Your search keyword '"*LOOP of Henle"' showing total 3,040 results

1. Function of the nephron and the formation of urine.

Author

Kingston, Jennifer, Khan, Shiraz, and Moinuddin, Zia

Abstract

The nephron is the functional unit of the kidney involved in the critical interplay of fluid and electrolyte homeostasis by glomerular filtration, selective tubular reabsorption, and secretion. This article will discuss the structure and function of each segment of the nephron, and the physiology pertaining to the formation of urine. [ABSTRACT FROM AUTHOR]

Published

2024

2. Claudin-10 Expression and the Gene Expression Pattern of Thick Ascending Limb Cells.

Author

Brideau, Gaelle, Cheval, Lydie, Griveau, Camille, Ling, Wung-Man Evelyne, Lievre, Loïc, Crambert, Gilles, Müller, Dominik, Broćić, Jovana, Cherchame, Emeline, Houillier, Pascal, and Prot-Bertoye, Caroline

Subjects

*GENE expression, *VITAMIN D receptors, *HORMONE receptors, *HIERARCHICAL clustering (Cluster analysis)

Abstract

Many genomic, anatomical and functional differences exist between the medullary (MTAL) and the cortical thick ascending limb of the loop of Henle (CTAL), including a higher expression of claudin-10 (CLDN10) in the MTAL than in the CTAL. Therefore, we assessed to what extent the Cldn10 gene expression is a determinant of differential gene expression between MTAL and CTAL. RNAs extracted from CTAL and MTAL microdissected from wild type (WT) and Cldn10 knock out mice (cKO) were analyzed by RNAseq. Differential and enrichment analyses (GSEA) were performed with interactive R Shiny software. Between WT and cKO MTAL, 637 genes were differentially expressed, whereas only 76 were differentially expressed between WT and cKO CTAL. Gene expression patterns and GSEA analyses in all replicates showed that WT MTAL did not cluster with the other replicates; no hierarchical clustering could be found between WT CTAL, cKO CTAL and cKO MTAL. Compared to WT replicates, cKO replicates were enriched in Cldn16, Cldn19, Pth1r, (parathyroid hormone receptor type 1), Casr (calcium sensing receptor) and Vdr (Vitamin D Receptor) mRNA in both the cortex and medulla. Cldn10 is associated with gene expression patterns, including genes specifically involved in divalent cations reabsorption in the TAL. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enfermedades renales que cursan con hipomagnesemia. Comentarios acerca de una nueva tubulopatía hipomagnesémica de origen genético

Author

Víctor M. Garcia-Nieto, Félix Claverie-Martin, Teresa Moraleda-Mesa, Ana Perdomo-Ramírez, Gloria Ma Fraga-Rodríguez, María Isabel Luis-Yanes, and Elena Ramos-Trujillo

Subjects

Hypomagnesemia, Loop of Henle, Distal convoluted tubule, TRPM7 channel, Tubulopathies, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Resumen: Las enfermedades renales que cursan con hipomagnesemia son un grupo complejo y variopinto de tubulopatías producidas por mutaciones en genes que codifican proteínas que se expresan en la rama gruesa ascendente del asa de Henle y en el túbulo contorneado distal. En el presente artículo revisamos la descripción inicial, la expresividad clínica y la etiología de cuatro de las primeras causas de tubulopatías hipomagnesémicas que se describieron: las enfermedades de Bartter tipo 3 y Gitelman, la hipomagnesemia con hipocalcemia secundaria autosómica recesiva y la hipomagnesemia familiar con hipercalciuria y nefrocalcinosis. A continuación, se describen los patrones bioquímicos básicos que se observan en las hipomagnesemias tubulares renales y las modalidades de transporte e interacción que concurren entre los transportadores implicados en la reabsorción de magnesio en el túbulo contorneado distal. Finalmente, se comunica la reciente descripción de una nueva tubulopatía hipomagnesémica, la hipomagnesemia con hipocalcemia secundaria tipo 2 causada por una reducción de la actividad del canal TRPM7. Abstract: Renal diseases associated with hypomagnesemia are a complex and diverse group of tubulopathies caused by mutations in genes encoding proteins that are expressed in the thick ascending limb of the loop of Henle and in the distal convoluted tubule. In this paper, we review the initial description, the clinical expressiveness and etiology of four of the first hypomagnesemic tubulopathies described: Type 3 Bartter and Gitelman diseases, Autosomal recessive hypomagnesemia with secondary hypocalcemia and Familial hypomagnesemia with hypercalciuria and nephrocalcinosis. The basic biochemical patterns observed in renal tubular hypomagnesemias and the modalities of transport and interaction that occur between the transporters involved in the reabsorption of magnesium in the distal convoluted tubule are described below. Finally, the recent report of a new renal disease with hypomagnesemia, Type 2 hypomagnesemia with secondary hypocalcemia caused by reduced TRPM7 channel activity is described.

Published

2024

4. Enfermedades renales que cursan con hipomagnesemia. Comentarios acerca de una nueva tubulopatía hipomagnesémica de origen genético.

Author

García-Nieto, Víctor M., Claverie-Martin, Félix, Moraleda-Mesa, Teresa, Perdomo-Ramírez, Ana, Fraga-Rodríguez, Gloria Ma, Luis-Yanes, María Isabel, and Ramos-Trujillo, Elena

Abstract

Copyright of Nefrologia is the property of Revista Nefrologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Loop of Henle

Author

Pant, AB

Published

2024

6. Kidney Handling of NaCl and Water

Author

Reddi, Alluru S. and Reddi, Alluru S.

Published

2023

7. Wirkmechanismen und klinische Anwendung von Diuretika in der Intensivmedizin.

Author

Lindner, M.-L., Lohmeyer, J. L., Adam, E. H., Zacharowski, K., and Weber, C. F.

Subjects

*KIDNEY physiology, *DIURETICS, *INTENSIVE care units, *HYPERVOLEMIA, *NEPHRONS, *HUMAN body, *WATER-electrolyte imbalances, *CRITICAL care medicine, *ELECTROLYTES, *ACUTE kidney failure, *PHARMACODYNAMICS

Abstract

The paired kidneys play a significant role in the human body due to the multitude of physiological tasks. Complex biochemical processes keep the sensitive electrolyte and water balance stable and thus ensure the organism's ability to adapt to exogenous and endogenous factors, which is essential for survival. The drug class of diuretics includes substances with very differing pharmacological characteristics. The functioning of the nephron is therefore indispensable for a deeper understanding of the pharmacodynamics, pharmacokinetics and side effect profile of diuretics. In the treatment of acute heart failure with pulmonary congestion, certain diuretics represent an important therapeutic option to counteract hypervolemia and thus an increase in preload. According to current data, diuretics have no proven benefits in the treatment or prevention of acute kidney injury but they can counteract hypervolemia and under certain conditions even reduce the use of renal replacement procedures. [ABSTRACT FROM AUTHOR]

Published

2023

8. Role of Uromodulin in Salt-Sensitive Hypertension.

Author

Mary, Sheon, Boder, Philipp, Padmanabhan, Sandosh, McBride, Martin W., Graham, Delyth, Delles, Christian, and Dominiczak, Anna F.

Abstract

The exclusive expression of uromodulin in the kidneys has made it an intriguing protein in kidney and cardiovascular research. Genome-wide association studies discovered variants of uromodulin that are associated with chronic kidney diseases and hypertension. Urinary and circulating uromodulin levels reflect kidney and cardiovascular health as well as overall mortality. More recently, Mendelian randomization studies have shown that genetically driven levels of uromodulin have a causal and adverse effect on kidney function. On a mechanistic level, salt sensitivity is an important factor in the pathophysiology of hypertension, and uromodulin is involved in salt reabsorption via the NKCC2 (Na+-K+-2Cl- cotransporter) on epithelial cells of the ascending limb of loop of Henle. In this review, we provide an overview of the multifaceted physiology and pathophysiology of uromodulin including recent advances in its genetics; cellular trafficking; and mechanistic and clinical studies undertaken to understand the complex relationship between uromodulin, blood pressure, and kidney function. We focus on tubular sodium reabsorption as one of the best understood and pathophysiologically and clinically most important roles of uromodulin, which can lead to therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2022

9. Olfactomedin 4 as a novel loop of Henle‐specific acute kidney injury biomarker.

Author

Hasson, Denise C., Krallman, Kelli, VanDenHeuvel, Katherine, Menon, Shina, Piraino, Giovanna, Devarajan, Prasad, Goldstein, Stuart L., and Alder, Matthew N.

Subjects

*ACUTE kidney failure, *RENAL biopsy, *CHILD patients, *BIOMARKERS, *UROMODULIN

Abstract

Acute kidney injury (AKI) is associated with morbidity and mortality. Urinary biomarkers may disentangle its clinical heterogeneity. Olfactomedin 4 (OLFM4) is a secreted glycoprotein expressed in stressed neutrophils and epithelial cells. In septic mice, OLFM4 expression localized to the kidney's loop of Henle (LOH) and was detectable in the urine. We hypothesized that urine OLFM4 (uOLFM4) will be increased in patients with AKI and sepsis. Urine from critically ill pediatric patients was obtained from a prospective study based on AKI and sepsis status. uOLFM4 was quantified with a Luminex immunoassay. AKI was defined by KDIGO severe criteria. Sepsis status was extracted from the medical record based on admission diagnosis. Immunofluorescence on pediatric kidney biopsies was performed with NKCC2, uromodulin and OLFM4 specific antibodies. Eight patients had no sepsis, no AKI; 7 had no sepsis but did have AKI; 10 had sepsis, no AKI; 11 had sepsis and AKI. Patients with AKI had increased uOLFM4 compared to no/stage 1 AKI (p = 0.044). Those with sepsis had increased uOLFM4 compared to no sepsis (p = 0.026). uOLFM4 and NGAL were correlated (r2 0.59, 95% CI 0.304–0.773, p = 0.002), but some patients had high uOLFM4 and low NGAL, and vice versa. Immunofluorescence on kidney biopsies demonstrated OLFM4 colocalization with NKCC2 and uromodulin, suggesting expression in the thick ascending LOH (TALH). We conclude that AKI and sepsis are associated with increased uOLFM4. uOLFM4 and NGAL correlated in many patients, but was poor in others, suggesting these markers may differentiate AKI subgroups. Given OLFM4 colocalization to human TALH, we propose OLFM4 may be a LOH‐specific AKI biomarker. [ABSTRACT FROM AUTHOR]

Published

2022

10. Uromodulin Regulates Murine Aquaporin−2 Activity via Thick Ascending Limb–Collecting Duct Cross−Talk during Water Deprivation.

Author

Takata, Tomoaki, Hamada, Shintaro, Mae, Yukari, Iyama, Takuji, Ogihara, Ryohei, Seno, Misako, Nakamura, Kazuomi, Takata, Miki, Sugihara, Takaaki, and Isomoto, Hajime

Subjects

*UROMODULIN, *AQUAPORINS, *TRANSGENIC mice, *DESMOPRESSIN, *EPITHELIAL cells

Abstract

Uromodulin, a urinary protein synthesized and secreted from the thick ascending limb (TAL) of the loop of Henle, is associated with hypertension through the activation of sodium reabsorption in the TAL. Uromodulin is a potential target for hypertension treatment via natriuresis. However, its biological function in epithelial cells of the distal nephron segment, particularly the collecting duct, remains unknown. Herein, we examined the regulation of uromodulin production during water deprivation in vivo as well as the effect of uromodulin on the activity of the water channel aquaporin−2 (AQP2) in vitro and in vivo using transgenic mice. Water deprivation upregulated uromodulin production; immunofluorescence experiments revealed uromodulin adhesion on the apical surface of the collecting duct. Furthermore, the activation of AQP2 was attenuated in mice lacking uromodulin. Uromodulin enhanced the phosphorylation and apical trafficking of AQP2 in mouse collecting duct cells treated with the vasopressin analog dDAVP. The uromodulin-induced apical trafficking of AQP2 was attenuated via endocytosis inhibitor treatment, suggesting that uromodulin activates AQP2 through the suppression of endocytosis. This study provides novel insights into the cross−talk between TAL and the collecting duct, and indicates that the modulation of uromodulin is a promising approach for diuresis and hypertension treatment. [ABSTRACT FROM AUTHOR]

Published

2022

11. Olfactomedin 4 as a novel loop of Henle‐specific acute kidney injury biomarker

Author

Denise C. Hasson, Kelli Krallman, Katherine VanDenHeuvel, Shina Menon, Giovanna Piraino, Prasad Devarajan, Stuart L. Goldstein, and Matthew N. Alder

Subjects

acute kidney injury, loop of Henle, olfactomedin 4, septic AKI, urine biomarker, Physiology, QP1-981

Abstract

Abstract Acute kidney injury (AKI) is associated with morbidity and mortality. Urinary biomarkers may disentangle its clinical heterogeneity. Olfactomedin 4 (OLFM4) is a secreted glycoprotein expressed in stressed neutrophils and epithelial cells. In septic mice, OLFM4 expression localized to the kidney's loop of Henle (LOH) and was detectable in the urine. We hypothesized that urine OLFM4 (uOLFM4) will be increased in patients with AKI and sepsis. Urine from critically ill pediatric patients was obtained from a prospective study based on AKI and sepsis status. uOLFM4 was quantified with a Luminex immunoassay. AKI was defined by KDIGO severe criteria. Sepsis status was extracted from the medical record based on admission diagnosis. Immunofluorescence on pediatric kidney biopsies was performed with NKCC2, uromodulin and OLFM4 specific antibodies. Eight patients had no sepsis, no AKI; 7 had no sepsis but did have AKI; 10 had sepsis, no AKI; 11 had sepsis and AKI. Patients with AKI had increased uOLFM4 compared to no/stage 1 AKI (p = 0.044). Those with sepsis had increased uOLFM4 compared to no sepsis (p = 0.026). uOLFM4 and NGAL were correlated (r2 0.59, 95% CI 0.304–0.773, p = 0.002), but some patients had high uOLFM4 and low NGAL, and vice versa. Immunofluorescence on kidney biopsies demonstrated OLFM4 colocalization with NKCC2 and uromodulin, suggesting expression in the thick ascending LOH (TALH). We conclude that AKI and sepsis are associated with increased uOLFM4. uOLFM4 and NGAL correlated in many patients, but was poor in others, suggesting these markers may differentiate AKI subgroups. Given OLFM4 colocalization to human TALH, we propose OLFM4 may be a LOH‐specific AKI biomarker.

Published

2022

12. Physiology

Author

Siraj, Qaisar Hussain, Rasulova, Nigora, and Siraj, Qaisar Hussain, editor

Published

2019

13. Metabolic Origins of Urine and Other Body Fluids

Author

Ridley, John W. and Ridley, John W.

Published

2018

14. Direction finding during mouse renal development

Author

Chang, C.-Hong, Davies, Jamie, and West, John

Subjects

612.4, embryonic kidney, cell migration, low-volume culture, loop of Henle

Abstract

The adult kidney consists of hundreds of thousands of fine epithelial tubules as functional units called nephrons. Nephrons have U-shaped tubules: loops of Henle that descend from the cortex to the medulla. This radial arrangement is critical to maintain water homeostasis in the kidney. Although Henle’s loops are crucial to renal physiology, the cue(s) they uses to navigate to the medulla are not understood. In this thesis, I investigate how the loop of Henle elongates during mouse renal development and show that it is probably guided to the medulla by diffusible, heparin-binding molecules. I used immumohistochemistry (IHC) on cryosections of embryonic kidneys to study the natural anatomy of the Henle’s loop. I used a low-volume culture system to allow embryonic kidneys (both natural and tissue-engineered) to form loops of Henle ex vivo and manipulated their direction of growth. Time-lapse imaging of Lgr-5 EGFP embryonic kidneys demonstrated the movement of the apex of the loop which suggested the idea of guidance cue(s) acting on the loop of Henle. Cut-and-paste experiments showed that loops appeared to be attracted to maturing collecting duct. Co-culture with an exogenous tubule inducer suggested the embryonic spinal cord as another source to attract the loops. Using raTAL (rat thick ascending loop of Henle) and 6TA2 (embryonic collecting duct cells) cell lines, I designed and performed a cell migration assay to test whether raTAL was attracted to 6TA2 cells. raTAL cells were notably attracted to 6TA2 cells compared to other cell lines. raTAL cells were also attracted to 6TA2-conditioned medium, which indicated that raTAL cells were attracted by secreted molecule(s). To begin to characterise those secreted molecule(s), heparin-binding protein-coated beads were used in the cell migration system and showed that at least one critical guidance factor is heparin-binding. From this study, I found that the apex of the Henle’s loop does move and loops are attracted by secreted molecule(s) possibly from the collecting duct. Although target molecule(s) were unidentified, this study provides the first mechanistic information about the guidance of the loop of Henle. Moreover, this was the first study of guidance of epithelial tubule shafts (rather than tips) adding to our understanding of general tubule morphogenesis.

Published

2014

15. Function of the nephron and the formation of urine.

Author

Theodorou, Chloe, Leatherby, Robert, and Dhanda, Raman

Abstract

The nephron is the functional unit of the kidney involved in the critical interplay of fluid and electrolyte homeostasis by glomerular filtration, selective tubular reabsorption and secretion. This article will discuss the structure and function of each segment of the nephron, and the physiology pertaining to the formation of urine. [ABSTRACT FROM AUTHOR]

Published

2021

16. Hypercalcemia-induced hypokalemic metabolic alkalosis with hypophosphatemia in a multiple myeloma patient: lessons for the clinical nephrologist

Author

Ghumman, Ghulam Mujtaba, Haider, Marjan, Raffay, Eusha Abdul, Cheema, Hassan Afzal, and Yousaf, Amman

Published

2023

17. The Urinary System

Author

Rehfeld, Anders, Nylander, Malin, Karnov, Kirstine, Rehfeld, Anders, Nylander, Malin, and Karnov, Kirstine

Published

2017

18. Molecular characteristics and physiological roles of Na+–K+–Cl− cotransporter 2.

Author

Marcoux, Andree‐Anne, Tremblay, Laurence E., Slimani, Samira, Fiola, Marie‐Jeanne, Mac‐Way, Fabrice, Garneau, Alexandre P., and Isenring, Paul

Subjects

*ION transport (Biology), *MEMBRANE proteins, *KIDNEY tubules, *HYPERTENSION

Abstract

Na+–K+–Cl− cotransporter 2 (NKCC2; SLC12A1) is an integral membrane protein that comes as three splice variants and mediates the cotranslocation of Na+, K+, and Cl− ions through the apical membrane of the thick ascending loop of Henle (TALH). In doing so, and through the involvement of other ion transport systems, it allows this nephron segment to reclaim a large fraction of the ultrafiltered Na+, Cl−, Ca2+, Mg2+, and HCO3− loads. The functional relevance of NKCC2 in human is illustrated by the many abnormalities that result from the inactivation of this transport system through the use of loop diuretics or in the setting of inherited disorders. The following presentation aims at discussing the physiological roles and molecular characteristics of Na+–K+–Cl− cotransport in the TALH and those of the individual NKCC2 splice variants more specifically. Many of the historical and recent data that have emerged from the experiments conducted will be outlined and their larger meaning will also be placed into perspective with the aid of various hypotheses. [ABSTRACT FROM AUTHOR]

Published

2021

19. Tubuloid differentiation to model the human distal nephron and collecting duct in health and disease.

Author

Yousef Yengej, Fjodor A., Pou Casellas, Carla, Ammerlaan, Carola M.E., Olde Hanhof, Charlotte J.A., Dilmen, Emre, Beumer, Joep, Begthel, Harry, Meeder, Elise M.G., Hoenderop, Joost G., Rookmaaker, Maarten B., Verhaar, Marianne C., and Clevers, Hans

Abstract

Organoid technology is rapidly gaining ground for studies on organ (patho)physiology. Tubuloids are long-term expanding organoids grown from adult kidney tissue or urine. The progenitor state of expanding tubuloids comes at the expense of differentiation. Here, we differentiate tubuloids to model the distal nephron and collecting ducts, essential functional parts of the kidney. Differentiation suppresses progenitor traits and upregulates genes required for function. A single-cell atlas reveals that differentiation predominantly generates thick ascending limb and principal cells. Differentiated human tubuloids express luminal NKCC2 and ENaC capable of diuretic-inhibitable electrolyte uptake and enable disease modeling as demonstrated by a lithium-induced tubulopathy model. Lithium causes hallmark AQP2 loss, induces proliferation, and upregulates inflammatory mediators, as seen in vivo. Lithium also suppresses electrolyte transport in multiple segments. In conclusion, this tubuloid model enables modeling of the human distal nephron and collecting duct in health and disease and provides opportunities to develop improved therapies. [Display omitted] • Human tubuloid differentiation introduces distal nephron and collecting duct cells • Differentiated tubuloids demonstrate electrolyte reabsorption, a key renal function • A single-cell atlas shows differentiated tubuloid cells resemble in vivo equivalents • Differentiated tubuloids enable modeling of human lithium tubulopathy in vitro Tubuloid differentiation introduces distal nephron and collecting duct cell types that resemble their counterparts in human in vivo kidney tissue. Differentiated tubuloids demonstrate electrolyte reabsorption, a key renal function, and enable modeling of diseases of the human distal nephron and collecting duct in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

20. Molecular mechanisms underlying paracellular calcium and magnesium reabsorption in the proximal tubule and thick ascending limb

Author

R. Todd Alexander and Henrik Dimke

Subjects

Calcium, Dietary, History and Philosophy of Science, Cations, Divalent, General Neuroscience, Claudins, Loop of Henle, Humans, Magnesium, Calcium, General Biochemistry, Genetics and Molecular Biology

Abstract

Calcium and magnesium are the most abundant divalent cations in the body. The plasma level is controlled by coordinated interaction between intestinal absorption, reabsorption in the kidney, and, for calcium at least, bone storage and exchange. The kidney adjusts urinary excretion of these ions in response to alterations in their systemic concentration. Free ionized and anion-complexed calcium and magnesium are filtered at the glomerulus. The majority (i.e.,85%) of filtered divalent cations are reabsorbed via paracellular pathways from the proximal tubule and thick ascending limb (TAL) of the loop of Henle. Interestingly, the largest fraction of filtered calcium is reabsorbed from the proximal tubule (65%), while the largest fraction of filtered magnesium is reclaimed from the TAL (60%). The paracellular pathways mediating these fluxes are composed of tight junctional pores formed by claudins. In the proximal tubule, claudin-2 and claudin-12 confer calcium permeability, while the exact identity of the magnesium pore remains to be determined. Claudin-16 and claudin-19 contribute to the calcium and magnesium permeable pathway in the TAL. In this review, we discuss the data supporting these conclusions and speculate as to why there is greater fractional calcium reabsorption from the proximal tubule and greater fractional magnesium reabsorption from the TAL.

Published

2022

21. Segment-specific expression of 2P domain potassium channel genes in human nephron

Author

Levy, Daniel I, Velazquez, Heino, Goldstein, Steve AN, and Bockenhauer, Detlef

Subjects

Medical Physiology, Biomedical and Clinical Sciences, Genetics, Kidney Disease, Aged, Child, Female, Gene Library, Humans, Kidney Glomerulus, Kidney Tubules, Distal, Kidney Tubules, Proximal, Loop of Henle, Male, Middle Aged, Nephrons, Polymerase Chain Reaction, Potassium Channels, Tandem Pore Domain, Protein Structure, Tertiary, kidney, potassium channels, K2P channels, real-time PCR, Clinical Sciences, Urology & Nephrology, Clinical sciences

Abstract

BackgroundThe 2P domain potassium (K2P) channels are a recently discovered ion channel superfamily. Structurally, K2P channels are distinguished by the presence of two pore forming loops within one channel subunit. Functionally, they are characterized by their ability to pass potassium across the physiologic voltage range. Thus, K2P channels are also called open rectifier, background, or leak potassium channels. Patch clamp studies of renal tubules have described several open rectifier potassium channels that have as yet eluded molecular identification. We sought to determine the segment-specific expression of transcripts for the 14 known K2P channel genes in human nephron to identify potential correlates of native leak channels.MethodsHuman kidney samples were obtained from surgical cases and specific nephron segments were dissected. RNA was extracted and used as template for the generation of cDNA libraries. Real-time polymerase chain reaction (PCR) (TaqMan) was used to analyze gene expression.ResultsWe found significant (P < 0.05) expression of K2P10 in glomerulus, K2P5 in proximal tubule and K2P1 in cortical thick ascending limb of Henle's loop (cTAL) and in distal nephron segments. In addition, we repeatedly detected message for several other K2P channels with less abundance, including K2P3 and K2P6 in glomerulus, K2P10 in proximal tubule, K2P5 in thick ascending limb of Henle's loop, and K2P3, K2P5, and K2P13 in distal nephron segments.ConclusionK2P channels are expressed in specific segments of human kidney. These results provide a step toward assigning K2P channels to previously described native renal leaks.

Published

2004

22. Renal diseases that course with hypomagnesemia. Comments on a new hereditary hypomagnesemic tubulopathy.

Author

Garcia-Nieto VM, Claverie-Martin F, Moraleda-Mesa T, Perdomo-Ramírez A, Fraga-Rodríguez GM, Luis-Yanes MI, and Ramos-Trujillo E

Subjects

Humans, Magnesium, Kidney Tubules, Protein Serine-Threonine Kinases, Hypocalcemia, Nephrocalcinosis genetics, TRPM Cation Channels genetics, Magnesium Deficiency congenital

Abstract

Renal diseases associated with hypomagnesemia are a complex and diverse group of tubulopathies caused by mutations in genes encoding proteins that are expressed in the thick ascending limb of the loop of Henle and in the distal convoluted tubule. In this paper, we review the initial description, the clinical expressiveness and etiology of four of the first hypomagnesemic tubulopathies described: type 3 Bartter and Gitelman diseases, Autosomal recessive hypomagnesemia with secondary hypocalcemia and Familial hypomagnesemia with hypercalciuria and nephrocalcinosis. The basic biochemical patterns observed in renal tubular hypomagnesemias and the modalities of transport and interaction that occur between the transporters involved in the reabsorption of magnesium in the distal convoluted tubule are described below. Finally, the recent report of a new renal disease with hypomagnesemia, type 2 hypomagnesemia with secondary hypocalcemia caused by reduced TRPM7 channel activity is described., (Copyright © 2024. Published by Elsevier España, S.L.U.)

Published

2024

23. Diuretics

Author

Berry, Donald, Da Cruz, Eduardo M., editor, Ivy, Dunbar, editor, and Jaggers, James, editor

Published

2014

24. Claudin-19 mediates the effects of NO on the paracellular pathway in thick ascending limbs.

Author

Monzon, Casandra M. and Garvin, Jeffrey L.

Abstract

Claudins are a family of tight junction proteins that provide size and charge selectivity to solutes traversing the paracellular space. Thick ascending limbs (TALs) express numerous claudins, including claudin-19. Nitric oxide (NO), via cGMP, reduces dilution potentials in perfused TALs, a measure of paracellular permeability, but the role of claudin-19 is unknown. We hypothesized that claudin-19 mediates the effects of NO/cGMP on the paracellular pathway in TALs via increases in plasma membrane expression of this protein. We measured the effect of the NO donor spermine NONOate (SPM) on dilution potentials with and without blocking antibodies and plasma membrane expression of claudin-19. During the control period, the dilution potential was −18.2 ± 1.8 mV. After treatment with 200 μmol/l SPM, it was −14.7 ± 2.0 mV (P < 0.04). In the presence of claudin-19 antibody, the dilution potential was −12.7 ± 2.1 mV. After SPM, it was −12.9 ± 2.4 mV, not significantly different. Claudin-19 antibody alone had no effect on dilution potentials. In the presence of Tamm-Horsfall protein antibody, SPM reduced the dilution potential from −9.7 ± 1.0 to −6.3 ± 1.1 mV (P < 0.006). Dibutyryl-cGMP (500 µmol/l) reduced the dilution potential from −19.6 ± 2.6 to −17.2 ± 2.3 mV (P < 0.002). Dibutyryl-cGMP increased expression of claudin-19 in the plasma membrane from 29.9 ± 3.8% to 65.9 ± 10.1% of total (P < 0.011) but did not change total expression. We conclude that claudin-19 mediates the effects of the NO/cGMP signaling cascade on the paracellular pathway. [ABSTRACT FROM AUTHOR]

Published

2019

25. Evidence for a regulated Ca2+ entry in proximal tubular cells and its implication in calcium stone formation.

Author

Ibeh, Cliff-Lawrence, Yiu, Allen J., Kanaras, Yianni L., Paal, Edina, Birnbaumer, Lutz, Jose, Pedro A., and Bandyopadhyay, Bidhan C.

Subjects

*URINARY calculi, *TRANSCYTOSIS, *CALCIUM, *BUILDING stones, *CALCIUM phosphate, *CELL membranes

Abstract

Calcium phosphate (CaP) crystals, which begin to form in the early segments of the loop of Henle (LOH), are known to act as precursors for calcium stone formation. The proximal tubule (PT), which is just upstream of the LOH and is a major site for Ca2+ reabsorption, could be a regulator of such CaP crystal formation. However, PT Ca2+ reabsorption is mostly described as being paracellular. Here, we show the existence of a regulated transcellular Ca2+ entry pathway in luminal membrane PT cells induced by Ca2+-sensing receptor (CSR, also known as CASR)-mediated activation of transient receptor potential canonical 3 (TRPC3) channels. In support of this idea, we found that both CSR and TRPC3 are physically and functionally coupled at the luminal membrane of PT cells. More importantly, TRPC3-deficient mice presented with a deficiency in PT Ca2+ entry/transport, elevated urinary [Ca2+], microcalcifications in LOH and urine microcrystals formations. Taken together, these data suggest that a signaling complex comprising CSR and TRPC3 exists in the PT and can mediate transcellular Ca2+ transport, which could be critical in maintaining the PT luminal [Ca2+] to mitigate formation of the CaP crystals in LOH and subsequent formation of calcium stones. [ABSTRACT FROM AUTHOR]

Published

2019

26. Nephrolithiasis secondary to inherited defects in the thick ascending loop of henle and connecting tubules.

Author

Faller, Nicolas, Dhayat, Nasser A., and Fuster, Daniel G.

Subjects

*GENETIC disorders, *KIDNEY stones, *RENAL tubular transport, *LOOP of Henle, *KIDNEY tubules, *KIDNEY abnormalities

Abstract

Twin and genealogy studies suggest a strong genetic component of nephrolithiasis. Likewise, urinary traits associated with renal stone formation were found to be highly heritable, even after adjustment for demographic, anthropometric and dietary covariates. Recent high-throughput sequencing projects of phenotypically well-defined cohorts of stone formers and large genome-wide association studies led to the discovery of many new genes associated with kidney stones. The spectrum ranges from infrequent but highly penetrant variants (mutations) causing mendelian forms of nephrolithiasis (monogenic traits) to common but phenotypically mild variants associated with nephrolithiasis (polygenic traits). About two-thirds of the genes currently known to be associated with nephrolithiasis code for membrane proteins or enzymes involved in renal tubular transport. The thick ascending limb of Henle and connecting tubules are of paramount importance for renal water and electrolyte handling, urinary concentration and maintenance of acid-base homeostasis. In most instances, pathogenic variants in genes involved in thick ascending limb of Henle and connecting tubule function result in phenotypically severe disease, frequently accompanied by nephrocalcinosis with progressive CKD and to a variable degree by nephrolithiasis. The aim of this article is to review the current knowledge on kidney stone disease associated with inherited defects in the thick ascending loop of Henle and the connecting tubules. We also highlight recent advances in the field of kidney stone genetics that have implications beyond rare disease, offering new insights into the most common type of kidney stone disease, i.e., idiopathic calcium stone disease. [ABSTRACT FROM AUTHOR]

Published

2019

27. Hypercalciuria switches Ca2+ signaling in proximal tubular cells, induces oxidative damage to promote calcium nephrolithiasis

Author

Cliff-Lawrence Ibeh, Samuel Shin, Eugenia Awuah Boadi, Bok-Eum Choi, Bidhan C. Bandyopadhyay, and Sanjit K. Roy

Subjects

0301 basic medicine, Medicine (General), Hypercalciuria, 030232 urology & nephrology, chemistry.chemical_element, Apoptosis, Calcium, QH426-470, medicine.disease_cause, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, TRPC3, R5-920, Chronic kidney disease, Loop of Henle, medicine, Genetics, Transcellular, Calcium nephrolithiasis, Molecular Biology, Cell damage, Genetics (clinical), Chemistry, Ca2+signaling, Cell Biology, medicine.disease, Molecular biology, Fibrosis, 030104 developmental biology, medicine.anatomical_structure, Paracellular transport, Oxidative stress

Abstract

Proximal tubule (PT) transports most of the renal Ca2+, which was usually described as paracellular (passive). We found a regulated Ca2+ entry pathway in PT cells via the apical transient receptor potential canonical 3 (TRPC3) channel, which initiates transcellular Ca2+ transport. Although TRPC3 knockout (−/−) mice were mildly hypercalciuric and displayed luminal calcium phosphate (CaP) crystals at Loop of Henle (LOH), no CaP + calcium oxalate (CaOx) mixed urine crystals were spotted, which are mostly found in calcium nephrolithiasis (CaNL). Thus, we used oral calcium gluconate (CaG; 2%) to raise the PT luminal [Ca2+]o further in TRPC3−/− mice for developing such mixed stones to understand the mechanistic role of PT-Ca2+ signaling in CaNL. Expectedly, CaG-treated mice urine samples presented with numerous mixed crystals with remains of PT cells, which were pronounced in TRPC3−/− mice, indicating PT cell damage. Notably, PT cells from CaG-treated groups switched their mode of Ca2+ entry from receptor-operated to store-operated pathway with a sustained rise in intracellular [Ca2+] ([Ca2+]i), indicating the stagnation in PT Ca2+ transport. Moreover, those PT cells from CaG-treated groups demonstrated an upregulation of calcification, inflammation, fibrotic, oxidative stress, and apoptotic genes; effects of which were more robust in TRPC3 ablated condition. Furthermore, kidneys from CaG-treated groups exhibited fibrosis, tubular injury and calcifications with significant reactive oxygen species generation in the urine, thus, indicating in vivo CaNL. Taken together, excess PT luminal Ca2+ due to escalation of hypercalciuria in TRPC3 ablated mice induced surplus CaP crystal formation and caused stagnation of PT [Ca2+]i, invoking PT cell injury, hence mixed stone formation.

Published

2022

28. Hereditary kidney diseases associated with hypomagnesemia

Author

Claverie-Martin, Felix, Perdomo-Ramirez, Ana, and Garcia-Nieto, Victor

Subjects

medicine.medical_specialty, Kidney, business.industry, Reabsorption, Review Article, General Medicine, medicine.disease, Hypomagnesemia, Endocrinology, medicine.anatomical_structure, Magnesium handling, Paracellular transport, Internal medicine, Mutation, Renal tubulopathies, medicine, Loop of Henle, Distal convoluted tubule, Transcellular, business, Rare disease, Kidney disease

Abstract

In the kidney, a set of proteins expressed in the epithelial cells of the thick ascending loop of Henle and the distal convoluted tubule directly or indirectly play important roles in the regulation of serum magnesium levels. Magnesium reabsorption in the thick ascending loop of Henle occurs through a passive paracellular pathway, while in the distal convoluted tubule, the final magnesium concentration is established through an active transcellular pathway. The players involved in magnesium reabsorption include proteins with diverse functions including tight junction proteins, cation and anion channels, sodium chloride cotransporter, calcium-sensing receptor, epidermal growth factor, cyclin M2, sodium potassium adenosine triphosphatase subunits, transcription factors, a serine protease, and proteins involved in mitochondrial function. Mutations in the genes that encode these proteins impair their function and cause different rare diseases associated with hypomagnesemia, which may lead to muscle cramps, fatigue, epileptic seizures, intellectual disability, cardiac arrhythmias, and chronic kidney disease. The purpose of this review is to describe the clinical and genetic characteristics of these hereditary kidney diseases and the current research findings on the pathophysiological basis of these diseases.

Published

2021

29. Anatomophysiology of the Henle's Loop: Emphasis on the Thick Ascending Limb

Author

Andrée-Anne, Marcoux, Laurence E, Tremblay, Samira, Slimani, Marie-Jeanne, Fiola, Fabrice, Mac-Way, Ludwig, Haydock, Alexandre P, Garneau, and Paul, Isenring

Subjects

Kidney Tubules, Loop of Henle, Humans, Nephrons, Sodium Chloride, Kidney

Abstract

The loop of Henle plays a variety of important physiological roles through the concerted actions of ion transport systems in both its apical and basolateral membranes. It is involved most notably in extracellular fluid volume and blood pressure regulation as well as Ca

Published

2021

30. Heterogeneity of cell composition and origin identified by single-cell transcriptomics in renal cysts of patients with autosomal dominant polycystic kidney disease

Author

Wenli Zeng, Rumin Liu, Zhuolin Li, Jian Xu, Renfei Xia, Ziyan Yan, Fu Xiong, Fei Li, Qiong Li, Yun Miao, Jian Geng, Binshen Chen, Wen-feng Deng, Yuchen Wang, Chin-Lee Wu, and Yanna Liu

Subjects

Cell type, Pathology, medicine.medical_specialty, China, Autosomal dominant polycystic kidney disease, Medicine (miscellaneous), Nephron, Biology, Stem cell marker, Kidney, Genetic Heterogeneity, medicine, Loop of Henle, Humans, Cyst, Epithelial–mesenchymal transition, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), ADPKD, Polycystic Kidney Diseases, Cysts, Epithelial Cells, Middle Aged, medicine.disease, Polycystic Kidney, Autosomal Dominant, Kidney Neoplasms, medicine.anatomical_structure, Female, Heterogeneity, Single-Cell Analysis, Transcriptome, Single-cell transcriptomics, Research Paper

Abstract

Rationale: Renal cysts in patients with autosomal dominant polycystic kidney disease (ADPKD) can originate from any nephron segments, including proximal tubules (PT), the loop of Henle (LOH), distal tubules (DT), and collecting ducts (CD). Previous studies mostly used limited cell markers and failed to identify cells negative for these markers. Therefore, the cell composition and origin of ADPKD cyst are still unclear, and mechanisms of cystogenesis of different origins await further exploration. Methods: We performed single-cell RNA sequencing for the normal kidney tissue and seven cysts derived from superficial or deep layers of the polycystic kidney from an ADPKD patient. Results: Twelve cell types were identified and analyzed. We found that a renal cyst could be derived either from CD or both PT and LOH. Gene set variation analysis (GSVA) showed that epithelial mesenchymal transition (EMT), TNFA signaling via the NFKB pathways, and xenobiotic metabolism were significantly activated in PT-derived cyst epithelial cells while robust expression of genes involved in G2M Checkpoint, mTORC1 signaling, E2F Targets, MYC Targets V1, MYC Targets V2 were observed in CD-derived cells. Conclusion: Our results revealed that a single cyst could originate from CD or both PT and LOH, suggesting heterogeneity of polycystic composition and origin. Furthermore, cyst epithelial cells with different origins have different gene set activation.

Published

2021

31. Natural Ventilation with Heat Recovery: A Biomimetic Concept

Author

Zulfikar A. Adamu and Andrew D.F. Price

Subjects

passive heat recovery, facade-integrated system, natural ventilation, dynamic modelling, thermal comfort, Loop of Henle, retrofitted system, Building construction, TH1-9745

Abstract

In temperate countries, heat recovery is often desirable through mechanical ventilation with heat recovery (MVHR). Drawbacks of MVHR include use of electric power and complex ducting, while alternative passive heat recovery systems in the form of roof or chimney-based solutions are limited to low rise buildings. This paper describes a biomimetic concept for natural ventilation with heat recovery (NVHR). The NVHR system mimics the process of water/mineral extraction from urine in the Loop of Henle (part of human kidney). Simulations on a facade-integrated Chamber successfully imitated the geometry and behaviour of the Loop of Henle (LoH). Using a space measuring 12 m2 in area and assuming two heat densities of 18.75 W/m2 (single occupancy) or 30 W/m2 (double occupancy), the maximum indoor temperatures achievable are up to 19.3 °C and 22.3 °C respectively. These come with mean relative ventilation rates of 0.92 air changes per hour (ACH) or 10.7 L·s−1 and 0.92 ACH (11.55 L·s−1), respectively, for the month of January. With active heating and single occupant, the LoH Chamber consumes between 65.7% and 72.1% of the annual heating energy required by a similar naturally ventilated space without heat recovery. The LoH Chamber could operate as stand-alone indoor cabinet, benefitting refurbishment of buildings and evading constraints of complicated ducting, external aesthetic or building age.

Published

2015

32. [Mechanisms of action and clinical application of diuretics in intensive care medicine].

Author

Lindner ML, Lohmeyer JL, Adam EH, Zacharowski K, and Weber CF

Abstract

The paired kidneys play a significant role in the human body due to the multitude of physiological tasks. Complex biochemical processes keep the sensitive electrolyte and water balance stable and thus ensure the organism's ability to adapt to exogenous and endogenous factors, which is essential for survival. The drug class of diuretics includes substances with very differing pharmacological characteristics. The functioning of the nephron is therefore indispensable for a deeper understanding of the pharmacodynamics, pharmacokinetics and side effect profile of diuretics. In the treatment of acute heart failure with pulmonary congestion, certain diuretics represent an important therapeutic option to counteract hypervolemia and thus an increase in preload. According to current data, diuretics have no proven benefits in the treatment or prevention of acute kidney injury but they can counteract hypervolemia and under certain conditions even reduce the use of renal replacement procedures., (© 2023. The Author(s), under exclusive licence to Springer Medizin Verlag GmbH, ein Teil von Springer Nature.)

Published

2023

33. Unrecognized role of claudin-10b in basolateral membrane infoldings of the thick ascending limb

Author

Catarina Quintanova, Nina Himmerkus, Samuel L. Svendsen, Otto von Schwerdtner, Cosima Merkel, Lennart Pinckert, Kerim Mutig, Tilman Breiderhoff, Dominik Müller, Dorothee Günzel, and Markus Bleich

Subjects

Mice, Knockout, claudin-10, General Neuroscience, Sodium, General Biochemistry, Genetics and Molecular Biology, Tight Junctions, Mice, Inbred C57BL, ion transport, Mice, TAL, History and Philosophy of Science, Claudins, Loop of Henle, Animals, epithelium

Abstract

Claudin-10b is an important component of the tight junction in the thick ascending limb (TAL) of Henle's loop and allows paracellular sodium transport. In immunofluorescence stainings, claudin-10b–positive cells exhibited extensive extra staining of basolateral, column-like structures. The precise localization and function have so far remained elusive. In isolated cortical TAL segments from C57BL/6J mice, kidney-specific claudin-10 knockout mice (cKO), and respective litter mates (WT), we investigated the localization and protein expression and function by fluorescence microscopy and electrophysiological measurements. Ultrastructural analysis of TAL in kidney sections was performed by electron microscopy. Claudin-10b colocalized with the basolateral Na+-K+ ATPase and the Cl– channel subunit barttin, but the lack of claudin-10b did not influence the localization or abundance of these proteins. However, the accessibility of the basolateral infolded extracellular space to ouabain or fluorescein was increased by basolateral Ca2+ removal and in the absence of claudin-10b. Ultrastructural analysis by electron microscopy revealed a widening of basolateral membrane infoldings in cKO in comparison to WT. We hypothesize that claudin-10b shapes neighboring membrane invaginations by trans interaction to stabilize and facilitate high-flux salt transport in a water-tight epithelium.

Published

2022

34. Renal Acid–Base Regulation Via Ammonia Transport in Mammals

Author

Weiner, I. David and Gerencser, George A., editor

Published

2010

35. Salt stress in the renal tubules is linked to TAL-specific expression of uromodulin and an upregulation of heat shock genes.

Author

Graham, Lesley A., Aman, Alisha, Campbell, Desmond D., Augley, Julian, Graham, Delyth, McBride, Martin W., Fraser, Niall J., Ferreri, Nicholas R., Dominiczak, Anna F., and Padmanabhan, Sandosh

Abstract

Previously, our comprehensive cardiovascular characterization study validated Uromodulin as a blood pressure gene. Uromodulin is a glycoprotein exclusively synthesized at the thick ascending limb of the loop of Henle and is encoded by the Umod gene. Umod−/− mice have significantly lower blood pressure than Umod+/+ mice, are resistant to salt-induced changes in blood pressure, and show a leftward shift in pressure-natriuresis curves reflecting changes of sodium reabsorption. Salt stress triggers transcription factors and genes that alter renal sodium reabsorption. To date there are no studies on renal transcriptome responses to salt stress. Here we aimed use RNA-Seq to delineate salt stress pathways in tubules isolated from Umod+/+ mice (a model of sodium retention) and Umod−/− mice (a model of sodium depletion) ± 300 mosmol sodium chloride (n = 3 per group). In response to salt stress, the tubules of Umod+/+ mice displayed an upregulation of heat shock transcripts. The greatest changes occurred in the expression of: Hspa1a (Log2 fold change 4.35, P = 2.48 e−12) and Hspa1b (Log2 fold change 4.05, P = 2.48 e−12). This response was absent in tubules of Umod−/− mice. Interestingly, seven of the genes discordantly expressed in the Umod−/− tubules were electrolyte transporters. Our results are the first to show that salt stress in renal tubules alters the transcriptome, increasing the expression of heat shock genes. This direction of effect in Umod+/+ tubules suggest the difference is due to the presence of Umod facilitating greater sodium entry into the tubule cell reflecting a specific response to salt stress. [ABSTRACT FROM AUTHOR]

Published

2018

36. Pharmacokinetic and pharmacodynamic properties of orally administered torsemide in healthy horses.

Author

Agne, Gustavo F., Jung, Seung Woo, Wooldridge, Anne A., Duran, Susan H., Ravis, William, and Toribio, Ramiro

Subjects

*PHARMACOKINETICS, *PHARMACODYNAMICS, *HORSE health, *HEART failure, *VETERINARY medicine

Abstract

Background: Diuretic treatment is the mainstay for management of congestive heart failure in horses, and its use has been restricted to injectable medications because no currently data supports the use of PO administered loop diuretics. Objectives: To determine the pharmacokinetic and pharmacodynamic properties of PO administered torsemide and, determine if PO administered torsemide, could be used as an alternative to injectable diuretics in the horse. Animals: Six healthy adult mares. Methods: A 2‐phase, prospective study, that consisted of pharmacokinetic profiling of a single dose (6 mg/kg PO) and pharmacodynamic effects of long‐term torsemide administration (2 mg/kg PO q12h) for 6 days in healthy horses. Results: Pharmacokinetic analysis identified a peak concentration (Cmax) of 10.14 µg/mL (range, 6.79–14.69 µg/mL) and elimination half‐life (T1/2) 9.2 hours (range, 8.4–10.4 hours). The area under the plasma drug concentration over time curve (AUC) was 80.7 µg × h/mL (range, 56.5–117.2 µg × h/mL). A statistically significant increase in urine volume and decrease in urine specific gravity were found from day 0 (baseline) to day 6 (P < .0001). Significant alterations in biochemical variables included hyponatremia, hypokalemia, hypochloremia, and increased serum creatinine concentration. Mean arterial blood pressure significantly decreased on day 6 (57.7 ± 8.8 mm Hg, P = .001) as compared with baseline (78 ± 6.1 mm Hg). Serum aldosterone concentrations significantly increased after 6 days of torsemide administration (P = .0006). Conclusions and Clinical Importance: PO administered torsemide (4 mg/kg/day) successfully reached therapeutic concentrations in blood, induced clinically relevant diuresis, and resulted in moderate pre‐renal azotemia and electrolyte disturbances. [ABSTRACT FROM AUTHOR]

Published

2018

37. Immunohistochemical localization of osteoblast activating peptide in the mouse kidney.

Author

Noreldin, Ahmed E., Elewa, Yaser Hosny Ali, Kon, Yasuhiro, Warita, Katsuhiko, and Hosaka, Yoshinao Z.

Subjects

*BONE growth, *OSTEOGENESIS imperfecta, *IMMUNOHISTOCHEMISTRY, *IMMUNOELECTRON microscopy, *MITOCHONDRIA

Abstract

Osteoblast activating peptide (OBAP) is a newly discovered peptide detected in the rat stomach, which has a major role in osteogenesis. Recently, we revealed its localization in the parietal cells of the rat stomach. There have been no data regarding OBAP expression in the kidney, despite its role in calcium reabsorption in renal tubules. The current study aimed to inspect the expression of OBAP in the kidney of twelve 10-week-old male C3H/HeNJc1 mice using immunohistochemistry, and immunoelectron microscopic localization. The immunohistochemical investigation revealed an OBAP positive reaction mainly in the medulla, which was stronger than the cortex of the kidney and was concentrated in the distal convoluted tubules (DCT), connecting tubules (CT), and the thick limbs of the loop of Henle (HL). Moreover, we clarified that the OBAP was co-distributed with ghrelin and calbindin (markers of the DCT). Interestingly, immunoelectron microscopy demonstrated that OBAP was concentrated in the mitochondrial inner membrane of the DCT and CT. Based on these results, it was concluded that the mitochondria of the DCT, CT, and HL of the mice kidney generate OBAP. Furthermore, our results suggest that OBAP might have a role in the regulation of calcium reabsorption by the renal tubule; however, further investigations are required to clarify this potential role. [ABSTRACT FROM AUTHOR]

Published

2018

38. Function of the nephron and the formation of urine.

Author

Lawrence, Eloise A., Doherty, Daniel, and Dhanda, Raman

Abstract

The nephron is the functional unit of the kidney involved in the critical interplay of fluid and electrolyte homeostasis by glomerular filtration, selective tubular reabsorption and secretion. This article will discuss the structure and function of each segment of the nephron, and the physiology pertaining to the formation of urine. [ABSTRACT FROM AUTHOR]

Published

2018

39. Body mass-specific Na+-K+-ATPase activity in the medullary thick ascending limb: implications for species-dependent urine concentrating mechanisms.

Published

2018

40. Comparison of acute kidney injury of different etiology reveals in-common mechanisms of tissue damage.

Author

Hultström, Michael, Becirovic-Agic, Mediha, and Jönsson, Sofia

Subjects

*KIDNEY injuries, *NEPHRONS, *LOOP of Henle, *GENE expression

Abstract

Acute kidney injury (AKI) is a syndrome of reduced glomerular filtration rate and urine production caused by a number of different diseases. It is associated with renal tissue damage. This tissue damage can cause tubular atrophy and interstitial fibrosis that leads to nephron loss and progression of chronic kidney disease (CKD). This review describes the incommon mechanisms behind tissue damage in AKI caused by different underlying diseases. Comparing six high-quality microarray studies of renal gene expression after AKI in disease models (gram-negative sepsis, gram-positive sepsis, ischemiareperfusion, malignant hypertension, rhabdomyolysis, and cisplatin toxicity) identified 5,254 differentially expressed genes in at least one of the AKI models; 66% of genes were found only in one model, showing that there are unique features to AKI depending on the underlying disease. There were in-common features in the form of four genes that were differentially expressed in all six models, 49 in at least five, and 215 were found in common between at least four models. Gene ontology enrichment analysis could be broadly categorized into the injurious processes hypoxia, oxidative stress, and inflammation, as well as the cellular outcomes of cell death and tissue remodeling in the form of epithelial-to-mesenchymal transition. Pathway analysis showed that MYC is a central connection in the network of activated genes in-common to AKI, which suggests that it may be a central regulator of renal gene expression in tissue injury during AKI. The outlining of this molecular network may be useful for understanding progression from AKI to CKD. [ABSTRACT FROM AUTHOR]

Published

2018

41. The importance of the thick ascending limb of Henle's loop in renal physiology and pathophysiology.

Author

Zacchia, Miriam, Capolongo, Giovanna, Rinaldi, Luca, and Capasso, Giovambattista

Subjects

KIDNEY physiology, PATHOLOGICAL physiology, LOOP of Henle, CALCIUM ions, MAGNESIUM ions

Abstract

The thick ascending limb (TAL) of Henle's loop is a crucial segment for many tasks of the nephron. Indeed, the TAL is not only a mainstay for reabsorption of sodium (Na+), potassium (K+), and divalent cations such as calcium (Ca2+) and magnesium (Mg2+) from the luminal fluid, but also has an important role in urine concentration, overall acid-base homeostasis, and ammonia cycle. Transcellular Na+ transport along the TAL is a prerequisite for Na+, K+, Ca2+, Mg2+ homeostasis, and water reabsorption, the latter through its contribution in the generation of the cortico-medullar osmotic gradient. The role of this nephron site in acid-base balance, via bicarbonate reabsorption and acid secretion, is sometimes misunderstood by clinicians. This review describes in detail these functions, reporting in addition to the well-known molecular mechanisms, some novel findings from the current literature; moreover, the pathophysiology and the clinical relevance of primary or acquired conditions caused by TAL dysfunction are discussed. Knowing the physiology of the TAL is fundamental for clinicians, for a better understanding and management of rare and common conditions, such as tubulopathies, hypertension, and loop diuretics abuse. [ABSTRACT FROM AUTHOR]

Published

2018

42. Deficiency of Carbonic Anhydrase II Results in a Urinary Concentrating Defect.

Author

Krishnan, Devishree, Pan, Wanling, Beggs, Megan R., Trepiccione, Francesco, Chambrey, Régine, Eladari, Dominique, Cordat, Emmanuelle, Dimke, Henrik, and Alexander, R. Todd

Subjects

CARBONIC anhydrase, NEPHRONS, AQUAPORINS, POLYURIA, LOOP of Henle

Abstract

Carbonic anhydrase II (CAII) is expressed along the nephron where it interacts with a number of transport proteins augmenting their activity. Aquaporin-1 (AQP1) interacts with CAII to increase water flux through the water channel. Both CAII and aquaporin-1 are expressed in the thin descending limb (TDL); however, the physiological role of a CAII-AQP1 interaction in this nephron segment is not known. To determine if CAII was required for urinary concentration, we studied water handling in CAII-deficient mice. CAII-deficient mice demonstrate polyuria and polydipsia as well as an alkaline urine and bicarbonaturia, consistent with a type III renal tubular acidosis. Natriuresis and hypercalciuria cause polyuria, however, CAII-deficient mice did not have increased urinary sodium nor calcium excretion. Further examination revealed dilute urine in the CAII-deficient mice. Urinary concentration remained reduced in CAII-deficient mice relative to wild-type animals even after water deprivation. The renal expression and localization by light microscopy of NKCC2 and aquaporin-2 was not altered. However, CAII-deficient mice had increased renal AQP1 expression. CAII associates with and increases water flux through aquaporin-1. Water flux through aquaporin-1 in the TDL of the loop of Henle is essential to the concentration of urine, as this is required to generate a concentrated medullary interstitium. We therefore measured cortical and medullary interstitial concentration in wild-type and CAII-deficient mice. Mice lacking CAII had equivalent cortical interstitial osmolarity to wild-type mice: however, they had reduced medullary interstitial osmolarity. We propose therefore that reduced water flux through aquaporin-1 in the TDL in the absence of CAII prevents the generation of a maximally concentrated medullary interstitium. This, in turn, limits urinary concentration in CAII deficient mice. [ABSTRACT FROM AUTHOR]

Published

2018

43. Uromodulin Regulates Murine Aquaporin−2 Activity via Thick Ascending Limb–Collecting Duct Cross−Talk during Water Deprivation

Author

Tomoaki Takata, Shintaro Hamada, Yukari Mae, Takuji Iyama, Ryohei Ogihara, Misako Seno, Kazuomi Nakamura, Miki Takata, Takaaki Sugihara, and Hajime Isomoto

Subjects

Aquaporin 2, Water Deprivation, aquaporin−2, collecting duct, diuretics, endocytosis, hypertension, loop of Henle, thick ascending limb, uromodulin, vasopressin, water channel, Organic Chemistry, General Medicine, Catalysis, Computer Science Applications, Inorganic Chemistry, Mice, Hypertension, Uromodulin, Animals, Physical and Theoretical Chemistry, Kidney Tubules, Collecting, Molecular Biology, Spectroscopy

Abstract

Uromodulin, a urinary protein synthesized and secreted from the thick ascending limb (TAL) of the loop of Henle, is associated with hypertension through the activation of sodium reabsorption in the TAL. Uromodulin is a potential target for hypertension treatment via natriuresis. However, its biological function in epithelial cells of the distal nephron segment, particularly the collecting duct, remains unknown. Herein, we examined the regulation of uromodulin production during water deprivation in vivo as well as the effect of uromodulin on the activity of the water channel aquaporin−2 (AQP2) in vitro and in vivo using transgenic mice. Water deprivation upregulated uromodulin production; immunofluorescence experiments revealed uromodulin adhesion on the apical surface of the collecting duct. Furthermore, the activation of AQP2 was attenuated in mice lacking uromodulin. Uromodulin enhanced the phosphorylation and apical trafficking of AQP2 in mouse collecting duct cells treated with the vasopressin analog dDAVP. The uromodulin-induced apical trafficking of AQP2 was attenuated via endocytosis inhibitor treatment, suggesting that uromodulin activates AQP2 through the suppression of endocytosis. This study provides novel insights into the cross−talk between TAL and the collecting duct, and indicates that the modulation of uromodulin is a promising approach for diuresis and hypertension treatment.

Published

2022

44. Thick ascending limb claudins are altered to increase calciuria and magnesiuria in metabolic acidosis

Author

Sungjin Chung, Gheun-Ho Kim, Chor Ho Jo, Sua Kim, Sungsin Jo, and Il Hwan Oh

Subjects

Male, medicine.medical_specialty, Tight junction, Physiology, Hypercalciuria, chemistry.chemical_element, Metabolic acidosis, Calcium, medicine.disease, Calcium, Dietary, Rats, Sprague-Dawley, Endocrinology, chemistry, Internal medicine, Claudins, Loop of Henle, medicine, Animals, Magnesium, Acidosis, Claudin, Receptors, Calcium-Sensing

Abstract

This study found that the thick ascending limb of Henle's loop is involved in the mechanisms of hypercalciuria and hypermagnesiuria in metabolic acidosis. Specifically, expression of claudin-16/19 and claudin-14 was altered via up-regulation of calcium-sensing receptor in NH4Cl-induced metabolic acidosis. Our novel findings contribute to understanding the regulatory role of paracellular tight junction proteins in the thick ascending limb.

Published

2021

45. Urinary Single-Cell Profiling Captures the Cellular Diversity of the Kidney

Author

Amin, Abedini, Yuan O, Zhu, Shatakshee, Chatterjee, Gabor, Halasz, Kishor, Devalaraja-Narashimha, Rojesh, Shrestha, Michael S, Balzer, Jihwan, Park, Tong, Zhou, Ziyuan, Ma, Katie Marie, Sullivan, Hailong, Hu, Xin, Sheng, Hongbo, Liu, Yi, Wei, Carine M, Boustany-Kari, Uptal, Patel, Salem, Almaani, Matthew, Palmer, Raymond, Townsend, Shira, Blady, Jonathan, Hogan, Lori, Morton, Katalin, Susztak, and Yan, Zhong

Subjects

Male, 0301 basic medicine, Nephrology, medicine.medical_specialty, Pathology, Cell type, Urinary system, Urinary Bladder, 030232 urology & nephrology, Urine, Biology, Kidney, Podocyte, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Loop of Henle, DNA Barcoding, Taxonomic, Humans, RNA-Seq, Aged, Gene Library, Podocytes, General Medicine, Middle Aged, Basic Research, 030104 developmental biology, medicine.anatomical_structure, Female, Kidney Diseases, Single-Cell Analysis

Abstract

Background Microscopic analysis of urine sediment is probably the most commonly used diagnostic procedure in nephrology. The urinary cells, however, have not yet undergone careful unbiased characterization. Methods Single-cell transcriptomic analysis was performed on 17 urine samples obtained from five subjects at two different occasions, using both spot and 24-hour urine collection. A pooled urine sample from multiple healthy individuals served as a reference control. In total 23,082 cells were analyzed. Urinary cells were compared with human kidney and human bladder datasets to understand similarities and differences among the observed cell types. Results Almost all kidney cell types can be identified in urine, such as podocyte, proximal tubule, loop of Henle, and collecting duct, in addition to macrophages, lymphocytes, and bladder cells. The urinary cell-type composition was subject specific and reasonably stable using different collection methods and over time. Urinary cells clustered with kidney and bladder cells, such as urinary podocytes with kidney podocytes, and principal cells of the kidney and urine, indicating their similarities in gene expression. Conclusions A reference dataset for cells in human urine was generated. Single-cell transcriptomics enables detection and quantification of almost all types of cells in the kidney and urinary tract.

Published

2021

46. Comparative histological studies on the renal medulla in broiler chicken and broiler duck

Author

S. Maya, Soumya Cb, N. S. Sunilkumar, K. B. Sumena, Deepa Kp, and A. R. Sreeranjini

Subjects

Kidney, animal structures, medicine.anatomical_structure, Medullary cavity, Cortex (anatomy), medicine, Loop of Henle, Renal medulla, Histology, Anatomy, Biology, Cortical lobule, Medulla

Abstract

Kidneys of six each of adult broiler chicken and broiler ducks were used in the present study. In the histological studies, the kidneys of all studied birds showed two zones, the cortex and medulla. The medulla occupied only a small portion of the kidney. In chicken a greater number of distinct cone-shaped medullary lobules were seen among cortical lobules while in duck they were lesser in number, more rounded in outline and were not cone shaped as in chicken. In the case of chicken more than one cortical lobule drained into a medullary lobule. Mammalian type of nephrons that occupied the juxta medullary region presented loop of Henle that was located within the medullary cone. Collecting ducts from different medullary lobules united together to form several large collecting ducts within the medulla which in turn united to form ureteral branches.

Published

2021

47. Effect of Experimental Fanconi Syndrome on Tubular Reabsorption of Lithium in Rats

Author

Yuichi Uwai and Tomohiro Nabekura

Subjects

Pharmacology, medicine.medical_specialty, Lithium (medication), Reabsorption, Chemistry, Fanconi syndrome, Renal function, General Medicine, medicine.disease, Excretion, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Internal medicine, Renal physiology, medicine, Loop of Henle, Lithium chloride, medicine.drug

Abstract

Lithium, administered to patients of bipolar disorders, is mainly excreted into urine, and tubular reabsorption at the proximal tubule is involved in the renal handling of lithium. In this study, we examined the renal excretion of lithium in rats with Fanconi syndrome, characterized by defects of transports of various compounds at the proximal tubules, induced by maleic acid. After maleic acid was intravenously injected, mannitol and lithium chloride were infused in turn. Using samples of plasma and bladder urine during the mannitol infusion, renal parameters were determined. Pharmacokinetic parameters of lithium were obtained using samples during the lithium chloride infusion. Maleic acid decreased creatinine clearance and increased the fractional excretion of glucose and phosphate, suggesting the induction of Fanconi syndrome. In rats with Fanconi syndrome, plasma concentration of lithium was increased, and its renal clearance was decreased. No effect on the fractional excretion of lithium was exhibited. This study represents that the tubular reabsorption of lithium was impaired to the same degree with glomerular filtration in rats with experimental Fanconi syndrome and that the dysfunction of the tubular reabsorption of glucose and phosphate was more severe. It is possible that Fanconi syndrome inhibited the reabsorption of lithium at the proximal tubule and facilitated the reabsorption of lithium from the loop of Henle to the collecting duct.

Published

2021

48. Furosemide suppresses ileal and colonic contractility via interactions with GABA-A receptor in mice.

Author

Kaewsaro, Kannaree, Nualplub, Suparp, Bumrungsri, Sara, and Khuituan, Pissared

Subjects

*FUROSEMIDE, *GABA receptors, *LABORATORY mice, *LOOP of Henle, *GASTROINTESTINAL system, *INTESTINAL motility

Abstract

The loop diuretic furosemide has an action to inhibit Na+-K+-2Cl− co-transporter at the thick ascending limb of Henle's loop resulting in diuresis. Furosemide also has the non-diuretic effects by binding to GABA-A receptor which may involve the gastrointestinal tract. The aim of this study was to investigate the effects of furosemide on smooth muscle contractions in mice ileum and proximal colon. Each intestinal segment suspended in an organ bath was connected to a force transducer. Signal output of mechanical activity was amplified and recorded for analysis using PowerLab System. After equilibration, the intestine was directly exposed to furosemide, GABA, GABA-A receptor agonist (muscimol), or muscarinic receptor antagonist (atropine). Furosemide (50, 100 and 500 μmol L−1) acutely reduced the amplitude of ileal and colonic contraction. In the ileum, 1 mmol L−1 GABA and 10-60 μmol L−1 muscimol significantly increased the amplitude, whereas in the colon, 50-100 mmol L−1 GABA and 60 μmol L−1 muscimol decreased the contractions. The contractions were also significantly suppressed by atropine. To investigate the mechanisms underlying the inhibiting effect of furosemide, furosemide was added to the organ bath prior to the addition of muscimol or atropine. A comparison of furosemide combined with muscimol or atropine group and furosemide group showed no significant difference of the ileal contraction, but the amplitude of colonic contraction significantly decreased when compared to adding furosemide alone. These results suggest that furosemide can reduce the ileal and proximal colonic contraction mediated by blocking and supporting of GABA-A receptor, respectively, resulting in decreased acetylcholine release. [ABSTRACT FROM AUTHOR]

Published

2017

49. Senescent Nephropathy: The New Renal Syndrome.

Author

Aiello, Florencia, Dueñas, Eliana P., and Musso, Carlos G.

Subjects

KIDNEY diseases, GLOMERULAR filtration rate, KIDNEY function tests, NEPHRONS, LOOP of Henle

Abstract

Chronic kidney disease (CKD) is a condition characterized by progressive and irreversible deterioration of renal function due to the reduction of nephron mass for a period of at least three months. The prevalence of CKD is roughly 10% in the general population but increases with age, affecting more than one-third of people older than 65. Frailty is a condition usually found in elderly people, characterized by weakness, motility, and balance issues, with a declined ability to resist stressors leading to increased risks of adverse health outcomes including falls, fracture, hospitalization, institutionalization, disability, dependence, dementia, poor quality of life, and death. There is interdependence between CKD and normal ageing whereby CKD makes ageing more accelerated and pronounced (senescence), whereas senescence accelerates chronic nephropathy's progression. Frailty status catalyzes this spiral, with renal and systemic consequences, phenomenon which can be named senescent nephropathy. In conclusion, senescent nephropathy is a new renal syndrome that should be taken into account, and we must try to handle its appearance and progression not only by applying nephron prevention measurements but also by diagnosis and treating frailty in the CKD population. [ABSTRACT FROM AUTHOR]

Published

2017

50. Can Randall's plug composed of calcium oxalate form via the free particle mechanism?

Author

Grases, F. and Söhnel, O.

Subjects

CALCIUM oxalate, CRYSTALLIZATION, LOOP of Henle, SUPERSATURATION, NUCLEATION

Abstract

Background: The likelihood of a Randall's plug composed of calcium oxalate monohydrate (COM) forming by the free particle mechanism in a model of kidney with a structure recently described by Robertson was examined at the most favourable conditions for the considered mechanism.Methods: The Robertson model of the kidney is used in the following development. The classical theory of crystallization was used for calculations.Results: Initial COM nuclei were assumed to form at the beginning of the ascending loop of Henle where the supersaturation with respect to COM has been shown to reach the threshold level for spontaneous nucleation. Nucleation proceeds by a heterogeneous mechanism. The formed particles are transported in the nephron by a laminar flow of liquid with a parabolic velocity profile. Particles travel with a velocity dependent on their position in the cross-section of the nephron assumed to be straight tubule with smooth walls and without any sharp bends and kinks. These particles move faster with time as they grow as a result of being surrounded by the supersaturated liquid. Individual COM particles (crystals) can reach maximum diameter of 5.2 × 10-6 m, i.e. 5.2 μm, at the opening of the CD and would thus always be washed out of the CD into the calyx regardless of the orientation of the CD. Agglomeration of COM crystals forms a fractal object with an apparent density lower than the density of solid COM. The agglomerate that can block the beginning of the CD is composed of more crystals than are available even during crystaluria. Moreover the settling velocity of agglomerate blocking the opening of the CD is lower than the liquid flow and thus such agglomerate would be washed out even from upward-draining CD.Conclusions: The free particle mechanism may be responsible for the formation of a Randall's plug composed by COM only in specific infrequent cases such as an abnormal structure of kidney. Majority of incidences of Randall's plug development by COM are caused by mechanism different from the free particle mechanism. [ABSTRACT FROM AUTHOR]

Published

2017