scholarly journals A spectrum of mutations in the polycystic kidney disease-2 (PKD2) gene from eight Canadian kindreds.

1998 ◽  
Vol 9 (10) ◽  
pp. 1853-1860 ◽  
Author(s):  
Y Pei ◽  
N He ◽  
K Wang ◽  
M Kasenda ◽  
A D Paterson ◽  
...  
Keyword(s):  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Disease Severity ◽  
Calcium Binding ◽  
Late Onset ◽  
Polymorphism Analysis ◽  
Mononucleotide Repeat ◽  
Polycystic Kidney ◽  
Single Stranded Conformational Polymorphism ◽  
Stage Renal Disease

Autosomal dominant polycystic kidney disease (ADPKD) is a common Mendelian disorder that affects approximately 1 in 1000 live births. Linkage studies have shown that the majority (approximately 85%) of cases are due to mutations in PKD1 on chromosome 16p, while mutations in PKD2 on chromosome 4q account for most of the remaining cases. Locus heterogeneity in ADPKD is known to contribute to differences in disease severity, with PKD1-linked families having earlier onset of end-stage renal disease (ESRD) than PKD2-linked families (mean age at ESRD: 56 versus 70, respectively). In this study, 11 Canadian families with ADPKD were screened for PKD2 mutations. In four families, linkage to PKD2 was previously documented. In the remaining seven smaller families, one or more affected members had late-onset ESRD at age 70 or older. Using single-stranded conformational polymorphism analysis, one affected member from each family was screened for mutations in all 15 exons of PKD2, which were PCR-amplified from genomic templates. A spectrum of mutations was found in approximately 73% (8 of 11) of the families screened, with no difference in the detection rate between the PKD2-linked families and the families with late-onset ESRD. In three unrelated families, insertion or deletion of an adenosine in a polyadenosine tract (i.e., (A)8 at nt 2152-2159) was found on exon 11, suggesting that this mononucleotide repeat tract is prone to mutations from "slipped strand mispairing." All mutations, scattered between exons 1 and 11, are predicted to result in a truncated polycystin 2 that lacks both the calcium-binding EF-hand domain and the two cytoplasmic domains required for the interaction of polycystin 2 with polycystin 1 and with itself. Furthermore, no correlation was found between the location of the mutations in the PKD2 coding sequence and disease severity. Thus, these findings are consistent with other recently published reports and suggest that most PKD2 mutations are inactivating.

scholarly journals Molecular Pathophysiology of Autosomal Recessive Polycystic Kidney Disease

2021 ◽  
Vol 22 (12) ◽  
pp. 6523
Author(s):  
Adrian Cordido ◽  
Marta Vizoso-Gonzalez ◽  
Miguel A. Garcia-Gonzalez
Keyword(s):  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Molecular Basis ◽  
Autosomal Recessive ◽  
Polycystic Kidney ◽  
Phenotypic Spectrum ◽  
New Gene ◽  
Stage Renal Disease ◽  
End Stage ◽  
Molecular Pathophysiology

Autosomal recessive polycystic kidney disease (ARPKD) is a rare disorder and one of the most severe forms of polycystic kidney disease, leading to end-stage renal disease (ESRD) in childhood. PKHD1 is the gene that is responsible for the vast majority of ARPKD. However, some cases have been related to a new gene that was recently identified (DZIP1L gene), as well as several ciliary genes that can mimic a ARPKD-like phenotypic spectrum. In addition, a number of molecular pathways involved in the ARPKD pathogenesis and progression were elucidated using cellular and animal models. However, the function of the ARPKD proteins and the molecular mechanism of the disease currently remain incompletely understood. Here, we review the clinics, treatment, genetics, and molecular basis of ARPKD, highlighting the most recent findings in the field.

scholarly journals An Empirical Biomarker-based Calculator for Autosomal Recessive Polycystic Kidney Disease The Nieto-Narayan Formula

2016 ◽  
Author(s):  
Jake A Nieto ◽  
Michael A Yamin ◽  
Itzhak D. Goldberg ◽  
Prakash Narayan
Keyword(s):  
Clinical Trials ◽  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Imaging Modality ◽  
Pediatric Population ◽  
Polycystic Kidney ◽  
Drug Candidates ◽  
Serial Determination ◽  
Stage Renal Disease

Autosomal polycystic kidney disease (ARPKD) is associated with progressive enlargement of the kidneys fuelled by the formation and expansion of fluid-filled cysts. The disease is congenital and children that do not succumb to it during the neonatal period will, by age 10 years, more often than not, require nephrectomy+renal replacement therapy for management of both pain and renal insufficiency. Since increasing cystic index (CI; percent of kidney occupied by cysts) drives both renal expansion and organ dysfunction, management of these patients, including decisions such as elective nephrectomy and prioritization on the transplant waitlist, could clearly benefit from serial determination of CI. So also, clinical trials in ARPKD evaluating efficacy of novel drug candidates could benefit from serial determination of CI. Although ultrasound is currently the imaging modality of choice for diagnosis of ARPKD, its utilization for assessing disease progression is highly limited. Magnetic resonance imaging or computed tomography, although more reliable for determination of CI, are expensive, time-consuming and somewhat impractical in the pediatric population. Using a well-established mammalian model of ARPKD, we undertook a big data-like analysis of minimally- or non-invasive serum and urine biomarkers of renal injury/dysfunction to derive a family of equations for estimating CI. We then applied a signal averaging protocol to distil these equations to a single empirical formula for calculation of CI. Such a formula will eventually find use in identifying and monitoring patients at high risk for progressing to end-stage renal disease and aid in the conduct of clinical trials.

scholarly journals Modulation of Polycystic Kidney Disease Severity by Phosphodiesterase 1 and 3 Subfamilies

2015 ◽  
Vol 27 (5) ◽  
pp. 1312-1320 ◽  
Author(s):  
Hong Ye ◽  
Xiaofang Wang ◽  
Caroline R. Sussman ◽  
Katharina Hopp ◽  
Maria V. Irazabal ◽  
...  
Keyword(s):  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Disease Severity ◽  
Polycystic Kidney

Diagnosis of infected kidney cysts in patients with autosomal dominant polycystic kidney disease and end-stage renal disease

Urologiia ◽  
2021 ◽  
Vol 3_2021 ◽  
pp. 50-55
Author(s):  
A.E. Lubennikov Lubennikov ◽  
A.A. Shishimorov Shishimorov ◽  
R.N. Trushkin Trushkin ◽  
T.K. Isaev T ◽  
O.N. Kotenko Kotenko ◽  
...  
Keyword(s):  
Kidney Disease ◽  
Renal Disease ◽  
Polycystic Kidney Disease ◽  
End Stage Renal Disease ◽  
Autosomal Dominant ◽  
Polycystic Kidney ◽  
Kidney Cysts ◽  
Autosomal Dominant Polycystic Kidney ◽  
Stage Renal Disease ◽  
End Stage

scholarly journals Discovery and preclinical evaluation of anti-miR-17 oligonucleotide RGLS4326 for the treatment of polycystic kidney disease

2019 ◽  
Vol 10 (1) ◽  
Author(s):  
Edmund C. Lee ◽  
Tania Valencia ◽  
Charles Allerson ◽  
Annelie Schairer ◽  
Andrea Flaten ◽  
...  
Keyword(s):  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Collecting Duct ◽  
Treatment Options ◽  
Subcutaneous Administration ◽  
Polycystic Kidney ◽  
Short Oligonucleotide ◽  
Mrna Targets ◽  
Stage Renal Disease

Abstract Autosomal dominant polycystic kidney disease (ADPKD), caused by mutations in either PKD1 or PKD2 genes, is one of the most common human monogenetic disorders and the leading genetic cause of end-stage renal disease. Unfortunately, treatment options for ADPKD are limited. Here we report the discovery and characterization of RGLS4326, a first-in-class, short oligonucleotide inhibitor of microRNA-17 (miR-17), as a potential treatment for ADPKD. RGLS4326 is discovered by screening a chemically diverse and rationally designed library of anti-miR-17 oligonucleotides for optimal pharmaceutical properties. RGLS4326 preferentially distributes to kidney and collecting duct-derived cysts, displaces miR-17 from translationally active polysomes, and de-represses multiple miR-17 mRNA targets including Pkd1 and Pkd2. Importantly, RGLS4326 demonstrates a favorable preclinical safety profile and attenuates cyst growth in human in vitro ADPKD models and multiple PKD mouse models after subcutaneous administration. The preclinical characteristics of RGLS4326 support its clinical development as a disease-modifying treatment for ADPKD.

scholarly journals An Overview of In Vivo and In Vitro Models for Autosomal Dominant Polycystic Kidney Disease: A Journey from 3D-Cysts to Mini-Pigs

2020 ◽  
Vol 21 (12) ◽  
pp. 4537
Author(s):  
Svenja Koslowski ◽  
Camille Latapy ◽  
Pierrïck Auvray ◽  
Marc Blondel ◽  
Laurent Meijer
Keyword(s):  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Autosomal Dominant ◽  
In Vitro Models ◽  
Polycystic Kidney ◽  
Autosomal Dominant Polycystic Kidney ◽  
Stage Renal Disease ◽  
End Stage

Autosomal dominant polycystic kidney disease (ADPKD) is the most common inheritable cause of end stage renal disease and, as of today, only a single moderately effective treatment is available for patients. Even though ADPKD research has made huge progress over the last decades, the precise disease mechanisms remain elusive. However, a wide variety of cellular and animal models have been developed to decipher the pathophysiological mechanisms and related pathways underlying the disease. As none of these models perfectly recapitulates the complexity of the human disease, the aim of this review is to give an overview of the main tools currently available to ADPKD researchers, as well as their main advantages and limitations.

scholarly journals Ultrasound Elastography to Quantify Liver Disease Severity in Autosomal Recessive Polycystic Kidney Disease

2019 ◽  
Vol 209 ◽  
pp. 107-115.e5 ◽  
Author(s):  
Erum A. Hartung ◽  
Jessica Wen ◽  
Laura Poznick ◽  
Susan L. Furth ◽  
Kassa Darge
Keyword(s):  
Liver Disease ◽  
Kidney Disease ◽  
Polycystic Kidney Disease ◽  
Disease Severity ◽  
Autosomal Recessive ◽  
Ultrasound Elastography ◽  
Polycystic Kidney
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