water permeability in kidney cells and to screen the effect of drugs on the mutated receptors. [ABSTRACT FROM AUTHOR]

Published

2019

32. Long-term outcome in inherited nephrogenic diabetes insipidus.

Author

Sharma, Sonia, Ashton, Emma, Iancu, Daniela, Arthus, Marie-Francoise, Hayes, Wesley, Hoff, William van't, Kleta, Robert, Bichet, Daniel G, and Bockenhauer, Detlef

Abstract

Background Inherited nephrogenic diabetes insipidus (NDI) is a rare disorder characterized by impaired urinary concentrating ability. Little clinical data on long-term outcome exists. Method This was a single-centre retrospective medical record review of patients with a diagnosis of NDI followed between 1985 and 2017. We collected available data on growth, weight, school performance, complications and comorbidities. Results We identified 36 patients with available data and a clinical diagnosis of NDI, which was genetically confirmed in 33 of them. Patients presented at a median age of 0.6 years and median length of follow-up was 9.5 years. Chief symptoms at presentation were faltering growth, vomiting/feeding concerns, polyuria/polydipsia, febrile illness and hypernatraemic dehydration. Median weight standard deviation scores (SDS) improved from −2.1 at presentation to 0.2 at last follow-up. In contrast, height SDS remained essentially unchanged at −1.1 at presentation and −0.9 at last follow-up. Most patients were treated with prostaglandin synthesis inhibitors and thiazides, yet weaned off during school age without an obvious change in urine output. Median estimated glomerular filtration rate at last follow-up was 81 mL/min/1.73 m2. Urological complications were noted in 15 patients, constipation in 11 and learning difficulties in 5. Median age at resolution of nocturnal enuresis was 11 years. Estimated median daily fluid intake at median age of 13 years was 3800 mL/m2. Conclusion The overall prognosis in inherited NDI is favourable with regular treatment. As expected, most complications were related to polyuria. There is an apparent loss of efficacy of medications during school age. Our data inform the prognosis and management of patients with NDI. [ABSTRACT FROM AUTHOR]

Published

2019

33. Hyponatremia and MAP‐kinase inhibitors in malignant melanoma: Frequency, pathophysiological aspects and clinical consequences.

Author

Assan, Florence, Vilaine, Eve, Wagner, Sandra, Longvert, Christine, Saiag, Philippe, Seidowsky, Alexandre, Bourgault‐Villada, Isabelle, and Massy, Ziad A.

Subjects

HYPONATREMIA, MELANOMA treatment, PATHOLOGICAL physiology, BRAF genes, NEPHROTOXICOLOGY

Abstract

The incidence of malignant melanoma has increased over the past two decades. A combined BRAF/MEK inhibitor regimen has been shown to lead to prolonged survival and progression‐free survival in patients with metastatic BRAF V600‐mutant melanoma. Different nephrotoxic effects have been described, among them hyponatremia. The goal of the present narrative review was to understand the pathophysiological mechanisms driving hyponatremia when using selective BRAF inhibitors and/or MEK inhibitors in order to propose potential strategies to prevent or to treat this side effect. Several mechanisms of kidney injury have been suggested including changes in glomerular and tubular function. However, the precise mechanisms of hyponatremia remain unknown. Our hypothesis is that BRAF/MEK inhibitors lead to hyponatremia and water retention (so‐called dilution hyponatremia) by activating aquaporin 2 (AQP2) trafficking from its intracellular compartment to the luminal cell membrane, and by activating ENaC channel. Therefore, we recommend treating the hyponatremia related to BRAF/MEK inhibitors with restriction of fluid intake. [ABSTRACT FROM AUTHOR]

Published

2019

34. Diagnostic value of urinary RBP, ALB and AQP2 in neonatal hydronephrosis and the relationship with expression of MCP-1 in the prenatal maternal peripheral blood.

Author

Zhi, Ma, Zhang, Yanan, Liu, Lixia, and Wang, Huizhi

Subjects

HYDRONEPHROSIS, CARRIER proteins, BLOOD grouping & crossmatching, INVERSE relationships (Mathematics), MONOCYTE chemotactic factor

Abstract

Diagnostic value of urinary retinol binding protein (RBP), albumin (ALB) and aquaporin-2 (AQP2) in neonatal hydronephrosis and their relationship with the expression of monocyte chemoattractant protein 1 (MCP-1) in the prenatal maternal peripheral blood was investigated. Forty-six child patients with hydronephrosis admitted to Hongqi Hospital Affiliated to Mudanjiang Medical College from December 2016 to November 2017 were selected as the observation group and the control included 46 normal newborn infants. The urinary RBP, ALB, AQP2 and the expression of MCP-1 in the prenatal maternal peripheral blood in the two groups were compared. The diagnostic value of the combination of urinary RBP, ALB and AQP2 for the neonatal hydronephrosis was accessed through the area under curve (AUC). The changes of urinary RBP, ALB and AQP2 of child patients were observed and the correlations between RBP, ALB, AQP2 and MCP-1 were analyzed. The concentrations of RBP and ALB in the observation group were obviously increased compared to those in the control group. The AQP2 concentration in the observation group was lower than that in the control group. In the observation group, the MCP-1 level in the prenatal maternal blood was significantly higher than that in the control group (P<0.05). After treatment, the concentration of RBP and ALB in the child patients were significantly decreased and AQP2 concentration was increased compared with that before treatment (P<0.05). The AUC of the diagnosis combining with RBP, ALB and AQP2 was 0.913. RBP and ALB were positively correlated to MCP-1 in the prenatal maternal peripheral blood and there was a negative correlation between AQP2 and MCP-1 (P<0.05). In conclusion, urinary RBP, ALB and AQP2 can be regarded as markers for the diagnosis of the neonatal hydronephrosis and they are also closely related to the MCP-1 level in the prenatal maternal peripheral blood. [ABSTRACT FROM AUTHOR]

Published

2019

35. Integrin Beta 1 Is Crucial for Urinary Concentrating Ability and Renal Medulla Architecture in Adult Mice.

Author

Iervolino, Anna, De La Motte, Luigi R., Petrillo, Federica, Prosperi, Federica, Schiano, Guglielmo, Perna, Alessandra F., Di Matteo, Danilo, De Felice, Mario, Capasso, Giovambattista, and Trepiccione, Francesco

Subjects

INTEGRINS, HETERODIMERS, KIDNEY failure, POLYURIA, PROTEINURIA

Abstract

Integrins are heterodimers anchoring cells to the surrounding extracellular matrix (ECM), an active and complex process mediating a series of inside-out and outside-in stimuli regulating cellular turn-over, tissue growth and architecture. Itgb1 is the main subunit of the renal integrins and it is critical for renal development. This study aims to investigate the role of Itgb1 in the adult renal epithelial cells by knocking down Itgb1 in PAX8 expressing cells. Itgb1 - Pax8 cKO mice develop a progressively worsening proteinuria and renal abnormalities leading to severe renal failure and hypertension. This phenotype is also associated with severe dysfunction of distal nephron and polyuria. To further investigate whether distal nephron involvement was primarily related to Itgb1 suppression or secondary to renal failure, an Itgb1 - AQP2 cKO mouse model was generated. These mice lack Itgb1 expression in AQP2 expressing cells. They do not show any developmental alteration, but 1 month old mice are resistant to dDAVP administration and finally, at 2 months of age, they develop overt polyuria. This phenotype is due to primary collecting duct (CD) cells anoikis. The entire architecture of the outer medulla is altered, with loss of the typical organization pattern of vascular and tubular bundles alternation. Indeed, even though not primarily affected by genetic ablation, the TAL is secondarily affected in this model. It is sufficient to suppress Itgb1 expression in the CD in order to stimulate proliferation and then disappearance of neighboring TAL cells. This study shows that cell to cell interaction through the ECM is critical for architecture and function maintenance of the outer medulla and that Itgb1 is crucial for this process. [ABSTRACT FROM AUTHOR]

Published

2018

36. Combination exposure of melamine and cyanuric acid is associated with polyuria and activation of NLRP3 inflammasome in rats.

Author

Feifei Wang, Qiaojuan Liu, Lizi Jin, Hu, Shan, Renfei Luo, Mengke Han, Yonggong Zhai, Weidong Wang, and Chunling Li

Abstract

The molecular mechanisms of melamine-induced renal toxicity have not been fully understood. The purpose of the study aimed to investigate whether melamine and cyanuric acid induced NOD-like receptor family pyrin domain-containing 3 (NLRP3) inflammasome activation in the kidney, which may contribute to abnormal water and sodium handling in a rat model. Wistar rats received melamine (Mel; 200 mg·kg body wt-1 ·day-1 ), cyanuric acid (CA; 200 mg·kg body wt-1 ·day-1 ), or Mel plus CA (Mel + CA; 100 mg·kg body wt-1 ·day-1 , each) for 2 wk. Mel + CA caused damaged tubular epithelial structure and organelles, dilated tubular lumen, and inflammatory responses. Crystals were observed in urine and serum specimen, also in the lumen of dilated distal renal tubules. The combined ingestion of Mel and CA in rats caused a markedly impaired urinary concentration, which was associated with reduced protein expression of aquaporin (AQP)1, 2, and 3 in inner medulla and α-Na-K-ATPase and Na-K-2Cl transporters in cortex and outer medulla. Mel + CA treatment was associated with increased protein expression of CD3 and mRNA levels of CD68 and F4/80 as well as phosphorylation of NF-κB in the kidney. Mel + CA treatment increased protein and mRNA expression of NLRP3 inflammasome components apoptosis associated speck-like protein containing a caspase recruitment domain, caspase-1, and IL-1β in the inner medulla of rats. NF-κB inhibitor Bay 11-7082 reduced IL-1β expression induced by Mel + CA and prevented downregulation of AQP2 in inner medullary collecting duct cell suspensions. In conclusion, Mel + CA treatment caused urinary-concentrating defects and reduced expression of renal AQPs and key sodium transporters, which is likely due to the inflammatory responses and activation of NLRP3 inflammasome induced by crystals formed in the kidney. [ABSTRACT FROM AUTHOR]

Published

2018

37. Activation of AQP2 water channels without vasopressin: therapeutic strategies for congenital nephrogenic diabetes insipidus.

Author

Ando, Fumiaki and Uchida, Shinichi

Subjects

DIABETES insipidus, VASOPRESSIN, AQUAPORINS, CONGENITAL disorders, POLYURIA, CELLULAR signal transduction, THERAPEUTICS

Abstract

Congenital nephrogenic diabetes insipidus (NDI) is characterized by defective urine concentrating ability. Symptomatic polyuria is present from birth, even with normal release of the antidiuretic hormone vasopressin by the pituitary. Over the last two decades, the aquaporin-2 (AQP2) gene has been cloned and the molecular mechanisms of urine concentration have been gradually elucidated. Vasopressin binds to the vasopressin type II receptor (V2R) in the renal collecting ducts and then activates AQP2 phosphorylation and trafficking to increase water reabsorption from urine. Most cases of congenital NDI are caused by loss-of-function mutations to V2R, resulting in unresponsiveness to vasopressin. In this article, we provide an overview of novel therapeutic molecules of congenital NDI that can activate AQP2 by bypassing defective V2R signaling with a particular focus on the activators of the calcium and cAMP signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2018

38. Tamoxifen attenuates development of lithium-induced nephrogenic diabetes insipidus in rats.

Author

Tingskov, Stine Julie, Shan Hu, Jørgen Frøkiær, Tae-Hwan Kwon, Weidong Wang, and Nørregaard, Rikke

Abstract

Lithium is widely used in treatment of bipolar affective disorders but often causes nephrogenic diabetes insipidus (NDI), a disorder characterized by severe urinary-concentrating defects. Lithium-induced NDI is caused by lithium uptake by collecting duct principal cells and altered expression of aquaporin-2 (AQP2), which are essential for water reabsorption of tubular fluid in the collecting duct. Sex hormones have previously been shown to affect the regulation of AQP2, so we tested whether tamoxifen (TAM), a selective estrogen receptor modulator, would attenuate lithium-induced alterations on renal water homeostasis. Rats were treated for 14 days with lithium, and TAM treatment was initiated 1 wk after onset of lithium administration. Lithium treatment resulted in severe polyuria and reduced AQP2 expression, which were ameliorated by TAM. Consistent with this, TAM attenuated downregulation of AQP2 and increased phosphorylation of the cAMP-responsive element-binding protein, which induced AQP2 expression in freshly isolated inner-medullary collecting duct suspension prepared from lithium-treated rats. In conclusion, TAM attenuated polyuria dose dependently and impaired urine concentration and downregulation of AQP2 protein expression in rats with lithium-induced NDI. These findings suggest that TAM is likely to be a novel therapeutic option for lithium-induced NDI. [ABSTRACT FROM AUTHOR]

Published

2018

39. Highly tamoxifen-inducible principal cell-specific Cre mice with complete fidelity in cell specificity and no leakiness.

Author

Lihe Chen, Chao Gao, Long Zhang, Ye Zhang, Enuo Chen, and Wenzheng Zhang

Subjects

TAMOXIFEN, CELL differentiation, GENETIC recombination

Abstract

An ideal inducible system should be cell specific and have absolutely no background recombination without induction (i.e., no leakiness), a high recombination rate after induction, and complete fidelity in cell specificity (i.e., restricted recombination exclusively in cells where the driver gene is expressed). However, such an ideal mouse model remains unavailable for collecting duct research. Here, we report a mouse model that meets these criteria. In this model, a cassette expressing ERT2CreERT2 (ECE) is inserted at the ATG of the endogenous Aqp2 locus to disrupt Aqp2 function and to express ECE under the control of the Aqp2 promoter. The resulting allele is named Aqp2ECE. There was no indication of a significant impact of disruption of a copy of Aqp2 on renal function and blood pressure control in adult Aqp2ECE/+ heterozygotes. Without tamoxifen, Aqp2ECE did not activate a Credependent red fluorescence protein (RFP) reporter in adult kidneys. A single injection of tamoxifen (2 mg) to adult mice enabled Aqp2ECE to induce robust RFP expression in the whole kidney 24 h postinjection, with the highest recombination efficiency of 95% in the inner medulla. All RFP-labeled cells expressed principal cell markers (Aqp2 and Aqp3), but not intercalated cell markers (V-ATPase B1B2, and carbonic anhydrase II). Hence, Aqp2ECE confers principal cell-specific tamoxifen-inducible recombination with absolutely no leakiness, high inducibility, and complete fidelity in cell specificity, which should be an important tool for temporospatial control of target genes in the principal cells and for Aqp2+ lineage tracing in adult mice. [ABSTRACT FROM AUTHOR]

Published

2018

40. AQP2 Abundance is Regulated by the E3-Ligase CHIP Via HSP70.

Author

Centrone, Mariangela, Ranieri, Marianna, Di Mise, Annarita Di, Berlingerio, Sante Princiero, Russo, Annamaria, Deen, Peter M.T., Staub, Olivier, Valenti, Giovanna, and Tamma, Grazia

Subjects

AQUAPORINS, ECSTASY (Drug), VASOPRESSIN, CELL proliferation, IMMUNOBLOTTING

Abstract

Background/Aims: AQP2 expression is mainly controlled by vasopressin-dependent changes in protein abundance which is in turn regulated by AQP2 ubiquitylation and degradation, however the proteins involved in these processes are largely unknown. Here, we investigated the potential role of the CHIP E3 ligase in AQP2 regulation. Methods: MCD4 cells and kidney slices were used to study the involvement of the E3 ligase CHIP on AQP2 protein abundance by cell homogenization and immunoprecipitation followed by immunoblotting. Results: We found that AQP2 complexes with CHIP in renal tissue. Expression of CHIP increased proteasomal degradation of AQP2 and HSP70 abundance, a molecular signature of HSP90 inhibition. Increased HSP70 level, secondary to CHIP expression, promoted ERK signaling resulting in increased AQP2 phosphorylation at S261. Phosphorylation of AQP2 at S256 and T269 were instead downregulated. Next, we investigated HSP70 interaction with AQP2, which is important for endocytosis. Compared with AQP2-wt, HSP70 binding decreased in AQP2-S256D and AQP2-S256D-S261D, while increased in AQP2-S256D-S261A. Surprisingly, expression of CHIP-delUbox, displaying a loss of E3 ligase activity, still induced AQP2 degradation, indicating that CHIP does not ubiquitylate and degrade AQP2 itself. Conversely, the AQP2 half-life was increased upon the expression of CHIP-delTPR a domain which binds Hsc70/HSP70 and HSP90. HSP70 has been reported to bind other E3 ligases such as MDM2. Notably, we found that co-expression of CHIP and MDM2 increased AQP2 degradation, whereas co-expression of CHIP with MDM2-delRING, an inactive form of MDM2, impaired AQP2 degradation. Conclusion: Our findings indicate CHIP as a master regulator of AQP2 degradation via HSP70 that has dual functions: (1) as chaperone for AQP2 and (2) as an anchoring protein for MDM2 E3 ligase, which is likely to be involved in AQP2 degradation. [ABSTRACT FROM AUTHOR]

Published

2017

41. Effect of tolvaptan on renal handling of water and sodium, GFR and central hemodynamics in autosomal dominant polycystic kidney disease during inhibition of the nitric oxide system: a randomized, placebo-controlled, double blind, crossover study.

Author

Al Therwani, Safa, Sofie Malmberg, My Emma, Rosenbaek, Jeppe Bakkestroem, Bech, Jesper Noergaard, Pedersen, Erling Bjerregaard, and Malmberg, My Emma Sofie

Subjects

HEMODYNAMICS, POLYCYSTIC kidney disease, VASOPRESSIN, AQUAPORINS, BLOOD pressure, SODIUM metabolism, BIOTRANSFORMATION (Metabolism), COMPARATIVE studies, CROSSOVER trials, GLOMERULAR filtration rate, HETEROCYCLIC compounds, RESEARCH methodology, MEDICAL cooperation, MEMBRANE proteins, NITRIC oxide, RESEARCH, WATER, EVALUATION research, RANDOMIZED controlled trials, TREATMENT effectiveness, BLIND experiment, MEMBRANE transport proteins, CHEMICAL inhibitors

Abstract

Background: Tolvaptan slows progression of autosomal dominant polycystic kidney disease (ADPKD) by antagonizing the vasopressin-cAMP axis. Nitric oxide (NO) stimulates natriuresis and diuresis, but its role is unknown during tolvaptan treatment in ADPKD.Methods: Eighteen patients with ADPKD received tolvaptan 60 mg or placebo in a randomized, placebo-controlled, double blind, crossover study. L-NMMA (L-NG-monomethyl-arginine) was given as a bolus followed by continuous infusion during 60 min. We measured: GFR, urine output (UO), free water clearance (CH2O), fractional excretion of sodium (FENa), urinary excretion of aquaporin-2 channels (u-AQP2) and epithelial sodium channels (u-ENaCγ), plasma concentrations of vasopressin (p-AVP), renin (PRC), angiotensinII (p-AngII), aldosterone (p-Aldo), and central blood pressure (cBP).Results: During tolvaptan with NO-inhibition, a more pronounced decrease was measured in UO, CH2O (61% vs 43%) and FENa (46% vs 41%) after placebo than after tolvaptan; GFR and u-AQP2 decreased to the same extent; p-AVP increased three fold, whereas u-ENaCγ, PRC, p-AngII, and p-Aldo remained unchanged. After NO-inhibition, GFR increased after placebo and remained unchanged after tolvaptan (5% vs -6%). Central diastolic BP (CDBP) increased to a higher level after placebo than tolvaptan. Body weight fell during tolvaptan treatment.Conclusions: During NO inhibition, tolvaptan antagonized both the antidiuretic and the antinatriuretic effect of L-NMMA, partly via an AVP-dependent mechanism. U-AQP2 was not changed by tolvaptan, presumeably due to a counteracting effect of elevated p-AVP. The reduced GFR during tolvaptan most likely is caused by the reduction in extracellular fluid volume and blood pressure.Trial Registration: Clinical Trial no: NCT02527863 . Registered 18 February 2015. [ABSTRACT FROM AUTHOR]

Published

2017

42. Effect of tolvaptan on renal water and sodium excretion and blood pressure during nitric oxide inhibition: a dose-response study in healthy subjects.

Author

Al Therwani, Safa, Rosenbæk, Jeppe Bakkestrøm, Mose, Frank Holden, Bech, Jesper Nørgaard, and Pedersen, Erling Bjerregaard

Subjects

PHYSIOLOGICAL effects of nitric oxide, G protein coupled receptors, VASOPRESSIN, DOSE-response relationship in biochemistry, HEMODYNAMICS, EXCRETION, URINE, AQUAPORINS, ARGININE, BLOOD pressure, COMPARATIVE studies, CROSSOVER trials, DOSE-effect relationship in pharmacology, GLOMERULAR filtration rate, HETEROCYCLIC compounds, KIDNEYS, RESEARCH methodology, MEDICAL cooperation, NITRIC oxide, PLACEBOS, RESEARCH, SODIUM, WATER in the body, WATER-electrolyte balance (Physiology), EVALUATION research, RANDOMIZED controlled trials, BLIND experiment

Abstract

Background: Tolvaptan is a selective vasopressin receptor antagonist. Nitric Oxide (NO) promotes renal water and sodium excretion, but the effect is unknown in the nephron's principal cells. In a dose-response study, we measured the effect of tolvaptan on renal handling of water and sodium and systemic hemodynamics, during baseline and NO-inhibition with L-NMMA (L-NG-monomethyl-arginine).Methods: In a randomized, placebo-controlled, double blind, cross over study, 15 healthy subjects received tolvaptan 15, 30 and 45 mg or placebo. L-NMMA was given as a bolus followed by continuous infusion during 60 min. We measured urine output (UO), free water clearance (CH2O), fractional excretion of sodium (FENa), urinary aquaporin-2 channels (u-AQP2) and epithelial sodium channels (u-ENaCγ), plasma vasopressin (p-AVP) and central blood pressure (cBP).Results: During baseline, FENa was unchanged. Tolvaptan decreased u-ENaCγ dose-dependently and increased p-AVP threefold, whereas u-AQP2 was unchanged. During tolvaptan with NO-inhibition, UO and CH2O decreased dose-dependently. FENa decreased dose-independently and u-ENaCγ remained unchanged. Central BP increased equally after all treatments.Conclusions: During baseline, fractional excretion of sodium was unchanged. During tolvaptan with NO-inhibition, renal water excretion was reduced dose dependently, and renal sodium excretion was reduced unrelated to the dose, partly via an AVP dependent mechanism. Thus, tolvaptan antagonized the reduction in renal water and sodium excretion during NO-inhibition. Most likely, the lack of decrease in AQP2 excretion by tolvaptan could be attributed to a counteracting effect of the high level of p-AVP.Trial Registration: Clinical Trial no: NCT02078973 . Registered 1 March 2014. [ABSTRACT FROM AUTHOR]

Published

2017

43. A fate-mapping approach reveals the composite origin of the connecting tubule and alerts on "single-cell"-specific KO model of the distal nephron.

Author

Trepiccione, Francesco, Soukaseum, Christelle, Iervolino, Anna, Petrillo, Federica, Zacchia, Miriam, Schutz, Gunther, Eladari, Dominique, Capasso, Giovambattista, and Hadchouel, Juliette

Subjects

KIDNEY tubules, FATE mapping (Genetics), HOMEOSTASIS, PHYSIOLOGY

Abstract

The distal nephron is a heterogeneous part of the nephron composed by six different cell types, forming the epithelium of the distal convoluted (DCT), connecting, and collecting duct. To dissect the function of these cells, knockout models specific for their unique cell marker have been created. However, since this part of the nephron develops at the border between the ureteric bud and the metanephric mesenchyme, the specificity of the single cell markers has been recently questioned. Here, by mapping the fate of the aquaporin 2 (AQP2) and Na+-Cl- cotransporter (NCC)-positive cells using transgenic mouse lines expressing the yellow fluorescent protein fluorescent marker, we showed that the origin of the distal nephron is extremely composite. Indeed, AQP2-expressing precursor results give rise not only to the principal cells, but also to some of the A- and B-type intercalated cells and even to cells of the DCT. On the other hand, some principal cells and B-type intercalated cells can develop from NCC-expressing precursors. In conclusion, these results demonstrate that the origin of different cell types in the distal nephron is not as clearly defined as originally thought. Importantly, they highlight the fact that knocking out a gene encoding for a selective functional marker in the adult does not guarantee cell specificity during the overall kidney development. Tools allowing not only cell-specific but also time-controlled recombination will be useful in this sense. [ABSTRACT FROM AUTHOR]

Published

2016

44. AQP2 Plasma Membrane Diffusion Is Altered by the Degree of AQP2-S256 Phosphorylation.

Author

Arnspang, Eva C., Login, Frédéric H., Koffman, Jennifer S., Sengupta, Prabuddha, and Nejsum, Lene N.

Subjects

CELL membranes, PHOSPHORYLATION, DIFFUSION coefficients, VASOPRESSIN, AQUAPORINS, CYCLIC-AMP-dependent protein kinase

Abstract

Fine tuning of urine concentration occurs in the renal collecting duct in response to circulating levels of arginine vasopressin (AVP). AVP stimulates intracellular cAMP production, which mediates exocytosis of sub-apical vesicles containing the water channel aquaporin-2 (AQP2). Protein Kinase A (PKA) phosphorylates AQP2 on serine-256 (S256), which triggers plasma membrane accumulation of AQP2. This mediates insertion of AQP2 into the apical plasma membrane, increasing water permeability of the collecting duct. AQP2 is a homo-tetramer. When S256 on all four monomers is changed to the phosphomimic aspartic acid (S256D), AQP2-S256D localizes to the plasma membrane and internalization is decreased. In contrast, when S256 is mutated to alanine (S256A) to mimic non-phosphorylated AQP2, AQP2-S256A localizes to intracellular vesicles as well as the plasma membrane, with increased internalization from the plasma membrane. S256 phosphorylation is not necessary for exocytosis and dephosphorylation is not necessary for endocytosis, however, the degree of S256 phosphorylation is hypothesized to regulate the kinetics of AQP2 endocytosis and thus, retention time in the plasma membrane. Using k-space Image Correlation Spectroscopy (kICS), we determined how the number of phosphorylated to non-phosphorylated S256 monomers in the AQP2 tetramer affects diffusion speed of AQP2 in the plasma membrane. When all four monomers mimicked constitutive phosphorylation (AQP2-S256D), diffusion was faster than when all four were non-phosphorylated (AQP2-S256A). AQP2-WT diffused at a speed similar to that of AQP2-S256D. When an average of two or three monomers in the tetramer were constitutively phosphorylated, the average diffusion coefficients were not significantly different to that of AQP2-S256D. However, when only one monomer was phosphorylated, diffusion was slower and similar to AQP2-S256A. Thus, AQP2 with two to four phosphorylated monomers has faster plasma membrane kinetics, than the tetramer which contains just one or no phosphorylated monomers. This difference in diffusion rate may reflect behavior of AQP2 tetramers destined for either plasma membrane retention or endocytosis. [ABSTRACT FROM AUTHOR]

Published

2016

45. The EP3 receptor regulates water excretion in response to high salt intake.

Author

Shoujin Hao, Houli Jiang, Ferreri, Nicholas R., DelliPizzi, AnnMarie, and Quiroz-Munoz, Mariana

Subjects

PROSTAGLANDIN receptors, HOMEOSTASIS, CYCLOOXYGENASE 2

Abstract

The mechanisms by which prostanoids contribute to the maintenance of whole body water homeostasis are complex and not fully understood. The present study demonstrates that an EP3-dependent feedback mechanism contributes to the regulation of water homeostasis under high-salt conditions. Rats on a normal diet and tap water were placed in metabolic cages and given either sulprostone (20 μg·kg−1·day−1) or vehicle for 3 days to activate EP3 receptors in the thick ascending limb (TAL). Treatment was continued for another 3 days in rats given either 1% NaCl in the drinking water or tap water. Sulprostone decreased expression of cyclooxygenase 2 (COX-2) expression by ∼75% in TAL tubules from rats given 1% NaCl concomitant with a ∼60% inhibition of COX-2-dependent PGE2 levels in the kidney. Urine volume increased after ingestion of 1% NaCl but was reduced ∼40% by sulprostone. In contrast, the highly selective EP3 receptor antagonist L-798106 (100 μg·kg−1·day−1), which increased COX-2 expression and renal PGE2 production, increased urine volume in rats given 1% NaCl. Sulprostone increased expression of aquaporin-2 (AQP2) in the inner medullary collecting duct plasma membrane in association with an increase in phosphorylation at Ser269 and decrease in Ser261 phosphorylation; antagonism of EP3 with L-798106 reduced AQP2 expression. Thus, although acute activation of EP3 by PGE2 in the TAL and collecting duct inhibits the Na-K-2Cl cotransporter and AQP2 activity, respectively, chronic activation of EP3 in vivo limits the extent of COX-2-derived PGE2 synthesis, thereby mitigating the inhibitory effects of PGE2 on these transporters and decreasing urine volume. [ABSTRACT FROM AUTHOR]

Published

2016

46. 4-PBA improves lithium-induced nephrogenic diabetes insipidus by attenuating ER stress.

Author

Peili Zheng, Yu Lin, Feifei Wang, Renfei Luo, Tiezheng Zhang, Shan Hu, Chunling Li, Weidong Wang, Pinning Feng, and Xinling Liang

Subjects

BUTYRIC acid, ENDOPLASMIC reticulum, DIABETES insipidus, DISEASE risk factors, THERAPEUTICS, PHYSIOLOGY

Abstract

Endoplasmic reticulum (ER) stress has been implicated in some types of glomerular and tubular disorders. The objectives of this study were to elucidate the role of ER stress in lithium-induced nephrogenic diabetes insipidus (NDI) and to investigate whether attenuation of ER stress by 4-phenylbutyric acid (4-PBA) improves urinary concentrating defect in lithium-treated rats. Wistar rats received lithium (40 mmol/kg food), 4-PBA (320 mg/kg body wt by gavage every day), or no treatment (control) for 2 wk, and they were dehydrated for 24 h before euthanasia. Lithium treatment resulted in increased urine output and decreased urinary osmolality, which was significantly improved by 4-PBA. 4-PBA also prevented reduced protein expression of aquaporin-2 (AQP2), pS256-AQP2, and pS261-AQP2 in the inner medulla of kidneys from lithium-treated rats after 24-h dehydration. Lithium treatment resulted in increased expression of ER stress markers in the inner medulla, which was associated with dilated cisternae and expansion of ER in the inner medullary collecting duct (IMCD) principal cells. Confocal immunofluorescence studies showed colocalization of a molecular chaperone, binding IgG protein (BiP), with AQP2 in principal cells. Immunohistochemistry demonstrated increased intracellular expression of BiP and decreased AQP2 expression in IMCD principal cells of kidneys from lithium-treated rats. 4-PBA attenuated expression of ER stress markers and recovered ER morphology. In IMCD suspensions isolated from lithium-treated rats, 4-PBA incubation was also associated with increased AQP2 expression and ameliorated ER stress. In conclusion, in experimental lithium-induced NDI, 4-PBA improved the urinary concentrating defect and increased AQP2 expression, likely via attenuating ER stress in IMCD principal cells. [ABSTRACT FROM AUTHOR]

Published

2016

47. Renal phenotype in Bardet-Biedl syndrome: a combined defect of urinary concentration and dilution is associated with defective urinary AQP2 and UMOD excretion.

Author

Zacchia, Miriam, Capolongo, Giovanna, Raiola, Ilaria, Rinaldi, Luca, Trepiccione, Francesco, Perna, Alessandra, Capasso, Giovambattista, Zacchia, Enza, Zona, Enrica, Ingrosso, Diego, Di Iorio, Valentina, Simonelli, Francesca, and Moe, Orson W.

Subjects

LAURENCE-Moon-Biedl syndrome, HUMAN phenotype, AQUAPORINS, GENETICS

Abstract

The renal phenotype in Bardet-Biedl syndrome (BBS) is highly variable. The present study describes renal findings in 41 BBS patients and analyzes the pathogenesis of hyposthenuria, the most common renal dysfunction. Five of 41 patients (12%) showed an estimated glomerular filtration rate < 60 ml·min−1·1.73 m−2. Urine protein and urine albumin-to-creatinine ratio were over 200 and 30 mg/g in 9/24 and 7/23 patients, respectively. Four of 41 patients showed no renal anomalies on ultrasound. Twenty of 34 patients had hyposthenuria in the absence of renal insufficiency. In all 8 of the hyposthenuric patients studied, dDAVP failed to elevate urine osmolality (Uosm), suggesting a nephrogenic origin. Interestingly, water loading (WL) did not result in a significant reduction of Uosm, indicating combined concentrating and diluting defects. dDAVP infusion induced a significant increase of plasma Factor VIII and von Willebrand Factor levels, supporting normal function of the type 2 vasopressin receptor at least in endothelial cells. While urinary aquaporin 2 (u-AQP2) abundance was not different between patients and controls at baseline, the dDAVP-induced increased u-AQP2 and the WL-induced reduction of u-AQP2 were blunted in patients with a combined concentrating and diluting defect, suggesting a potential role of AQP2 in the defective regulation of water absorption. Urine Uromodulin excretion was reduced in all hyposthenuric patients, suggesting a thick ascending limb defect. Interestingly, renal Na, Cl, Ca, but not K handling was impaired after acute WL but not at basal. In summary, BBS patients show combined urinary concentration and dilution defects; a thick ascending limb and collecting duct tubulopathy may underlie impaired water handling. [ABSTRACT FROM AUTHOR]

Published

2016

48. The Trafficking of the Water Channel Aquaporin-2 in Renal Principal Cells -- a Potential Target for Pharmacological Intervention in Cardiovascular Diseases.

Author

Vukiċċeviċ, Tanja, Schulz, Maike, Faust, Dörte, and Klussmann, Enno

Subjects

HEART failure, AQUAPORIN genetics, VASOPRESSIN, THERAPEUTICS

Abstract

Arginine-vasopressin (AVP) stimulates the redistribution of water channels, aquaporin-2 (AQP2) from intracellular vesicles into the plasma membrane of renal collecting duct principal cells. By this AVP directs 10% of the water reabsorption from the 170 L of primary urine that the human kidneys produce each day. This review discusses molecular mechanisms underlying the AVP-induced redistribution of AQP2; in particular, it provides an overview over the proteins participating in the control of its localization. Defects preventing the insertion of AQP2 into the plasma membrane cause diabetes insipidus. The disease can be acquired or inherited, and is characterized by polyuria and polydipsia. Vice versa, up-regulation of the system causing a predominant localization of AQP2 in the plasma membrane leads to excessive water retention and hyponatremia as in the syndrome of inappropriate antidiuretic hormone secretion (SIADH), late stage heart failure or liver cirrhosis. This article briefly summarizes the currently available pharmacotherapies for the treatment of such water balance disorders, and discusses the value of newly identified mechanisms controlling AQP2 for developing novel pharmacological strategies. Innovative concepts for the therapy of water balance disorders are required as there is a medical need due to the lack of causal treatments. [ABSTRACT FROM AUTHOR]

Published

2016

49. Novel mutations associated with nephrogenic diabetes insipidus. A clinical-genetic study.

Author

García Castaño, Alejandro, Pérez de Nanclares, Gustavo, Madariaga, Leire, Aguirre, Mireia, Chocron, Sara, Madrid, Alvaro, Lafita Tejedor, Francisco, Gil Campos, Mercedes, Sánchez del Pozo, Jaime, Ruiz Cano, Rafael, Espino, Mar, Gomez Vida, Jose, Santos, Fernando, García Nieto, Victor, Loza, Reyner, Rodríguez, Luis, Hidalgo Barquero, Emilia, Printza, Nikoleta, Camacho, Juan, and Castaño, Luis

Subjects

COMPARATIVE studies, DISEASE susceptibility, DNA, GENEALOGY, GENETIC techniques, RESEARCH methodology, MEDICAL cooperation, MEMBRANE proteins, GENETIC mutation, RESEARCH, GENETIC testing, EVALUATION research, DIABETES insipidus, SEQUENCE analysis, DIAGNOSIS

Abstract

Unlabelled: Molecular diagnosis is a useful diagnostic tool in primary nephrogenic diabetes insipidus (NDI), an inherited disease characterized by renal inability to concentrate urine. The AVPR2 and AQP2 genes were screened for mutations in a cohort of 25 patients with clinical diagnosis of NDI. Patients presented with dehydration, polyuria-polydipsia, failure to thrive (mean ± SD; Z-height -1.9 ± 2.1 and Z-weight -2.4 ± 1.7), severe hypernatremia (mean ± SD; Na 150 ± 10 mEq/L), increased plasma osmolality (mean ± SD; 311 ± 18 mOsm/Kg), but normal glomerular filtration rate. Genetic diagnosis revealed that 24 male patients were hemizygous for 17 different putative disease-causing mutations in the AVPR2 gene (each one in a different family). Of those, nine had not been previously reported, and eight were recurrent. Moreover, we found those same AVPR2 changes in 12 relatives who were heterozygous carriers. Further, in one female patient, AVPR2 gene study turned out to be negative and she was found to be homozygous for the novel AQP2 p.Ala86Val alteration.Conclusion: Genetic analysis presumably confirmed the diagnosis of nephrogenic diabetes insipidus in every patient of the studied cohort. We emphasize that we detected a high presence (50 %) of heterozygous females with clinical NDI symptoms.What Is Known: • In most cases (90 %), inherited nephrogenic diabetes insipidus (NDI) is an X-linked disease, caused by mutations in the AVPR2 gene. • In rare occasions (10 %), it is caused by mutations in the AQP2 gene. What is new: • In this study, we report 10 novel mutations associated with NDI. • We have detected a high presence (50 %) of heterozygous carriers with clinical NDI symptoms. [ABSTRACT FROM AUTHOR]

Published

2015

50. Estradiol regulates AQP2 expression in the collecting duct: a novel inhibitory role for estrogen receptor α.

Author

Cheema, Muhammad Umar, Irsik, Debra L., Yan Wang, Miller-Little, William, Hyndman, Kelly A., Marks, Eileen S., Frøkiær, Jørgen, Boesen, Erika I., and Norregaard, Rikke

Subjects

ESTRADIOL, AQUAPORINS, PROTEIN expression, ESTROGEN receptors, SEX hormones, HOMEOSTASIS

Abstract

While there is evidence that sex hormones influence multiple systems involved in salt and water homeostasis, the question of whether sex hormones regulate aquaporin- 2 (AQP2) and thus water handling by the collecting duct has been largely ignored. Accordingly, the present study investigated AQP2 expression, localization and renal water handling in intact and ovariectomized (OVX) female rats, with and without estradiol or progesterone replacement. OVX resulted in a significant increase in urine osmolality and increase in p256-AQP2 in the renal cortex at 7 days post-OVX, as well as induced body weight changes. Relative to OVX alone, estradiol repletion produced a significant increase in urine output, normalized urinary osmolality and reduced both total AQP2 (protein and mRNA) and p256-AQP2 expression, whereas progesterone repletion had little effect. Direct effects of estradiol on AQP2 mRNA and protein levels were further tested in vitro using the mpkCCD principal cell line. Estradiol treatment of mpkCCD cells reduced AQP2 at both the mRNA and protein level in the absence of deamino-8-D-AVP (dDAVP) and significantly blunted the dDAVPinduced increase in AQP2 at the protein level only. We determined that mpkCCD and native mouse collecting ducts express both estrogen receptor (ER)α and ERβ and that female mice lacking ERα displayed significant increases in AQP2 protein compared with wildtype littermates, implicating ERα in mediating the inhibitory effect of estradiol on AQP2 expression. These findings suggest that changes in estradiol levels, such as during menopause or following reproductive surgeries, may contribute to dysregulation of water homeostasis in women. [ABSTRACT FROM AUTHOR]

Published

2015