Your search keyword '"Nephrons"' showing total 7,796 results

201. Snapshots of nascent RNA can validate different nephron segment responses in acute kidney injury: a step toward clinically useful biomarkers?

Author

Motonobu, Nakamura and Masaomi, Nangaku

Subjects

Nephrology, Humans, RNA, Nephrons, Acute Kidney Injury, Biomarkers

Published

2022

202. Mechanisms of ion transport regulation by HNF1β in the kidney: beyond transcriptional regulation of channels and transporters

Author

Lotte E. Tholen, Joost G. J. Hoenderop, and Jeroen H. F. de Baaij

Subjects

Electrolytes, Mice, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Ion Transport, Physiology, Physiology (medical), Clinical Biochemistry, Animals, Membrane Transport Proteins, Nephrons, Kidney, Hepatocyte Nuclear Factor 1-beta, Transcription Factors

Abstract

Hepatocyte nuclear factor 1β (HNF1β) is a transcription factor essential for the development and function of the kidney. Mutations in and deletions of HNF1β cause autosomal dominant tubule interstitial kidney disease (ADTKD) subtype HNF1β, which is characterized by renal cysts, diabetes, genital tract malformations, and neurodevelopmental disorders. Electrolyte disturbances including hypomagnesemia, hyperuricemia, and hypocalciuria are common in patients with ADTKD-HNF1β. Traditionally, these electrolyte disturbances have been attributed to HNF1β-mediated transcriptional regulation of gene networks involved in ion transport in the distal part of the nephron including FXYD2, CASR, KCNJ16, and FXR. In this review, we propose additional mechanisms that may contribute to the electrolyte disturbances observed in ADTKD-HNF1β patients. Firstly, kidney development is severely affected in Hnf1b-deficient mice. HNF1β is required for nephron segmentation, and the absence of the transcription factor results in rudimentary nephrons lacking mature proximal tubule, loop of Henle, and distal convoluted tubule cluster. In addition, HNF1β is proposed to be important for apical-basolateral polarity and tight junction integrity in the kidney. Interestingly, cilia formation is unaffected by Hnf1b defects in several models, despite the HNF1β-mediated transcriptional regulation of many ciliary genes. To what extent impaired nephron segmentation, apical-basolateral polarity, and cilia function contribute to electrolyte disturbances in HNF1β patients remains elusive. Systematic phenotyping of Hnf1b mouse models and the development of patient-specific kidney organoid models will be essential to advance future HNF1β research.

Published

2022

203. Outcomes of Nephron-sparing Surgery in T1 vs T2 Renal Tumours

Author

Pardeep, Kumar, Mudassir, Hussain, Mehnaz, Jabeen, Rehan, Mohsin, Gauhar, Sultan, and Altaf, Hashmi

Subjects

Male, Treatment Outcome, Humans, Female, Nephrons, General Medicine, Carcinoma, Renal Cell, Nephrectomy, Kidney Neoplasms, Retrospective Studies

Abstract

To compare the drop in eGFR after nephron-sparing surgery in T1 and T2 renal tumours. Descriptive study. Department of Uro-oncology, Sindh Institute of Urology, and Transplantation Karachi, from March 2020 to March 2021. Retrospective data were collected for all patients who underwent nephron-sparing surgery between 2014 to 2019. Eighty-seven patients were divided into two groups based on the T stage of renal tumours (T1 ≤7 cm and T27 cm). The outcomes of the two groups were compared such as eGFR, blood transfusion, hospital stay and complications. There was a higher drop in eGFR in T2 tumours when compared to T1 tumours at 1 year of follow-up. There were more perioperative complications, higher blood transfusions and longer hospital stays for T2 tumours. Nephron sparing surgery for T2 renal tumours carries lower eGFR preservation, higher blood transfusions and complications when compared to T1 tumours. The indication for such extensive surgery should be individualized to specific contexts only.Adenocarcinoma kidney, Nephrectomy, Glomerular filtration rate, Length of hospital stay, Blood transfusion.

Published

2022

204. An update on the evolutionary origin of aglomerular kidney with structural and ultrastructural descriptions of the kidney in three fish species

Author

Sinlapachai Senarat, Jes Kettratad, Supanut Pairohakul, Sumate Ampawong, Brian P. Huggins, Melissa M. Coleman, and Gen Kaneko

Subjects

Kidney Tubules, Kidney Glomerulus, Animals, Nephrons, Aquatic Science, Batrachoidiformes, Kidney, Smegmamorpha, Ecology, Evolution, Behavior and Systematics

Abstract

The kidney of fish contains numerous nephrons, each of which is divided into the renal corpuscle and renal tubules. This glomerular structure is the filtration unit of the nephron and is important for the kidney function, but it has been reported that the renal corpuscle was lost in at least four independent linages of fish (i.e., aglomerular kidney). In this study, the authors newly described renal structures for three species by histological and ultrastructural observations: two aglomerular kidneys from a seahorse Hippocampus barbouri and a toadfish Allenbatrachus grunniens and a glomerular kidney from a snake eel Pisodonophis boro. The renal development of H. barbouri was also described during 1-35 days after birth. In all species tested, the anterior kidney was comprised of haematopoietic tissues and a few renal tubules, whereas the posterior kidney contained more renal tubules. Although the glomerular structure was present in P. boro, light microscopic observations identified no glomeruli in the kidney of H. barbouri and A. grunniens. Ultrastructurally, abundant deep basal infoldings with mitochondria in the renal tubules were observed in A. grunniens compared to H. barbouri and P. boro, suggesting the possible role of basal infoldings in maintaining the osmotic balance. By integrating the results from the three species and comprehensive literature search, the authors further showed that 56 species have been reported to be aglomerular, and that the aglomerular kidney has evolved at least eight times in bony fishes.

Published

2022

205. Single nephron glomerular filtration rate measured by linescan multiphoton microscopy compared to conventional micropuncture

Author

Vincenzo Costanzo, Luciano D’Apolito, Donato Sardella, Anna Iervolino, Gaetano La Manna, Giovambattista Capasso, Sebastian Frische, Francesco Trepiccione, Costanzo, V., D'Apolito, L., Sardella, D., Iervolino, A., La Manna, G., Capasso, G., Frische, S., and Trepiccione, F.

Subjects

Microscopy, urogenital system, Physiology, Kidney physiology, Clinical Biochemistry, Ischemia/reperfusion, Linescan, Nephrons, Punctures, Single nephron glomerular filtration rate, Kidney, Rats, Multiphoton microscopy, Mice, Kidney Tubules, Physiology (medical), Animals, Micropuncture, Glomerular Filtration Rate

Abstract

Renal micropuncture, which requires the direct access to the renal tubules, has for long time been the technique of choice to measure the single nephron glomerular filtration rate (SNGFR) in animal models. This approach is challenging by virtue of complex animal preparation and numerous technically difficult steps. The introduction of intravital multiphoton microscopy (MPM) offers another approach to the measure of the SNGFR by mean of the high laser-tissue penetration and the optical sectioning capacity. Previous MPM studies measuring SNGFR in vivo relied on fast full-frame acquisition during the filtration process obtainable with high performance resonant scanners. In this study, we describe an innovative linescan–based MPM method. The new method can discriminate SNGFR variations both in conditions of low and high glomerular filtration, and shows results comparable to conventional micropuncture both for rats and mice. Moreover, this novel approach has improved spatial and time resolution and is faster than previous methods, thus enabling the investigation of SNGFR from more tubules and improving options for data-analysis.

Published

2022

206. Glomerular hyperfiltration

Author

Monica Cortinovis, Norberto Perico, Piero Ruggenenti, Andrea Remuzzi, and Giuseppe Remuzzi

Subjects

Pregnancy, Nephrology, Chronic kidney disease, Kidney Glomerulus, Settore ING-IND/34 - Bioingegneria Industriale, Humans, Glomerular diseases, Female, Nephrons, Kidney, Polycystic Kidney, Autosomal Dominant, Glomerular Filtration Rate

Abstract

Circulating blood is filtered across the glomerular barrier to form an ultrafiltrate of plasma in the Bowman's space. The volume of glomerular filtration adjusted by time is defined as the glomerular filtration rate (GFR), and the total GFR is the sum of all single-nephron GFRs. Thus, when the single-nephron GFR is increased in the context of a normal number of functioning nephrons, single glomerular hyperfiltration results in 'absolute' hyperfiltration in the kidney. 'Absolute' hyperfiltration can occur in healthy people after high protein intake, during pregnancy and in patients with diabetes, obesity or autosomal-dominant polycystic kidney disease. When the number of functioning nephrons is reduced, single-nephron glomerular hyperfiltration can result in a GFR that is within or below the normal range. This 'relative' hyperfiltration can occur in patients with a congenitally reduced nephron number or with an acquired reduction in nephron mass consequent to surgery or kidney disease. Improved understanding of the mechanisms that underlie 'absolute' and 'relative' glomerular hyperfiltration in different clinical settings, and of whether and how the single-nephron haemodynamic and related biomechanical forces that underlie glomerular hyperfiltration promote glomerular injury, will pave the way toward the development of novel therapeutic interventions that attenuate glomerular hyperfiltration and potentially prevent or limit consequent progressive kidney injury and loss of function.

Published

2022

207. Mechanisms and Models of Kidney Tubular Necrosis and Nephron Loss

Author

Francesca Maremonti, Claudia Meyer, and Andreas Linkermann

Subjects

Male, urogenital system, Apoptosis, Nephrons, Review, General Medicine, Acute Kidney Injury, Kidney, urologic and male genital diseases, Necrosis, Nephrology, Humans, Female, Kidney Cortex Necrosis, Renal Insufficiency, Chronic

Abstract

Understanding nephron loss is a primary strategy for preventing CKD progression. Death of renal tubular cells may occur by apoptosis during developmental and regenerative processes. However, during AKI, the transition of AKI to CKD, sepsis-associated AKI, and kidney transplantation ferroptosis and necroptosis, two pathways associated with the loss of plasma membrane integrity, kill renal cells. This necrotic type of cell death is associated with an inflammatory response, which is referred to as necroinflammation. Importantly, the necroinflammatory response to cells that die by necroptosis may be fundamentally different from the tissue response to ferroptosis. Although mechanisms of ferroptosis and necroptosis have recently been investigated in detail, the cell death propagation during tubular necrosis, although described morphologically, remains incompletely understood. Here, we argue that a molecular switch downstream of tubular necrosis determines nephron regeneration versus nephron loss. Unraveling the details of this “switch” must include the inflammatory response to tubular necrosis and regenerative signals potentially controlled by inflammatory cells, including the stimulation of myofibroblasts as the origin of fibrosis. Understanding in detail the molecular switch and the inflammatory responses to tubular necrosis can inform the discussion of therapeutic options.

Published

2022

208. Tissue Culture Models of AKI: From Tubule Cells to Human Kidney Organoids

Author

Julie Bejoy, Eddie S. Qian, and Lauren E. Woodard

Subjects

Male, Mammals, Pluripotent Stem Cells, urogenital system, Nephrons, Review, General Medicine, Acute Kidney Injury, Kidney, urologic and male genital diseases, Organoids, Nephrology, Animals, Humans, Female

Abstract

AKI affects approximately 13.3 million people around the world each year, causing CKD and/or mortality. The mammalian kidney cannot generate new nephrons after postnatal renal damage and regenerative therapies for AKI are not available. Human kidney tissue culture systems can complement animal models of AKI and/or address some of their limitations. Donor-derived somatic cells, such as renal tubule epithelial cells or cell lines (RPTEC/hTERT, ciPTEC, HK-2, Nki-2, and CIHP-1), have been used for decades to permit drug toxicity screening and studies into potential AKI mechanisms. However, tubule cell lines do not fully recapitulate tubular epithelial cell properties in situ when grown under classic tissue culture conditions. Improving tissue culture models of AKI would increase our understanding of the mechanisms, leading to new therapeutics. Human pluripotent stem cells (hPSCs) can be differentiated into kidney organoids and various renal cell types. Injury to human kidney organoids results in renal cell-type crosstalk and upregulation of kidney injury biomarkers that are difficult to induce in primary tubule cell cultures. However, current protocols produce kidney organoids that are not mature and contain off-target cell types. Promising bioengineering techniques, such as bioprinting and “kidney-on-a-chip” methods, as applied to kidney nephrotoxicity modeling advantages and limitations are discussed. This review explores the mechanisms and detection of AKI in tissue culture, with an emphasis on bioengineered approaches such as human kidney organoid models.

Published

2022

209. Late Kidney Effects of Nephron-Sparing vs Radical Nephrectomy for Wilms Tumor: A Systematic Review and Meta-Analysis

Author

Adree Khondker, Anshika Jain, Michael L. Groff, Jack Brzezinski, Armando J. Lorenzo, and Michael Zappitelli

Subjects

Urology, Humans, Nephrons, Kidney Function Tests, Nephrectomy, Wilms Tumor, Kidney Neoplasms

Abstract

We compare differences in long-term kidney function between patients undergoing either radical nephrectomy (RN) or nephron-sparing surgery (NSS) in unilateral and bilateral Wilms tumor (WT), respectively.A systematic search was performed in September 2020. Comparative studies were evaluated according to Cochrane collaboration recommendations. Assessed long-term (1-year postoperative) outcomes included chronic kidney disease, hypertension and glomerular filtration rate, among others. Odds ratio and mean difference with 95% confidence interval were extrapolated from available data for quantitative synthesis. Random-effects meta-analysis and meta-regression were performed according to study design and techniques. The systematic review was prospectively registered on PROSPERO (CRD42020205378).A total of 23 studies describing 293 cases of unilateral WT and 386 cases of bilateral WT were included in the qualitative synthesis. Overall effect estimates demonstrate that patients undergoing RN have significantly increased odds of developing abnormal kidney function (OR 4.29, 95% CI 1.02, 18.00) and lower estimated glomerular filtration rate at long-term followup (mean difference -8.99, 95% CI -16.40, -1.58) compared to those undergoing NSS. In bilateral WT, patients undergoing RN with contralateral NSS have higher odds of developing abnormal kidney function (OR 3.82, 95% CI 1.76, 8.33) and hypertension (OR 5.81, 95% CI 1.31, 25.68) compared to bilateral NSS.Current evidence is low quality but suggests that NSS for unilateral and bilateral WT may be associated with better kidney function or blood pressure at late followup. Further research to investigate sources of heterogeneity is recommended.

Published

2022

210. SLC2A9 (GLUT9) mediates urate reabsorption in the mouse kidney.

Author

Auberson, Muriel, Stadelmann, Sophie, Stoudmann, Candice, Seuwen, Klaus, Koesters, Robert, Thorens, Bernard, and Bonny, Olivier

Subjects

*KIDNEY diseases, *NEPHRONS, *CREATININE, *URATES, *URICOSURIC agents

Abstract

Uric acid (UA) is a metabolite of purine degradation and is involved in gout flairs and kidney stones formation. GLUT9 (SLC2A9) was previously shown to be a urate transporter in vitro. In vivo, humans carrying GLUT9 loss-of-function mutations have familial renal hypouricemia type 2, a condition characterized by hypouricemia, UA renal wasting associated with kidney stones, and an increased propensity to acute renal failure during strenuous exercise. Mice carrying a deletion of GLUT9 in the whole body are hyperuricemic and display a severe nephropathy due to intratubular uric acid precipitation. However, the precise role of GLUT9 in the kidney remains poorly characterized. We developed a mouse model in which GLUT9 was deleted specifically along the whole nephron in a tetracycline-inducible manner (subsequently called kidney-inducible KO or kiKO). The urate/creatinine ratio was increased as early as 4 days after induction of the KO and no GLUT9 protein was visible on kidney extracts. kiKO mice are morphologically identical to their wild-type littermates and had no spontaneous kidney stones. Twenty-four-hour urine collection revealed a major increase of urate urinary excretion rate and of the fractional excretion of urate, with no difference in urate concentration in the plasma. Polyuria was observed, but kiKO mice were still able to concentrate urine after water restriction. KiKO mice displayed lower blood pressure accompanied by an increased heart rate. Overall, these results indicate that GLUT9 is a crucial player in renal handling of urate in vivo and a putative target for uricosuric drugs. [ABSTRACT FROM AUTHOR]

Published

2018

211. Forming nephrons promote nephron progenitor maintenance and branching morphogenesis via paracrine BMP4 signalling under the control of Wnt4.

Subjects

NEPHRONS, KIDNEY tubules, KIDNEY development, MORPHOGENESIS, DEVELOPMENTAL biology

Abstract

A preprint abstract from biorxiv.org discusses the role of forming nephrons in kidney development. The study suggests that nephrons, which are structures in the kidney, play a role in maintaining the nephrogenic niche, an environment that supports kidney development. The researchers found that the deletion of a gene called Wnt4, which is necessary for nephron formation, resulted in reduced branching morphogenesis and nephron progenitor cell number. They also identified a paracrine signal called BMP4, which is produced by the forming nephrons and contributes to the maintenance of the nephrogenic niche. This research provides new insights into kidney morphogenesis and certain kidney disorders associated with Wnt4 mutations. However, it is important to note that this preprint has not yet undergone peer review. [Extracted from the article]

Published

2023

212. Geometric Effects Position Renal Vesicles During Kidney Development (Updated November 11, 2023).

Subjects

KIDNEY development, NEPHRONS, RESEARCH personnel, DEVELOPMENTAL biology, MESENCHYME

Abstract

According to a preprint abstract, researchers have discovered that during kidney development, there is reciprocal signaling between the epithelium and the mesenchyme that coordinates nephrogenesis with the branching morphogenesis of the collecting ducts. The mechanism that positions the renal vesicles, and therefore the nephrons, relative to the branching ureteric buds has been unclear. Through computational modeling and experiments, the researchers found that geometric effects concentrate the key regulator, WNT9b, at the junctions between parent and daughter branches where renal vesicles emerge. This curvature effect may be a general paradigm for creating non-uniform signaling in development. The preprint has not yet been peer-reviewed. [Extracted from the article]

Published

2023

213. Can Aortic and Renal Arteries Calcium Scores Be New Factors to Predict Post-Operative Renal Function After Nephron Sparing Surgery?

Author

Ilker Akarken, Ender Ozden, Cenk Yucel Bilen, Murat Gülşen, Oktay Üçer, and Hayrettin Şahin

Subjects

Male, medicine.medical_specialty, Urology, medicine.medical_treatment, Renal function, Kidney, urologic and male genital diseases, Nephrectomy, Renal Artery, medicine.artery, medicine, Humans, Renal Insufficiency, Chronic, Stage (cooking), Risk factor, Aorta, Retrospective Studies, business.industry, Abdominal aorta, Nephrons, Middle Aged, medicine.disease, Kidney Neoplasms, Oncology, Calcium, Female, business, Calcification, Kidney disease

Abstract

This study aims to investigate whether the calcification of renal arteries and aorta may be risk factors for developing chronic kidney disease (CKD) after Nephron sparing surgery (NSS).The patients that underwent either open or laparoscopic NSS from 2000 to 2019 in 4 different centers were retrospectively assessed. Of these patients, 328 had a non-contrast-enhanced computer tomography. Calcium scores of the renal arteries and abdominal aorta were measured in the non-contrast-enhanced images with the calcium score plugin (version 2.0) of Horos™. Univariate and multivariate logistic regression analysis was performed to determine significant risk factors for developing CKD at the last check-up. Roc curve analysis was performed to determine the optimal cut-off values of age and abdominal aorta calcium scores.A total of 302 patients, of which 52 (16,6%) with CKD and 252 (83,4%) without CKD at the last check-up, were included in the analysis. The mean warm ischemia duration was significantly higher in patients with CKD (18,79±6,72 vs 16,38±5,57 minutes, p=0,016). The mean size of the tumor diameter and the number of the patients with ≥stage T1b were higher in the group with CKD (p=0,024 and 0,005, respectively). The median calcium scores of the aorta and renal arteries were higher in the group with CKD (p0,001 and p0,001, respectively). In multivariate analysis, age60 years (OR:3,65, p=0,022), calcium score of the aorta (OR:4,07, p=0,029), tumor diameter (OR:1,03, p=0,026) and pre-operative CKD stage (OR:10,13, p0,001) found the be significant factors for predicting last check-up CKD.The calcium score of the aorta may be used as an additional risk factor to predict post-operative CKD risk after NSS with sensitivity over 80%.

Published

2022

214. Virtual Resection: A New Tool for Preparing for Nephron-Sparing Surgery in Wilms Tumor Patients

Author

Jasper M. van der Zee, Matthijs Fitski, Frank F. J. Simonis, Cornelis P. van de Ven, Aart J. Klijn, Marc H. W. A. Wijnen, Alida F. W. van der Steeg, TechMed Centre, and Magnetic Detection and Imaging

Subjects

Surgeons, Virtual resection, Humans, Wilms tumor, virtual resection, remnant renal volume, nephron-sparing surgery, partial nephrectomy, remnant renal parenchyma, Partial nephrectomy, Nephrons, Nephron-sparing surgery, Child, Remnant renal volume, Nephrectomy, Kidney Neoplasms, Remnant renal parenchyma

Abstract

Nephron-sparing surgery (NSS) in Wilms tumor (WT) patients is a surgically challenging procedure used in highly selective cases only. Virtual resections can be used for preoperative planning of NSS to estimate the remnant renal volume (RRV) and to virtually mimic radical tumor resection. In this single-center evaluation study, virtual resection for NSS planning and the user experience were evaluated. Virtual resection was performed in nine WT patient cases by two pediatric surgeons and one pediatric urologist. Pre- and postoperative MRI scans were used for 3D visualization. The virtual RRV was acquired after performing virtual resection and a questionnaire was used to assess the ease of use. The actual RRV was derived from the postoperative 3D visualization and compared with the derived virtual RRV. Virtual resection resulted in virtual RRVs that matched nearly perfectly with the actual RRVs. According to the questionnaire, virtual resection appeared to be straightforward and was not considered to be difficult. This study demonstrated the potential of virtual resection as a new planning tool to estimate the RRV after NSS in WT patients. Future research should further evaluate the clinical relevance of virtual resection by relating it to surgical outcome.

Published

2022

215. Impact of early life development on later onset chronic kidney disease and hypertension and the role of evolutionary trade‐offs

Author

Robert Chevalier and Valerie Luyckx

Subjects

Adult, Male, Nutrition and Dietetics, Physiology, Infant, Newborn, Nephrons, General Medicine, Kidney, Pregnancy, Physiology (medical), Hypertension, Humans, Premature Birth, Female, Renal Insufficiency, Chronic

Abstract

What is the topic of this review? In this report, we summarize the latest clinical evidence linking developmental programming in the kidney to later life blood pressure and kidney disease. What advances does it highlight? Population-level studies now show convincingly that low birth weight, fetal growth restriction and preterm birth are associated with and have a synergistic impact on the risk of kidney disease in later life. A new approach also considers how evolutionary selection pressure might fail to select for long-term robustness of kidney function.The global burden of kidney disease is high and rising. The risk of kidney disease among individuals is highly variable, in part related to genetic and environmental factors, but also likely to be modulated by developmental programming of the number of nephrons and kidney function in fetal life. The number of nephrons varies widely across the population and is lower among those who were born small or preterm. Population registry evidence clearly shows an association between these birth circumstances and later-life risk of hypertension and kidney disease, not only for chronic kidney disease but also for acquired kidney disease, demonstrating an inherent susceptibility to kidney disease in these individuals. Gestational stressors impact kidney development, a process that is likely to be layered upon the evolutionary history of the kidney and how the organ has developed in response to selection pressure to support reproductive capacity in early adulthood, but not to withstand multiple stresses later in life. Reducing the global burden of kidney disease in future generations will require both individual- and population/environment-level risks to be addressed.

Published

2022

216. Spatial localization of cadmium and metallothionein in the kidneys of mice at the early phase of cadmium accumulation

Author

Hitomi Fujishiro, Miharu Sumino, Daigo Sumi, Hitomi Umemoto, Koichi Tsuneyama, Takehisa Matsukawa, Kazuhito Yokoyama, and Seiichiro Himeno

Subjects

Kidney Tubules, Proximal, Mice, Animals, Metallothionein, Nephrons, Kidney, Toxicology, Cadmium

Abstract

Chronic exposure to cadmium (Cd) leads to an accumulation of Cd in the kidneys. Metallothionein (MT) is a low-molecular-weight protein having a high affinity for Cd. Cd bound to MT in serum is filtered through the glomeruli of kidney nephrons and reabsorbed by endocytosis into the proximal tubules from the luminal side. Accumulation of Cd in renal cells induces MT synthesis, leading to long-term deposition of Cd and the suppression of Cd toxicity. Recently, many studies have investigated the tissue distribution of metals using laser ablation ICP-MS (LA-ICP-MS). However, little information has been available regarding renal Cd distribution. Hence, we dually investigated the renal distribution of Cd by LA-ICP-MS and that of MT by immunohistochemistry to clarify the dose- and time-dependent changes in the distributions of Cd and MT in mice exposed to Cd from drinking water for 1, 2, and 4 months. Both Cd and MT exhibited characteristic heterogeneous distribution patterns in the renal cortex. The accumulation of Cd and MT near the surface of the cortex suggests a preferential accumulation of Cd in the surface nephrons. MT distribution was more pronounced in the proximal tubules than in the distal tubules, and there were clear differences in MT immunostaining even among the proximal tubules. The heterogeneous localization of MT may reflect the nephron-specific accumulation of Cd. Combining elemental imaging of Cd with immunostaining of MT proved a successful strategy to reveal the characteristic renal Cd distribution, especially in the early stages of Cd accumulation.

Published

2022

217. Practical evaluation of the R.E.N.A.L. score system in 150 laparoscopic nephron sparing surgeries

Author

Pedro N. Gabrich, Ronaldo Damião, José Cocisfran Alves Milfont, Victor T. Dubeux, Fabricio B. Carrerette, and José F.C. Zanier

Subjects

medicine.medical_specialty, Urology, Renal parenchyma, Statistical difference, Nephrectomy, Proof of Concept Study, Risk groups, medicine, Humans, Adverse effect, Laparoscopy, Retrospective Studies, medicine.diagnostic_test, business.industry, Incidence (epidemiology), Nephrons, Diseases of the genitourinary system. Urology, Kidney Neoplasms, Surgery, Treatment Outcome, Surgical Procedures, Operative, RC870-923, Nephron sparing surgery, Positive Surgical Margin, business, Editorial Comment

Abstract

Introduction: Nephrometric scores play an interesting role in nephron sparring surgery (NSS) planning. The aim of this study is to evaluate if R.E.N.A.L. score (RS) is capable to predict the occurrence of adverse events in laparoscopic NSS. Materials and Methods: We prospectively studied 150 laparoscopic NSS between 2015 and 2018 to evaluate the relationship between RS and incidence of adverse events. Clavien 3 or superior complications, warm ischemia time (WIT) over 30 minutes, tumor violation, positive surgical margins (PSM) and necessity of amplification of renal parenchyma during the resection of the masses to obtain free margins were considered as adverse events. We compared each item of the RS isolated and divided the patients between low risk and high risk. Results: Adverse results occurred in 48 cases (32%). Amplification of the margin of resection was observed in 28 cases (19%). WIT exceeded 30 minutes in 9 cases (6.1%), complications Clavien 3 or superior occurred in 13 cases (9%) and PSM were detected en 6 cases (4%). Comparing the patients with adverse outcomes and each item of the RS we did not find any statistical difference, but when divided into high risk and low risk, we found that patients in the high risk group had a higher tendency to present ad-verse results - 25.84% vs. 44.26% (p=0.03). Conclusions: RS system is a good way to predict adverse outcomes in NSS, especially in cases over 7. Further studies should focus on robotic approach and patient's characteristics other than the masses’ aspects.

Published

2022

218. Urine Macrophages Polarization Predicts Renal Function Recovery after Nephron-Sparing Surgery in Patients with Renal Cell Carcinoma

Author

Xin Dai, Fan Liu, Lin Zhang, Liujian Duan, Yunteng Huang, and Subo Qian

Subjects

Reperfusion Injury, Macrophages, Urology, Humans, Recovery of Function, Nephrons, Acute Kidney Injury, Renal Insufficiency, Chronic, Kidney, Carcinoma, Renal Cell, Kidney Neoplasms

Abstract

Introduction: This study was conducted to investigate the underlying associations between urine macrophages polarization and renal function recovery after nephron-sparing surgery (NSS) in patients with renal cell carcinoma (RCC) and to explore the potential application values of urine macrophages polarization in predicting the severity of renal ischemia/reperfusion injury (RIRI). Methods: Sixty-two patients with unilateral RCC who underwent NSS in our departments were prospectively recorded and followed up for long-term renal function to assess the onset of acute kidney injury (AKI) and chronic kidney disease (CKD). Urine samples of patients were collected 72 h after surgery for analyzing pro-inflammatory (classically activated/M1) and pro-reparative (alternatively activated/M2) macrophages polarization by flow cytometry. The detailed correlations between urine macrophages polarization and renal function recovery after NSS were explored by statistical analyses. Results: The cumulative incidence of postoperative AKI was 27.4% (17/62), and 47.0% (8/17) of those eventually developed to CKD during the follow-up. The mean urine M1/M2 ratio was 10.54 ± 8.13 in the AKI group and 3.93 ± 3.10 in the non-AKI group, presenting a significant statistical difference (p < 0.0001). Meanwhile, the urine M1/M2 ratio presented amazing potential in predicting postoperative CKD as well, with a mean ratio of 12.54 ± 9.41 in the CKD group and 4.28 ± 3.21 in the non-CKD group (p < 0.0001). Though univariate analysis implied that urine M1/M2 ratio was a relevant factor of both postoperative AKI and CKD in NSS surgical patients, multivariate analysis did not show satisfying predicting potential in postoperative CKD, mainly due to the very limited candidates enrolled in this study. Conclusion: Urine macrophages polarization could predict renal function recovery after NSS in patients with RCC. The urine M1/M2 ratio might a potential biomarker of RIRI but needs to be further verified in clinical settings.

Published

2022

219. 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

220. Post-translational modifications by SIRT3 de-2-hydroxyisobutyrylase activity regulate glycolysis and enable nephrogenesis

Author

Luca Perico, Marina Morigi, Anna Pezzotta, Daniela Corna, Valerio Brizi, Sara Conti, Cristina Zanchi, Fabio Sangalli, Piera Trionfini, Sara Buttò, Christodoulos Xinaris, Susanna Tomasoni, Carlamaria Zoja, Giuseppe Remuzzi, Ariela Benigni, and Barbara Imberti

Subjects

Organogenesis, Science, Kidney, Article, Epigenesis, Genetic, Mice, Sirtuin 3, Developmental biology, Animals, Cell Nucleus, Multidisciplinary, urogenital system, Lysine, Cell Differentiation, Nephrons, NAD, Chromatin, Mice, Inbred C57BL, Phosphofructokinases, Medicine, Kidney Diseases, Experimental organisms, Glycolysis, Protein Processing, Post-Translational

Abstract

Abnormal kidney development leads to lower nephron number, predisposing to renal diseases in adulthood. In embryonic kidneys, nephron endowment is dictated by the availability of nephron progenitors, whose self-renewal and differentiation require a relatively repressed chromatin state. More recently, NAD+-dependent deacetylase sirtuins (SIRTs) have emerged as possible regulators that link epigenetic processes to the metabolism. Here, we discovered a novel role for the NAD+-dependent deacylase SIRT3 in kidney development. In the embryonic kidney, SIRT3 was highly expressed only as a short isoform, with nuclear and extra-nuclear localisation. The nuclear SIRT3 did not act as deacetylase but exerted de-2-hydroxyisobutyrylase activity on lysine residues of histone proteins. Extra-nuclear SIRT3 regulated lysine 2-hydroxyisobutyrylation (Khib) levels of phosphofructokinase (PFK) and Sirt3 deficiency increased PFK Khib levels, inducing a glycolysis boost. This altered Khib landscape in Sirt3−/− metanephroi was associated with decreased nephron progenitors, impaired nephrogenesis and a reduced number of nephrons. These data describe an unprecedented role of SIRT3 in controlling early renal development through the regulation of epigenetics and metabolic processes.

Published

2021

221. Too bright for 2 dimensions: recent progress in advanced 3-dimensional microscopy of the kidney

Author

Santos, Rui, Bürgi, Max, Mateos, José María, Luciani, Alessandro, Loffing, Johannes, University of Zurich, and Loffing, Johannes

Subjects

Microscopy, 2727 Nephrology, 10017 Institute of Anatomy, Nephrology, Humans, 570 Life sciences, biology, Kidney Diseases, 610 Medicine & health, Nephrons, 10024 Center for Microscopy and Image Analysis, Kidney, 10052 Institute of Physiology

Abstract

The kidney is a structurally and functionally complex organ responsible for the control of water, ion, and other solute homeostasis. Moreover, the kidneys excrete metabolic waste products and produce hormones, such as renin and erythropoietin. The functional unit of the kidney is the nephron, which is composed by a serial arrangement of a filter unit called the renal corpuscle and several tubular segments that modulate the filtered fluid by reabsorption and secretion. Within each kidney, thousands of nephrons are closely intermingled and surrounded by an intricate network of blood vessels and various interstitial cell types, including fibroblasts and immune cells. This complex tissue architecture is essential for proper kidney function. In fact, kidney disease is often reflected or even caused by a derangement of the histologic structures. Frequently, kidney histology is studied using microscopic analysis of 2-dimensional tissue sections, which, however, misses important 3-dimensional spatial information. Reconstruction of serial sections tries to overcome this limitation, but is technically challenging, time-consuming, and often inherently linked to sectioning artifacts. In recent years, advances in tissue preparation (e.g., optical clearing) and new light- and electron-microscopic methods have provided novel avenues for 3-dimensional kidney imaging. Combined with novel machine-learning algorithms, these approaches offer unprecedented options for large-scale and automated analysis of kidney structure and function. This review provides a brief overview of these emerging imaging technologies and presents key examples of how these approaches are already used to study the normal and the diseased kidney.

Published

2022

222. When the progresses in neonatology lead to severe congenital nephron deficit: is there a pilot in the NICU?

Author

Silvia Iacobelli and Jean-Pierre Guignard

Subjects

Nephrology, medicine.medical_specialty, Pediatrics, Infant, Premature, Diseases, Nephron, Infant, Newborn, Diseases, Pregnancy, Intensive Care Units, Neonatal, Internal medicine, Humans, Medicine, Neonatology, Growth retardation, business.industry, Infant, Newborn, Nephrons, Infant, Low Birth Weight, medicine.disease, Low birth weight, medicine.anatomical_structure, Premature birth, Pediatrics, Perinatology and Child Health, Female, medicine.symptom, business

Abstract

Advances in the care of neonates to the extreme limits of viability have increased the risk of severe comorbidities in surviving preemies. The respiratory and the neurodevelopmental consequences of premature birth and/or intra-uterine growth retardation have been well described. Because of the usual clinical silence of the kidney, the long-term renal consequences of low birth weight have not been as well studied. A case report illustrates the risk factors associated with low birth weight and prematurity and discusses the pathogenesis of the late consequences of the congenital nephron deficit associated with a low birth weight. Practical recommendations are given for a tight follow-up of these newly born preemies.

Published

2021

223. Sex-specific adaptations to high-salt diet preserve electrolyte homeostasis with distinct sodium transporter profiles

Author

Alicia A. McDonough, Luciana C. Veiras, Donna L. Ralph, and Diana L. Torres-Pinzon

Subjects

Male, medicine.medical_specialty, Physiology, Sodium, chemistry.chemical_element, Kidney Tubules, Proximal, Sex Factors, Internal medicine, medicine, Animals, Solute Carrier Family 12, Member 3, Kidney Tubules, Collecting, Phosphorylation, Sodium Chloride, Dietary, Na+/K+-ATPase, Solute Carrier Family 12, Member 1, Sex Characteristics, Kidney, Sodium-Hydrogen Exchanger 3, urogenital system, Reabsorption, Membrane Transport Proteins, Transporter, Nephrons, Cell Biology, Water-Electrolyte Balance, Adaptation, Physiological, Sex specific, Mice, Inbred C57BL, medicine.anatomical_structure, Endocrinology, chemistry, Circulatory system, Female, Biomarkers, Electrolyte homeostasis, Research Article

Abstract

Kidneys continuously filter an enormous amount of sodium and adapt kidney Na+ reabsorption to match Na+ intake to maintain circulatory volume and electrolyte homeostasis. Males (M) respond to high-salt (HS) diet by translocating proximal tubule Na+/H+ exchanger isoform 3 (NHE3) to the base of the microvilli, reducing activated forms of the distal NaCl cotransporter (NCC) and epithelial Na+ channel (ENaC). Males (M) and females (F) on normal-salt (NS) diet present sex-specific profiles of “transporters” (cotransporters, channels, pumps, and claudins) along the nephron, e.g., F exhibit 40% lower NHE3 and 200% higher NCC abundance than M. We tested the hypothesis that adaptations to HS diet along the nephron will, likewise, exhibit sexual dimorphisms. C57BL/6J mice were fed for 15 days with 4% NaCl diet (HS) versus 0.26% NaCl diet (NS). On HS, M and F exhibited normal plasma [Na+] and [K+], similar urine volume, Na+, K+, and osmolal excretion rates normalized to body weight. In F, like M, HS lowered abundance of distal NCC, phosphorylated NCC, and cleaved (activated) forms of ENaC. The adaptations associated with achieving electrolyte homeostasis exhibit sex-dependent and independent mechanisms. Sex differences in baseline “transporters” abundance persist during HS diet, yet the fold changes during HS diet (normalized to NS) are similar along the distal nephron and collecting duct. Sex-dependent differences observed along the proximal tubule during HS show that female kidneys adapt differently from patterns reported in males, yet achieve and maintain fluid and electrolyte homeostasis.

Published

2021

224. Single-cell RNA sequencing reveals differential cell cycle activity in key cell populations during nephrogenesis

Author

Andrew J. Bodnar, Andrew Clugston, Débora M. Cerqueira, Dennis Kostka, Jacqueline Ho, and Abha S. Bais

Subjects

Cell type, Cellular differentiation, Science, Kidney development, Nephron, Biology, Article, Mice, Pregnancy, medicine, Animals, Progenitor cell, Transcriptomics, Kidney Tubules, Distal, Kidney, Multidisciplinary, Sequence Analysis, RNA, urogenital system, Cell Cycle, High-throughput screening, Gene Expression Regulation, Developmental, Cell Differentiation, Nephrons, Cell cycle, medicine.disease, Cell biology, medicine.anatomical_structure, Differentiation, Medicine, Female, Single-Cell Analysis, Transcriptome, Kidney disease

Abstract

The kidney is a complex organ composed of more than 30 terminally differentiated cell types that all are required to perform its numerous homeostatic functions. Defects in kidney development are a significant cause of chronic kidney disease in children, which can lead to kidney failure that can only be treated by transplant or dialysis. A better understanding of molecular mechanisms that drive kidney development is important for designing strategies to enhance renal repair and regeneration. In this study, we profiled gene expression in the developing mouse kidney at embryonic day 14.5 at single-cell resolution. Consistent with previous studies, clusters with distinct transcriptional signatures clearly identify major compartments and cell types of the developing kidney. Cell cycle activity distinguishes between the “primed” and “self-renewing” sub-populations of nephron progenitors, with increased expression of the cell cycle-related genes Birc5, Cdca3, Smc2 and Smc4 in “primed” nephron progenitors. In addition, augmented expression of cell cycle related genes Birc5, Cks2, Ccnb1, Ccnd1 and Tuba1a/b was detected in immature distal tubules, suggesting cell cycle regulation may be required for early events of nephron patterning and tubular fusion between the distal nephron and collecting duct epithelia.

Published

2021

225. Pathomorphological sequence of nephron loss in diabetic nephropathy

Author

Hermann-Josef Gröne, Jana Löwen, Felix Bestvater, Wilhelm Kriz, Marie-Luise Groß-Weißmann, and Elisabeth F. Gröne

Subjects

Mesangial matrix expansion, Pathology, medicine.medical_specialty, Physiology, Biopsy, Nephron, urologic and male genital diseases, Capillary Permeability, Diabetic nephropathy, Glomerulonephritis, Microscopy, Electron, Transmission, Glomerular Basement Membrane, Humans, Medicine, Diabetic Nephropathies, Sequence (medicine), Neovascularization, Pathologic, Podocytes, urogenital system, business.industry, Glomerular basement membrane, Endothelial Cells, Bowman Capsule, Nephrons, medicine.disease, Fibrosis, female genital diseases and pregnancy complications, Capillaries, medicine.anatomical_structure, Mesangium, Disease Progression, Tubulointerstitial fibrosis, business

Abstract

Based on analysis of 819 human biopsies, essential derangement in diabetic nephropathy consists of accumulation of worn-out glomerular basement membrane in the mesangium that may advance to global sclerosis. The most frequent pathway to nephron dropout starts with the penetration of glomerular capillaries into Bowman’s capsule (BC), delivering an exudate into BC that spreads around the entire glomerular circumference and via the glomerulotubular junction onto the tubule, resulting in glomerular sclerosis and chronic tubulointerstitial damage.

Published

2021

226. Molecular Mechanisms of Renal Magnesium Reabsorption

Author

Yujiro Maeoka, David H. Ellison, and James A. McCormick

Subjects

Kidney, urogenital system, Reabsorption, Chemistry, Magnesium, Reviews, TRPM Cation Channels, chemistry.chemical_element, Nephrons, General Medicine, Nephron, Protein Serine-Threonine Kinases, Renal Reabsorption, Cell biology, medicine.anatomical_structure, Nephrology, Paracellular transport, Claudins, medicine, Humans, Distal convoluted tubule, Transcellular, Homeostasis

Abstract

Magnesium is an essential cofactor in many cellular processes, and aberrations in magnesium homeostasis can have life-threatening consequences. The kidney plays a central role in maintaining serum magnesium within a narrow range (0.70-1.10 mmol/L). Along the proximal tubule and thick ascending limb, magnesium reabsorption occurs via paracellular pathways. Members of the claudin family form the magnesium pores in these segments, and also regulate magnesium reabsorption by adjusting the transepithelial voltage that drives it. Along the distal convoluted tubule transcellular reabsorption via heteromeric TRPM6/7 channels predominates, although paracellular reabsorption may also occur. In this segment, the NaCl cotransporter plays a critical role in determining transcellular magnesium reabsorption. Although the general machinery involved in renal magnesium reabsorption has been identified by studying genetic forms of magnesium imbalance, the mechanisms regulating it are poorly understood. This review discusses pathways of renal magnesium reabsorption by different segments of the nephron, emphasizing newer findings that provide insight into regulatory process, and outlining critical unanswered questions.

Published

2021

227. Image analysis techniques to map pyramids, pyramid structure, glomerular distribution, and pathology in the intact human kidney from 3-D MRI

Author

Neda Parvin, Jamal J. Derakhshan, Kevin M. Bennett, Jennifer R. Charlton, Yanzhe Xu, Darya Morozov, Scott C. Beeman, Edwin J. Baldelomar, Fei Gao, and Teresa Wu

Subjects

Physiology, Kidney Glomerulus, 030232 urology & nephrology, Human kidney, Nephrons, Anatomy, Biology, Kidney, Magnetic Resonance Imaging, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Ferritins, Innovative Methodology, Image Processing, Computer-Assisted, Humans, Kidney Diseases, Pyramid (image processing), Urinary Tract

Abstract

Kidney pathologies are often highly heterogeneous. To comprehensively understand kidney structure and pathology, it is critical to develop tools to map tissue microstructure in the context of the whole, intact organ. Magnetic resonance imaging (MRI) can provide a unique, three-dimensional view of the kidney and allows for measurements of multiple pathological features. Here, we developed a platform to systematically render and map gross and microstructural features of the human kidney based on three-dimensional MRI. These features include pyramid number and morphology as well as the associated medulla and cortex. In a subset of these kidneys, we also mapped individual glomeruli and glomerular volumes using cationic ferritin-enhanced MRI to report intrarenal heterogeneity in glomerular density and size. Finally, we rendered and measured regions of nephron loss due to pathology and individual glomerular volumes in each pyramidal unit. This work provides new tools to comprehensively evaluate the kidney across scales, with potential applications in anatomic and physiological research, transplant allograft evaluation, biomarker development, biopsy guidance, and therapeutic monitoring. These image rendering and analysis tools could eventually impact the field of transplantation medicine to improve longevity matching of donor allografts and recipients and reduce discard rates through the direct assessment of donor kidneys. NEW & NOTEWORTHY We report the application of cutting-edge image analysis approaches to characterize the pyramidal geometry, glomerular microstructure, and heterogeneity of the whole human kidney imaged using MRI. This work establishes a framework to improve the detection of microstructural pathology to potentially facilitate disease monitoring or transplant evaluation in the individual kidney.

Published

2021

228. Acetyl-CoA is a key molecule for nephron progenitor cell pool maintenance.

Author

Diniz F, Ngo NYN, Colon-Leyva M, Edgington-Giordano F, Hilliard S, Zwezdaryk K, Liu J, El-Dahr SS, and Tortelote GG

Subjects

Acetyl Coenzyme A metabolism, Sodium Acetate metabolism, Stem Cells metabolism, Nephrons, Kidney metabolism

Abstract

Nephron endowment at birth impacts long-term renal and cardiovascular health, and it is contingent on the nephron progenitor cell (NPC) pool. Glycolysis modulation is essential for determining NPC fate, but the underlying mechanism is unclear. Combining RNA sequencing and quantitative proteomics we identify 267 genes commonly targeted by Wnt activation or glycolysis inhibition in NPCs. Several of the impacted pathways converge at Acetyl-CoA, a co-product of glucose metabolism. Notably, glycolysis inhibition downregulates key genes of the Mevalonate/cholesterol pathway and stimulates NPC differentiation. Sodium acetate supplementation rescues glycolysis inhibition effects and favors NPC maintenance without hindering nephrogenesis. Six2Cre-mediated removal of ATP-citrate lyase (Acly), an enzyme that converts citrate to acetyl-CoA, leads to NPC pool depletion, glomeruli count reduction, and increases Wnt4 expression at birth. Sodium acetate supplementation counters the effects of Acly deletion on cap-mesenchyme. Our findings show a pivotal role of acetyl-CoA metabolism in kidney development and uncover new avenues for manipulating nephrogenesis and preventing adult kidney disease., (© 2023. The Author(s).)

Published

2023

229. Netrin 1 directs vascular patterning and maturity in the developing kidney.

Author

Honeycutt SE, N'Guetta PY, Hardesty DM, Xiong Y, Cooper SL, Stevenson MJ, and O'Brien LL

Subjects

Animals, Mice, Netrin-1 genetics, Phenotype, Kidney, Nephrons

Abstract

The intricate vascular system of the kidneys supports body fluid and organ homeostasis. However, little is known about how vascular architecture is established during kidney development. More specifically, how signals from the kidney influence vessel maturity and patterning remains poorly understood. Netrin 1 (Ntn1) is a secreted ligand that is crucial for vessel and neuronal guidance. Here, we demonstrate that Ntn1 is expressed by Foxd1+ stromal progenitors in the developing mouse kidney and conditional deletion (Foxd1GC/+;Ntn1fl/fl) results in hypoplastic kidneys with extended nephrogenesis. Wholemount 3D analyses additionally revealed the loss of a predictable vascular pattern in Foxd1GC/+;Ntn1fl/fl kidneys. As vascular patterning has been linked to vessel maturity, we investigated arterialization. Quantification of the CD31+ endothelium at E15.5 revealed no differences in metrics such as the number of branches or branch points, whereas the arterial vascular smooth muscle metrics were significantly reduced at both E15.5 and P0. In support of our observed phenotypes, whole kidney RNA-seq revealed disruptions to genes and programs associated with stromal cells, vasculature and differentiating nephrons. Together, our findings highlight the significance of Ntn1 to proper vascularization and kidney development., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2023. Published by The Company of Biologists Ltd.)

Published

2023

230. Distribution of nephrons in the head kidney of three species of Sebastes (Teleostei: Scorpaenidae).

Author

Oh HY, Shin SR, Park JJ, Kim HJ, and Lee JS

Subjects

Animals, Head Kidney, Kidney, Fishes, Nephrons, Perciformes

Abstract

Nephrons are generally not distributed in the head kidney of teleost. Nonetheless, in this study, the nephron structure was identified in the head kidney of three species of Sebastes (Sebastes inermis, Sebastes schlegelii and Sebastes thompsoni). The kidney is Y shaped, with the development in the head kidney. The nephron structure was confirmed in the head kidney and body kidney. In addition, the nephron consisted of renal corpuscles and tubules, and the renal corpuscle consisted of the Bowman's capsule and glomerulus. Histologically, previous studies reported that the nephron structure is similar to that of other marine teleost. The renal tubule is a simple columnar epithelial layer with microvilli and cilia on the free surface, which is observed as a brush border. The Rrk (relative area ratio of kidney to body surface) was 5.14%, 7.58% and 5.17% in S. inermis, S. schlegelii and S. thompsoni, respectively. The Gar (glomerular area ratio of the head kidney) was higher in the central area than in the peripheral area, and species, which showed significant difference (P < 0.05), were in the following order: S. thompsoni (1.60%) > S. schlegelii (0.90%) > S. inermis (0.66%)., (© 2023 Fisheries Society of the British Isles.)

Published

2023

231. Long-term viable chimeric nephrons generated from progenitor cells are a reliable model in cisplatin-induced toxicity.

Author

Matsui K, Yamanaka S, Chen S, Matsumoto N, Morimoto K, Kinoshita Y, Inage Y, Saito Y, Takamura T, Fujimoto T, Tajiri S, Matsumoto K, Kobayashi E, and Yokoo T

Subjects

Mice, Rats, Animals, Humans, Regeneration, Nephrons, Stem Cells, Kidney, Cisplatin toxicity

Abstract

Kidney organoids have shown promise as evaluation tools, but their in vitro maturity remains limited. Transplantation into adult mice has aided in maturation; however, their lack of urinary tract connection limits long-term viability. Thus, long-term viable generated nephrons have not been demonstrated. In this study, we present an approachable method in which mouse and rat renal progenitor cells are injected into the developing kidneys of neonatal mice, resulting in the generation of chimeric nephrons integrated with the host urinary tracts. These chimeric nephrons exhibit similar maturation to the host nephrons, long-term viability with excretion and reabsorption functions, and cisplatin-induced renal injury in both acute and chronic phases, as confirmed by single-cell RNA-sequencing. Additionally, induced human nephron progenitor cells differentiate into nephrons within the neonatal kidneys. Collectively, neonatal injection represents a promising approach for in vivo nephron generation, with potential applications in kidney regeneration, drug screening, and pathological analysis., (© 2023. The Author(s).)

Published

2023

232. [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

233. Kidney Bioengineering for Transplantation.

Author

Ibi Y and Nishinakamura R

Subjects

Humans, Kidney, Bioengineering, Nephrons, Tissue Scaffolds, Induced Pluripotent Stem Cells, Kidney Transplantation adverse effects

Abstract

The kidney is an important organ for maintenance of homeostasis in the human body. As renal failure progresses, renal replacement therapy becomes necessary. However, there is a chronic shortage of kidney donors, creating a major problem for transplantation. To solve this problem, many strategies for the generation of transplantable kidneys are under investigation. Since the first reports describing that nephron progenitors could be induced from human induced pluripotent stem cells, kidney organoids have been attracting attention as tools for studying human kidney development and diseases. Because the kidney is formed through the interactions of multiple renal progenitors, current studies are investigating ways to combine these progenitors derived from human induced pluripotent stem cells for the generation of transplantable kidney organoids. Other bioengineering strategies, such as decellularization and recellularization of scaffolds, 3-dimensional bioprinting, interspecies blastocyst complementation and progenitor replacement, and xenotransplantation, also have the potential to generate whole kidneys, although each of these strategies has its own challenges. Combinations of these approaches will lead to the generation of bioengineered kidneys that are transplantable into humans., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2023

234. Hands-on nephron activity during lecture of urine formation.

Author

Lehman T

Subjects

Humans, Hand, Nephrons, Students

Abstract

Urine formation in the nephron can be a very intimidating concept to students. This straightforward activity, performed by students during the nephron lecture, can help enforce the concepts as they uncover the structures and functions involved in urine formation. NEW & NOTEWORTHY A straightforward activity for students to demonstrate the steps of urine formation and apply it to clinical relevance, this easy-to-develop activity is utilized during lecture for students to tactically "see" how the various parts of the nephron function.

Published

2023

235. NGAL is a Novel Target in Hypertension by Modulating the NCC-Mediated Renal Na Balance.

Author

Bonnard B, El Moghrabi S, Ueda K, Lattenist L, Soulie M, López-Andrés N, Xhaard C, Shimosawa T, Rossignol P, and Jaisser F

Subjects

Mice, Animals, Solute Carrier Family 12, Member 3 metabolism, Lipocalin-2 genetics, Lipocalin-2 metabolism, Kidney metabolism, Sodium metabolism, Mice, Knockout, Aldosterone, Hypertension

Abstract

Background: The expression of NGAL/lcn2 (neutrophil gelatinase-associated lipocalin) is directly modulated by mineralocorticoid receptor activation but its role in blood pressure control is unclear., Methods: a potential relationship between NGAL plasma levels, systolic blood pressure and urinary Na excretion was assessed in the STANISLAS cohort. The specific role of NGAL/lcn2 in salt-sensitive hypertension was studied using lcn2-knockout mice (lcn2 KO) fed with low-Na diet (0Na)., Results: we show that NGAL plasma levels positively correlate with systolic blood pressure, whereas they negatively correlate with urinary Na excretion in subjects of the STANISLAS cohort. Prolonged feeding of lcn2 KO mice with a 0Na diet induced lower systolic blood pressure than that of the control group (wildtype), suggesting a role for NGAL/lcn2 in Na-balance homeostasis. Short-term or prolonged 0Na increased Na-Cl cotransporter (NCC) phosphorylation in the cortex of wildtype mice, which was prevented in lcn2 KO mice. Recombinant mouse lcn2 injections in lcn2 KO mice induced NCC phosphorylation in the kidney cortex, associated with decreased urinary Na excretion. Ex vivo experiments using kidney slices from lcn2 KO mice showed increased NCC phosphorylation by recombinant murine lcn2. In addition, recombinant murine lcn2 induced activation of CamK2β (calcium/calmodulin-dependent protein kinase II β subunit) phosphorylation in lcn2 KO mice and in kidney slices, providing an underlying mechanism involved in lcn2-induced NCC phosphorylation. Indeed, the inhibition of CamK2β prevented NCC phosphorylation induced by recombinant lcn2 in kidney slices., Conclusions: we highlight a novel role of NGAL/lcn2 as a modulator of the activity of the renal sodium transporter NCC affecting salt-sensitive blood pressure., Competing Interests: Disclosures None.

Published

2023

236. The ablative effect of mitomycin reverse thermal gel: Expanding the role for nephron preservation therapy in low grade upper tract urothelial carcinoma.

Author

Kaimakliotis HZ, Tachibana I, Woldu S, Labbate C, Jacob J, Murray K, Rose K, Sexton W, Dickstein R, Linehan J, Nieder A, Bjurlin M, Humphreys M, Ghodoussipour S, Quek M, O'Donnell M, Eisner BH, Matin SF, Lotan Y, and Feldman AS

Subjects

Humans, Mitomycin pharmacology, Mitomycin therapeutic use, Retrospective Studies, Ureteroscopy methods, Nephrons, Carcinoma, Transitional Cell drug therapy, Carcinoma, Transitional Cell surgery, Urinary Bladder Neoplasms, Ureteral Neoplasms drug therapy, Ureteral Neoplasms surgery, Ureteral Neoplasms pathology, Kidney Neoplasms drug therapy, Kidney Neoplasms surgery, Kidney Neoplasms pathology

Abstract

Purpose: Assess the real-world ablative effect of mitomycin reverse thermal gel for low-grade upper tract urothelial carcinoma (UTUC) in patients who undergo biopsy only or partial ablation and evaluate utility of complete ablation prior to UGN-101., Material and Methods: We retrospectively reviewed low-grade UTUC patients treated with UGN-101 from 15 high-volume centers. Patients were categorized based on initial endoscopic ablation (biopsy only, partial ablation, or complete ablation) and by size of remaining tumor (complete ablation, <1cm, 1-3cm, or >3cm) prior to UGN-101. The primary outcome was rendered disease free (RDF) rate at first post-UGN-101 ureteroscopy (URS), defined as complete response or partial response with minimal mechanical ablation to endoscopically clear the upper tract of visible disease., Results: One hundred and sixteen patients were included for analysis after excluding those with high-grade disease. At first post-UGN-101 URS, there were no differences in RDF rates between those who at initial URS (pre-UGN-101) had complete ablation (RDF 77.0%), partial ablation (RDF 55.9%) or biopsy only (RDF 66.7%) (P = 0.14). Similarly, a complimentary analysis focusing on tumor size (completely ablated, <1cm, 1-3cm or >3cm) prior to UGN-101 induction did not demonstrate significant differences in RDF rates (P = 0.17)., Conclusion: The results of the early real-world experience suggest that UGN-101 may play a role in initial chemo-ablative cytoreduction of larger volume low-grade tumors that may not initially appear to be amenable to renal preservation. Further studies will help to better quantify the chemo-ablative effect and to identify clinical factors for patient selection., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

237. Generating Kidney Organoids in Suspension from Induced Pluripotent Stem Cells.

Author

Gao L, Wang Y, Wang G, Wu H, Yan Q, Wang J, Liu F, Fu H, Li W, Hu L, and Mao J

Subjects

Animals, Kidney, Nephrons, Kidney Glomerulus, Suspensions, Organoids, Induced Pluripotent Stem Cells

Abstract

Kidney organoids can be generated from induced pluripotent stem cells (iPSCs) through various approaches. These organoids hold great promise for disease modeling, drug screening, and potential therapeutic applications. This article presents a step-by-step procedure to create kidney organoids from iPSCs, starting from the posterior primitive streak (PS) to the intermediate mesoderm (IM). The approach relies on the APEL 2 medium, which is a defined, animal component-free medium. It is supplemented with a high concentration of WNT agonist (CHIR99021) for a duration of 4 days, followed by fibroblast growth factor 9 (FGF9)/heparin and a low concentration of CHIR99021 for an additional 3 days. During this process, emphasis is given to selecting the optimal cell density and CHIR99021 concentration at the start of iPSCs, as these factors are critical for successful kidney organoid generation. An important aspect of this protocol is the suspension culture in a low adherent plate, allowing the IM to gradually develop into nephron structures, encompassing glomerular, proximal tubular, and distal tubular structures, all presented in a visually comprehensible format. Overall, this detailed protocol offers an efficient and specific technique to produce kidney organoids from diverse iPSCs, ensuring successful and consistent results.

Published

2023

238. Creating a kidney organoid-vasculature interaction model using a novel organ-on-chip system

Author

Amanda Bas-Cristóbal Menéndez, Z. Du, T. P. P. van den Bosch, A. Othman, N. Gaio, C. Silvestri, W. Quirós, H. Lin, S. Korevaar, A. Merino, J. Mulder, M. J. Hoogduijn, Pediatrics, Internal Medicine, and Pathology

Subjects

Organoids, Multidisciplinary, Neovascularization, Pathologic, SDG 3 - Good Health and Well-being, Induced Pluripotent Stem Cells, Human Umbilical Vein Endothelial Cells, Animals, Humans, Nephrons, Kidney

Abstract

Kidney organoids derived from human induced pluripotent stem cells (iPSCs) have proven to be a valuable tool to study kidney development and disease. However, the lack of vascularization of these organoids often leads to insufficient oxygen and nutrient supply. Vascularization has previously been achieved by implantation into animal models, however, the vasculature arises largely from animal host tissue. Our aim is to transition from an in vivo implantation model towards an in vitro model that fulfils the advantages of vascularization whilst being fully human-cell derived. Our chip system supported culturing of kidney organoids, which presented nephron structures. We also showed that organoids cultured on chip showed increased maturation of endothelial populations based on a colocalization analysis of endothelial markers. Moreover, we observed migration and proliferation of human umbilical vein endothelial cells (HUVECs) cultured in the channels of the chip inside the organoid tissue, where these HUVECs interconnected with endogenous endothelial cells and formed structures presenting an open lumen resembling vessels. Our results establish for the first-time vascularization of kidney organoids in HUVEC co-culture conditions using a microfluidic organ-on-chip. Our model therefore provides a useful insight into kidney organoid vascularization in vitro and presents a tool for further studies of kidney development and drug testing, both for research purposes and pre-clinical applications.

Published

2022

239. Kidney autotransplantation after nephrectomy and work bench surgery as an ultimate approach to nephron-sparing surgery

Author

Michael Stöckle, Martin Janssen, Ines Philipps, Stefan Siemer, Carsten-Henning Ohlmann, Zentia Bütow, and Johannes Linxweiler

Subjects

Male, medicine.medical_treatment, 030232 urology & nephrology, Nephrectomy, 0302 clinical medicine, Postoperative Complications, Renal cell carcinoma, Child, Kidney transplantation, Kidney, Graft Survival, Middle Aged, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Prognosis, Kidney Neoplasms, Survival Rate, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Child, Preschool, Female, Hemodialysis, Adult, medicine.medical_specialty, Adolescent, lcsh:Surgery, lcsh:RC254-282, Transplantation, Autologous, 03 medical and health sciences, Young Adult, medicine, Humans, Survival rate, Carcinoma, Renal Cell, Aged, Retrospective Studies, business.industry, Research, lcsh:RD1-811, Nephrons, medicine.disease, Kidney Transplantation, Autotransplantation, Surgery, Transplantation, Quality of Life, business, Organ Sparing Treatments, Follow-Up Studies

Abstract

Background Kidney autotransplantation (KAT) is the ultimate approach for nephron-sparing surgery. It is a rarely used method in renal tumor surgery today as minimal invasive and open techniques for nephron-sparing surgery improve constantly. In this publication, the complication rate and the long-term functional and oncological outcome at a single center are analyzed. Methods A prospectively constructed database of patients with renal tumors who underwent renal surgery was retrospectively analyzed to identify patients with KAT and describe surgical and oncological outcomes and to obtain long-term follow-up. Data collection included detailed surgical technique, complications (Clavian-Dindo), and hospital stay, as well as functional and oncological outcome and long-term follow-up. Results Between 1976 and 2013, 12 patients (median age 50.5 years) underwent KAT for highly complex renal masses: in five cases for complex renal cell carcinoma (RCC), five cases for complex upper urinary tract carcinoma (UTUC), one case for a renal metastasis, and one case for nephroblastoma. The nephrectomy or nephron-ureterectomy was performed open via a flank or transabdominal. The median surgical time was 360 min (range 270–490 min). Intraoperatively, six cases required blood transfusions (50%). Six patients (50%) developed significant postoperative complications (Clavian-Dindo > 2). In two patients, intermittent hemodialysis for delayed graft function (16.6%) was needed, and in six cases (50%), additional blood transfusions postoperatively were necessary. At discharge from hospital, all patients had functioning grafts. The median hospital stay was 29.5 days (range 18–35). At follow-up (median follow-up of 83.5 ± 40.7 months), six patients had died (50%)—all with functioning grafts (free from hemodialysis). In five cases, recurrence of primary tumor or metastatic disease was recorded. In four cases, the recurrent carcinoma could be resected; in detail, UTUC in three cases and one partial nephrectomy of the autotransplanted kidney was performed. One patient suffered from bone and lung metastasis. Two patients died finally tumor-related. Five patients (41.6%) are presently alive, without evidence of tumor relapse. One patient developed terminal renal failure requiring hemodialysis 105 months after autotransplantation. One additional patient was lost to follow-up; after 69 months, this patient had a functioning kidney and no evidence of disease-recurrence at the last follow-up. A cumulative number of 1424 months without hemodialysis was gained for these 12 patients. In the literature to date, most KAT are performed in benign disease, with minor but frequent complication. Here, we report the largest series of KAT for malignant kidney tumors. The complication rates are similar, compared to the recently reported series for benign indications with an improved graft survival rate. Since KAT requires a complex and challenging surgical approach, it should be performed by experienced kidney transplant surgeons. Conclusion In very complex cases involving renal tumors and multi-morbidity, patients should be counseled well before KAT is considered. At the same time, KAT should not be abandoned in these very rare cases, especially when a nephron-sparing approach is otherwise not feasible. KAT can maintain renal function and quality of life and extend expectancy of life.

Published

2022

240. Sex differences in circadian regulation of kidney function of the mouse

Author

Anita T. Layton and Michelle L. Gumz

Subjects

Male, Mice, Sex Characteristics, Physiology, Sodium, Animals, ARNTL Transcription Factors, Membrane Transport Proteins, Water, Female, Nephrons, Kidney, Circadian Rhythm

Abstract

Kidney function is regulated by the circadian clock. Not only do glomerular filtration rate and urinary excretion oscillate during the day, but the expressions of several renal transporter proteins also exhibit circadian rhythms. Interestingly, the circadian regulation of these transporters appears to be sexually dimorphic. Thus, the goal of the present study was to investigate the mechanisms by which the kidney function of the mouse is modulated by sex and time of day. To accomplish this, we developed the first computational models of epithelial water and solute transport along the mouse nephrons that represent the effects of sex and the circadian clock on renal hemodynamics and transporter activity. We conducted simulations to study how the circadian control of renal transport genes affects overall kidney function and how that process differs between male and female mice. Simulation results predicted that tubular transport differs substantially among segments, with relative variations in water and Na

Published

2022

241. Low Nephron Number Induced by Maternal Protein Restriction Is Prevented by Nicotinamide Riboside Supplementation Depending on Sirtuin 3 Activation

Author

Anna Pezzotta, Luca Perico, Marina Morigi, Daniela Corna, Monica Locatelli, Carlamaria Zoja, Ariela Benigni, Giuseppe Remuzzi, and Barbara Imberti

Subjects

PPAR gamma, Mice, renal development, fetal programming, glomerular number, low protein diet, sirtuin 3, mitochondria, nicotinamide riboside, Sirtuin 3, Dietary Supplements, Diet, Protein-Restricted, Animals, Nephrons, General Medicine, NAD

Abstract

A reduced nephron number at birth, due to critical gestational conditions, including maternal malnutrition, is associated with the risk of developing hypertension and chronic kidney disease in adulthood. No interventions are currently available to augment nephron number. We have recently shown that sirtuin 3 (SIRT3) has an important role in dictating proper nephron endowment. The present study explored whether SIRT3 stimulation, by means of supplementation with nicotinamide riboside (NR), a precursor of the SIRT3 co-substrate nicotinamide adenine dinucleotide (NAD+), was able to improve nephron number in a murine model of a low protein (LP) diet. Our findings show that reduced nephron number in newborn mice (day 1) born to mothers fed a LP diet was associated with impaired renal SIRT3 expression, which was restored through supplementation with NR. Glomerular podocyte density, as well as the rarefaction of renal capillaries, also improved through NR administration. In mechanistic terms, the restoration of SIRT3 expression through NR was mediated by the induction of proliferator-activated receptor γ (PPARγ) coactivator-1α (PGC-1α). Moreover, NR restored SIRT3 activity, as shown by the reduction of the acetylation of optic atrophy 1 (OPA1) and superoxide dismutase 2 (SOD2), which resulted in improved mitochondrial morphology and protection against oxidative damage in mice born to mothers fed the LP diet. Our results provide evidence that it is feasible to prevent nephron mass shortage at birth through SIRT3 boosting during nephrogenesis, thus providing a therapeutic option to possibly limit the long-term sequelae of reduced nephron number in adulthood.

Published

2022

242. Evolving concepts of TRPV4 in controlling flow-sensitivity of the renal nephron

Author

Kyrylo, Pyrshev, Anna, Stavniichuk, Viktor N, Tomilin, Oleg, Zaika, and Oleh, Pochynyuk

Subjects

Albumins, TRPV Cation Channels, Water, Nephrons, Kidney, Reactive Oxygen Species, Hormones

Abstract

Kidneys are central for whole body water and electrolyte balance by first filtering plasma at the glomeruli and then processing the filtrate along the renal nephron until the final urine is produced. Renal nephron epithelial cells mediate transport of water and solutes which is under the control of systemic hormones as well as local mechanical stimuli arising from alterations in fluid flow. TRPV4 is a mechanosensitive Ca

Published

2022

243. Omics profiling identifies the regulatory functions of the MAPK/ERK pathway in nephron progenitor metabolism

Author

Hyuk Nam Kwon, Kristen Kurtzeborn, Vladislav Iaroshenko, Xing Jin, Abigail Loh, Nathalie Escande-Beillard, Bruno Reversade, Sunghyouk Park, Satu Kuure, Veterinary Biosciences, Mitochondrial Morphogenesis, Kidney development, Helsinki Institute of Life Science HiLIFE, STEMM - Stem Cells and Metabolism Research Program, Helsinki Institute of Life Science HiLIFE, Infra, Biosciences, Reversade, Bruno, Kwon, H.N., Kurtzeborn, K., Laroshenko, V., Jin, X., Loh, A., Escande-Beillard, N., Park, S., Kuure, S., and School of Medicine

Subjects

Proline, MAP Kinase Signaling System, Stem Cells, Organogenesis, Cell Differentiation, Nephrons, Tissue-specific progenitors, Development, Kidney, Pycr1/Pycr2, Differentiation, Intracellular signaling cascades, Metabolism, Receptor tyrosine kinase signaling, Self-renewal, Mice, Developmental biology, Animals, 1182 Biochemistry, cell and molecular biology, Amino Acids, Oxidoreductases, Pyruvates, Molecular Biology, Developmental Biology

Abstract

Nephron endowment is defined by fetal kidney growth and crucially dictates renal health in adults. Defects in the molecular regulation of nephron progenitors contribute to only a fraction of reduced nephron mass cases, suggesting alternative causative mechanisms. The importance of MAPK/ERK activation in nephron progenitor maintenance has been previously demonstrated, and here, we characterized the metabolic consequences of MAPK/ERK deficiency. Liquid chromatography/mass spectrometry-based metabolomics profiling identified 42 reduced metabolites, of which 26 were supported by in vivo transcriptional changes in MAPK/ERK-deficient nephron progenitors. Among these, mitochondria, ribosome and amino acid metabolism, together with diminished pyruvate and proline metabolism, were the most affected pathways. In vitro cultures of mouse kidneys demonstrated a dosage-specific function for pyruvate in controlling the shape of the ureteric bud tip, a regulatory niche for nephron progenitors. In vivo disruption of proline metabolism caused premature nephron progenitor exhaustion through their accelerated differentiation in pyrroline-5-carboxylate reductases 1 (Pycr1) and 2 (Pycr2) double-knockout kidneys. Pycr1/Pycr2-deficient progenitors showed normal cell survival, indicating no changes in cellular stress. Our results suggest that MAPK/ERK-dependent metabolism functionally participates in nephron progenitor maintenance by monitoring pyruvate and proline biogenesis in developing kidneys., This work was supported by funds from the Academy of Finland (309997 to S.K.), the Finnish Cultural Foundation (Suomen Kulttuurirahasto; to S.K. and H.N.K.), the Maud Kuistila Foundation (Maud Kuistilan Muistosa?a?tio?; to S.K. and K.K.), Pediatric Cancer Foundation Va?re (Lasten Syo?pa?sa?a?tio? Va?reen; to S.K.), Aamu Pediatric Cancer Foundation (S.K.) and the Orion Research Foundation (Orionin Tutkimussa?a?tio?; K.K.). Open Access funding provided by the Aamu Pediatric Cancer Foundation. Deposited in PMC for immediate release.

Published

2022

244. Foxc1 and Foxc2 are indispensable for the maintenance of nephron and stromal progenitors in the developing kidney

Author

Masaru Motojima, Masayuki Tanaka, and Tsutomu Kume

Subjects

Organogenesis, RNA, Forkhead Transcription Factors, Nephrons, Cell Biology, Kidney

Abstract

Nephron development proceeds with reciprocal interactions among three layers: nephron progenitors (NPs), ureteric buds and stromal progenitors (SPs). We found that Foxc1 and Foxc2 (Foxc1/2) are expressed in NPs and SPs. Systemic deletion of Foxc1/2 2 days after the onset of metanephros development (embryonic day 13.5) resulted in the epithelialization of NPs and ectopic formation of renal vesicles. NP-specific deletion did not cause these phenotypes, indicating that Foxc1/2 in other cells (likely in SPs) contributed to the maintenance of NPs. Single-cell RNA-sequencing analysis revealed the existence of NP and SP subpopulations, the border between committed NPs and renewing NPs, and similarity between the cortical interstitium and vascular smooth muscle type cells. Integrated analysis of the control and Foxc1/2 knockout data indicated transformation of some NPs to strange cells expressing markers of the vascular endothelium, reduced numbers of self-renewing NP and SP populations, and downregulation of crucial genes for kidney development, such as Fgf20 and Frem1 in NPs, and Foxd1 and Sall1 in SPs. It also revealed upregulation of genes that were not usually expressed in NPs and SPs. Thus, Foxc1/2 maintain NPs and SPs by regulating the expression of multiple genes.

Published

2022

245. Inhibiting the proximal nephron in acute heart failure - emerging data on kidney safety and efficacy

Author

Pieter, Martens

Subjects

Heart Failure, Humans, Nephrons, Cardiology and Cardiovascular Medicine, Kidney

Published

2022

246. Youth with single kidneys-what is the evidence of risk?

Author

Julie R. Ingelfinger

Subjects

Solitary Kidney, Adolescent, Nephrology, Risk Factors, Humans, Nephrons, Renal Insufficiency, Chronic, Child, Kidney

Abstract

Children and youth with a congenital or acquired single functioning kidney are at risk for development of kidney injury and chronic kidney disease. How best to use surrogate measures associated with risk factors poses many problems. The risk of progressive kidney disease for those with a single functioning kidney varies, and how to assess it remains imperfect. Developing better measures to determine the risk of chronic kidney disease-renal functional reserve and imaging that includes nephron number-may be within reach and would likely positively affect the outcome.

Published

2022

247. The Effect of Modified Biolasol Solution on the Efficacy of Storing Isolated Porcine Kidneys.

Author

Ostróżka-Cieślik, Aneta, Dolińska, Barbara, and Ryszka, Florian

Subjects

*ANIMAL experimentation, *ASPARTATE aminotransferase, *KIDNEY transplantation, *LACTATES, *PRESERVATION of organs, tissues, etc., *PROLACTIN, *SWINE, *VITAMIN C, *ALANINE aminotransferase, *NEPHRONS

Abstract

Biolasol is a newly developed solution for storing the liver, pancreas, kidneys, and heart by simple hypothermia. It exhibits high efficacy in maintaining structural and functional integrity of the graft prior to its transplantation. The solution was modified by the addition of ascorbic acid (0.088g/l) and ascorbic acid with prolactin (1 μg/l PRL + 0.088g/l vitamin C). The effectiveness of the obtained solutions in the protection of nephrons of isolated porcine kidneys was assessed based on the analysis of the activity of ALT (alanine aminotransferase), AST (aspartate aminotransferase), and LDH (lactate dehydrogenase) as well as lactate concentration determined in perfundates collected after 2 h (0′ and 30′ preservation) and 48 h (0′ and 30′ preservation) of graft storage. It has been found that the synergistic action of Biolasol components determines the integrity and stability of cell membranes, which in turn affects the proper functioning of the organ after transplantation. The addition of ascorbic acid and prolactin to Biolasol affects the maintenance of the normal cytoskeleton of the stored graft. [ABSTRACT FROM AUTHOR]

Published

2018

248. Maternal and environmental risk factors for neonatal AKI and its long-term consequences.

Author

Perico, Norberto, Askenazi, David, Cortinovis, Monica, and Remuzzi, Giuseppe

Subjects

*KIDNEY diseases, *NEPHRONS, *GESTATIONAL age, *PREMATURE infants, *NEWBORN infants

Abstract

Acute kidney injury (AKI) is a common and life-threatening complication in critically ill neonates. Gestational risk factors for AKI include premature birth, intrauterine growth restriction and low birthweight, which are associated with poor nephron development and are often the consequence of pre-gestational and gestational factors, such as poor nutritional status. Our understanding of how to best optimize renal development and prevent AKI is in its infancy; however, the identification of pre-gestational and gestational factors that increase the risk of adverse neonatal outcomes and the implementation of interventions, such as improving nutritional status early in pregnancy, have the potential to optimize fetal growth and reduce the risk of preterm birth, thereby improving kidney health. The overall risk of AKI among critically ill and premature neonates is exacerbated postnatally as these infants are often exposed to dehydration, septic shock and potentially nephrotoxic medications. Strategies to improve outcomes - for example, through careful evaluation of nephrotoxic drugs - may reduce the incidence of AKI and its consequences among this population. Management strategies and updated technology that will support neonates with AKI are greatly needed. Extremely premature infants and those who survive an episode of AKI should be screened for chronic kidney disease until early adulthood. Here, we provide an overview of our current understanding of neonatal AKI, focusing on its relationship to preterm birth and growth restriction. We describe factors that prevent optimal nephrogenesis during pregnancy and provide a framework for future explorations designed to maximize outcomes in this vulnerable population. [ABSTRACT FROM AUTHOR]

Published

2018

249. Renal function and blood pressure in 11 year old children born extremely preterm or small for gestational age.

Author

Vollsæter, Maria, Halvorsen, Thomas, Markestad, Trond, Øymar, Knut, Ueland, Per Magne, Meyer, Klaus, Midttun, Øivind, and Bjørke-Monsen, Anne-Lise

Subjects

*PREMATURE labor, *LOW birth weight, *NEPHRONS, *HYPERTENSION risk factors, *KIDNEY diseases, *GESTATIONAL age

Abstract

Background: Preterm birth and low birth weight are associated with reduced nephron numbers and increased risk of hypertension and kidney disease in later life. Aims: We tested the hypothesis that extremely preterm birth and intrauterine growth restriction is associated with decreased renal function in mid childhood. Methods: At 11 years of age the following measures were obtained in a regional cohort of children born extremely premature (EP, i.e. < 28 weeks gestational age—GA) or with extremely low birth weight (ELBW, i.e. BW < 1000 grams) and in matched controls born at term with appropriate BW (AGA): Height, weight, abdominal circumference, triceps and subscapular skin fold thicknesses, blood pressure, plasma levels of creatinine, cystatin C and symmetric dimethyl arginine (SDMA). Small for gestational age (SGA) was defined as a BW < 10th percentile for GA. Glomerular filtration rate (GFR) was estimated according to the equations by Schwartz, Zappitelli and Gao. Results: Fifty-seven of 61 eligible EP/ELBW children, 20 (35%) born SGA, and 54 controls, were assessed. Estimated GFR decreased while plasma SDMA increased from the children born AGA at term through those born preterm AGA to preterm SGA. Systolic BP was correlated to fat mass indices (p<0.03), but not to renal function (p>0.2) and did not differ between the groups. Conclusions: Children born EP/ELBW, particularly those born SGA, had impaired renal function at age 11 years as judged from estimated GFRs and plasma levels of SDMA. Since reduced renal function is associated with an increased risk of later disease, these children should be followed in order to minimize additional risk factors. [ABSTRACT FROM AUTHOR]

Published

2018

250. Metanephric Adenoma in the Pediatric Population: Diagnostic Challenges and Follow-up.

Author

Benson, Michael, Lee, Sang, Vasy, Valentino, Bhattacharya, Ratul, Zuberi, Jamshed, Yasmeen, Sayeeda, Ahmed, Mutahar, and Hanna, Moneer K.

Subjects

*ADENOMA, *PEDIATRIC diagnosis, *FOLLOW-up studies (Medicine), *DIAGNOSTIC imaging, *NEPHRONS, *NEPHRECTOMY, *IMMUNOHISTOCHEMISTRY, *KIDNEY tumors, *THERAPEUTICS, *SURGICAL robots

Abstract

Objective: To discuss the presenting features, imaging findings, and recommended management of patients with Metanephric adenoma (MA) focusing on the diagnostic challenges and indications for follow up.Materials and Methods: In this case report, we present a case of a 10-year-old female with MA who eventually underwent nephron sparing surgery with a partial nephrectomy. We performed a literature review of previous cases of metanephric adenoma and their respective management and follow-up.Results: Renal ultrasound demonstrated a heterogeneous, echogenic mass measuring 3.8 cm at the upper pole of the right kidney. Further investigations consisted of computed tomography scan, magnetic resonance imaging, and magnetic resonance angiography. The patient underwent robotic-assisted partial nephrectomy. The immunohistochemical staining pattern, gross, and microscopic appearance of the lesion were consistent with the diagnosis of MA. The combination of CK7, EMA, and S-100 negativity and WT1 and CD57 positivity is considered characteristic of metanephric adenoma as described in the literature.Conclusion: MA is a rare benign tumor and especially in the pediatric population can cause significant concern over a possible malignant lesion. Although, no follow-up recommendations currently exist in cases of completely resected MA, we standardly perform postoperative surveillance. Although Metanephric Adenoma is difficult to diagnose preoperatively, given the advances in nephron sparing surgery and the utilization of nonionizing radiation modalities for follow up, we can manage these patients safely and with lower morbidity by preserving renal parenchyma. [ABSTRACT FROM AUTHOR]

Published

2018