ABSTRACT
Amyloidoses are a group of disorders in which soluble proteins aggregate and deposit extracellularly in tissues as insoluble fibrils, causing organ dysfunction. Clinical management depends on the subtype of the protein deposited and the affected organs. Systemic amyloidosis may stem from anomalous proteins, such as immunoglobulin light chains or serum amyloid proteins in chronic inflammation or may arise from hereditary disorders. Hereditary amyloidosis consists of a group of rare conditions that do not respond to chemotherapy, hence the identification of the amyloid subtype is essential for diagnosis, prognosis, and treatment. The kidney is the organ most frequently involved in systemic amyloidosis. Renal amyloidosis is characterized by acellular pathologic Congo red-positive deposition of amyloid fibrils in glomeruli, vessels, and/or interstitium. This disease manifests with heavy proteinuria, nephrotic syndrome, and progression to end-stage kidney failure. In some situations, it is not possible to identify the amyloid subtype using immunodetection methods, so the diagnosis remains indeterminate. In cases where hereditary amyloidosis is suspected or cannot be excluded, genetic testing should be considered. Of note, laser microdissection/mass spectrometry is currently the gold standard for accurate diagnosis of amyloidosis, especially in inconclusive cases. This article reviews the clinical manifestations and the current diagnostic landscape of renal amyloidosis.
Subject(s)
Amyloidosis, Familial , Amyloidosis , Amyloid , Amyloidogenic Proteins , Amyloidosis/diagnosis , Amyloidosis/pathology , Congo Red/therapeutic use , Humans , Immunoglobulin Light Chains/therapeutic useABSTRACT
Amyloidoses are a group of disorders in which soluble proteins aggregate and deposit extracellularly in tissues as insoluble fibrils, causing organ dysfunction. Clinical management depends on the subtype of the protein deposited and the affected organs. Systemic amyloidosis may stem from anomalous proteins, such as immunoglobulin light chains or serum amyloid proteins in chronic inflammation or may arise from hereditary disorders. Hereditary amyloidosis consists of a group of rare conditions that do not respond to chemotherapy, hence the identification of the amyloid subtype is essential for diagnosis, prognosis, and treatment. The kidney is the organ most frequently involved in systemic amyloidosis. Renal amyloidosis is characterized by acellular pathologic Congo red-positive deposition of amyloid fibrils in glomeruli, vessels, and/or interstitium. This disease manifests with heavy proteinuria, nephrotic syndrome, and progression to end-stage kidney failure. In some situations, it is not possible to identify the amyloid subtype using immunodetection methods, so the diagnosis remains indeterminate. In cases where hereditary amyloidosis is suspected or cannot be excluded, genetic testing should be considered. Of note, laser microdissection/mass spectrometry is currently the gold standard for accurate diagnosis of amyloidosis, especially in inconclusive cases. This article reviews the clinical manifestations and the current diagnostic landscape of renal amyloidosis.
ABSTRACT
Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic disease in cats. However, scarce data on its prevalence are available in Brazil. Persian cats and Persian-related breeds were assessed by molecular genotyping for a C to A transversion in exon 29 of PKD1 gene to determine ADPKD prevalence in a Brazilian population. Genomic DNA extracted from peripheral whole blood or oral swabs samples was used to amplify exon 29 of PKD1 gene employing a PCR-RFLP methodology. From a total of 616 animals, 27/537 Persian and 1/17 Himalayan cats showed the single-nucleotide variant (C to A) at position 3284 in exon 29 of feline PKD1. This pathogenic variation has been identified only in heterozygous state. The prevalence of ADPKD in Persian cats and Persian-related breeds was 5.03% and 1.6%, respectively. There was no significant association between feline breed, gender or age with ADPKD prevalence. Of note, the observed ADPKD prevalence in Persian cats and Persian-related breeds in Brazil was lower than the ones reported in other parts of the world. This finding may be related to genetic counseling and consequent selection of ADPKD-free cats for reproduction.(AU)
A doença renal policística autossômica dominante (DRPAD) é a doença genética mais comum em gatos. No entanto, poucos dados sobre sua prevalência estão disponíveis no Brasil. Gatos Persas e de raças relacionadas foram avaliados por genotipagem molecular para a transversão CA no exon 29 do gene PKD1 felino para determinar a prevalência de DRPAD. DNA genômico extraído de sangue total periférico ou amostras de swabs orais foram utilizados para amplificar o exon 29 do gene PKD1 pela técnica de PCR-RFLP. De um total de 616 gatos, 27/537 Persas e 1/17 Himalaia mostraram a variante de nucleotídeo único (CA) na posição 3284 no exon 29 do gene PKD1. Esta variante patogênica foi identificada apenas em heterozigose. A prevalência de DRPAD em gatos Persas e raças relacionadas foram de 5,03% e 1,6%, respectivamente. Não houve associações significativas entre raça, gênero ou idade dos felinos e incidência de DRPAD. A prevalência de DRPAD em gatos Persas e raças relacionadas no Brasil foi menor do que em outras partes do mundo, o que pode estar relacionado ao aconselhamento genético e consequente seleção de gatos sem ADPKD para reprodução.(AU)
Subject(s)
Animals , Cats , Cat Diseases , Polycystic Kidney Diseases/veterinary , Genetic Diseases, Inborn/veterinary , Genotyping Techniques/veterinaryABSTRACT
Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic disease in cats. However, scarce data on its prevalence are available in Brazil. Persian cats and Persian-related breeds were assessed by molecular genotyping for a C to A transversion in exon 29 of PKD1 gene to determine ADPKD prevalence in a Brazilian population. Genomic DNA extracted from peripheral whole blood or oral swabs samples was used to amplify exon 29 of PKD1 gene employing a PCR-RFLP methodology. From a total of 616 animals, 27/537 Persian and 1/17 Himalayan cats showed the single-nucleotide variant (C to A) at position 3284 in exon 29 of feline PKD1. This pathogenic variation has been identified only in heterozygous state. The prevalence of ADPKD in Persian cats and Persian-related breeds was 5.03% and 1.6%, respectively. There was no significant association between feline breed, gender or age with ADPKD prevalence. Of note, the observed ADPKD prevalence in Persian cats and Persian-related breeds in Brazil was lower than the ones reported in other parts of the world. This finding may be related to genetic counseling and consequent selection of ADPKD-free cats for reproduction.
Subject(s)
Polycystic Kidney, Autosomal Dominant , Animals , Brazil/epidemiology , Cats , Mutation , Polycystic Kidney, Autosomal Dominant/epidemiology , Polycystic Kidney, Autosomal Dominant/genetics , Polycystic Kidney, Autosomal Dominant/veterinary , Polymerase Chain Reaction , Polymorphism, Restriction Fragment Length , PrevalenceABSTRACT
Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic disease in cats. However, scarce data on its prevalence are available in Brazil. Persian cats and Persian-related breeds were assessed by molecular genotyping for a C to A transversion in exon 29 of PKD1 gene to determine ADPKD prevalence in a Brazilian population. Genomic DNA extracted from peripheral whole blood or oral swabs samples was used to amplify exon 29 of PKD1 gene employing a PCR-RFLP methodology. From a total of 616 animals, 27/537 Persian and 1/17 Himalayan cats showed the single-nucleotide variant (C to A) at position 3284 in exon 29 of feline PKD1. This pathogenic variation has been identified only in heterozygous state. The prevalence of ADPKD in Persian cats and Persian-related breeds was 5.03% and 1.6%, respectively. There was no significant association between feline breed, gender or age with ADPKD prevalence. Of note, the observed ADPKD prevalence in Persian cats and Persian-related breeds in Brazil was lower than the ones reported in other parts of the world. This finding may be related to genetic counseling and consequent selection of ADPKD-free cats for reproduction.
A doença renal policística autossômica dominante (DRPAD) é a doença genética mais comum em gatos. No entanto, poucos dados sobre sua prevalência estão disponíveis no Brasil. Gatos Persas e de raças relacionadas foram avaliados por genotipagem molecular para a transversão C→A no exon 29 do gene PKD1 felino para determinar a prevalência de DRPAD. DNA genômico extraído de sangue total periférico ou amostras de swabs orais foram utilizados para amplificar o exon 29 do gene PKD1 pela técnica de PCR-RFLP. De um total de 616 gatos, 27/537 Persas e 1/17 Himalaia mostraram a variante de nucleotídeo único (C→A) na posição 3284 no exon 29 do gene PKD1. Esta variante patogênica foi identificada apenas em heterozigose. A prevalência de DRPAD em gatos Persas e raças relacionadas foram de 5,03% e 1,6%, respectivamente. Não houve associações significativas entre raça, gênero ou idade dos felinos e incidência de DRPAD. A prevalência de DRPAD em gatos Persas e raças relacionadas no Brasil foi menor do que em outras partes do mundo, o que pode estar relacionado ao aconselhamento genético e consequente seleção de gatos sem ADPKD para reprodução.
Subject(s)
Animals , Cats , Polycystic Kidney, Autosomal Dominant/genetics , Polycystic Kidney, Autosomal Dominant/veterinary , Polycystic Kidney, Autosomal Dominant/epidemiology , Polymorphism, Restriction Fragment Length , Brazil/epidemiology , Polymerase Chain Reaction/veterinary , Prevalence , Genotyping Techniques/veterinary , MutationABSTRACT
Polycystic kidney disease is a complex clinical entity which comprises a group of genetic diseases that leads to renal cyst development. We evaluated the most suitable housekeeping genes for microRNA expression by RT-qPCR analyses of kidney tissues in Pkd1-deficient mouse models from a panel of five candidates genes (miR-20a, miR-25, miR-26a, miR-191 and U6) and 3 target genes (miR-17, miR-21 and let-7a) using samples from kidneys of cystic mice (Pkd1flox/flox:Nestincre, CY), non-cystic controls (Pkd1flox/flox, NC), Pkd1-haploinsufficient (Pkd1+/-, HT), wild-type controls (Pkd1+/+, WT), severely cystic mice (Pkd1V/V, SC), wild-type controls (CO). The stability of the candidate genes was investigated using NormFinder, GeNorm, BestKeeper, DataAssist, and RefFinder software packages and the comparative ΔCt method. The analyses identified miR-26a as the most stable housekeeping gene for all kidney samples, miR-20a for CY and NC, miR-20a and miR-26a for HT and WT, and miR-25 and miR-26a for SC and CO. Expression of miR-21 was upregulated in SC compared to CO and trends of miR-21 upregulation and let-7a downregulation in CY and HT compared to its control kidneys, when normalized by different combinations of miR-20a, miR-25 and miR-26a. Our findings established miR-20a, miR-25, and miR-26a as the best housekeeping genes for miRNA expression analyses by RT-qPCR in kidney tissues of Pkd1-deficient mouse models.
Subject(s)
Gene Expression Profiling , Genes, Essential/genetics , Kidney/metabolism , MicroRNAs/genetics , Protein Kinase C/deficiency , Animals , Haploinsufficiency , Mice , Protein Kinase C/geneticsABSTRACT
Abstract Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic disease in cats. However, scarce data on its prevalence are available in Brazil. Persian cats and Persian-related breeds were assessed by molecular genotyping for a C to A transversion in exon 29 of PKD1 gene to determine ADPKD prevalence in a Brazilian population. Genomic DNA extracted from peripheral whole blood or oral swabs samples was used to amplify exon 29 of PKD1 gene employing a PCR-RFLP methodology. From a total of 616 animals, 27/537 Persian and 1/17 Himalayan cats showed the single-nucleotide variant (C to A) at position 3284 in exon 29 of feline PKD1. This pathogenic variation has been identified only in heterozygous state. The prevalence of ADPKD in Persian cats and Persian-related breeds was 5.03% and 1.6%, respectively. There was no significant association between feline breed, gender or age with ADPKD prevalence. Of note, the observed ADPKD prevalence in Persian cats and Persian-related breeds in Brazil was lower than the ones reported in other parts of the world. This finding may be related to genetic counseling and consequent selection of ADPKD-free cats for reproduction.
Resumo A doença renal policística autossômica dominante (DRPAD) é a doença genética mais comum em gatos. No entanto, poucos dados sobre sua prevalência estão disponíveis no Brasil. Gatos Persas e de raças relacionadas foram avaliados por genotipagem molecular para a transversão CA no exon 29 do gene PKD1 felino para determinar a prevalência de DRPAD. DNA genômico extraído de sangue total periférico ou amostras de swabs orais foram utilizados para amplificar o exon 29 do gene PKD1 pela técnica de PCR-RFLP. De um total de 616 gatos, 27/537 Persas e 1/17 Himalaia mostraram a variante de nucleotídeo único (CA) na posição 3284 no exon 29 do gene PKD1. Esta variante patogênica foi identificada apenas em heterozigose. A prevalência de DRPAD em gatos Persas e raças relacionadas foram de 5,03% e 1,6%, respectivamente. Não houve associações significativas entre raça, gênero ou idade dos felinos e incidência de DRPAD. A prevalência de DRPAD em gatos Persas e raças relacionadas no Brasil foi menor do que em outras partes do mundo, o que pode estar relacionado ao aconselhamento genético e consequente seleção de gatos sem ADPKD para reprodução.
ABSTRACT
Abstract Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic disease in cats. However, scarce data on its prevalence are available in Brazil. Persian cats and Persian-related breeds were assessed by molecular genotyping for a C to A transversion in exon 29 of PKD1 gene to determine ADPKD prevalence in a Brazilian population. Genomic DNA extracted from peripheral whole blood or oral swabs samples was used to amplify exon 29 of PKD1 gene employing a PCR-RFLP methodology. From a total of 616 animals, 27/537 Persian and 1/17 Himalayan cats showed the single-nucleotide variant (C to A) at position 3284 in exon 29 of feline PKD1. This pathogenic variation has been identified only in heterozygous state. The prevalence of ADPKD in Persian cats and Persian-related breeds was 5.03% and 1.6%, respectively. There was no significant association between feline breed, gender or age with ADPKD prevalence. Of note, the observed ADPKD prevalence in Persian cats and Persian-related breeds in Brazil was lower than the ones reported in other parts of the world. This finding may be related to genetic counseling and consequent selection of ADPKD-free cats for reproduction.
Resumo A doença renal policística autossômica dominante (DRPAD) é a doença genética mais comum em gatos. No entanto, poucos dados sobre sua prevalência estão disponíveis no Brasil. Gatos Persas e de raças relacionadas foram avaliados por genotipagem molecular para a transversão CA no exon 29 do gene PKD1 felino para determinar a prevalência de DRPAD. DNA genômico extraído de sangue total periférico ou amostras de swabs orais foram utilizados para amplificar o exon 29 do gene PKD1 pela técnica de PCR-RFLP. De um total de 616 gatos, 27/537 Persas e 1/17 Himalaia mostraram a variante de nucleotídeo único (CA) na posição 3284 no exon 29 do gene PKD1. Esta variante patogênica foi identificada apenas em heterozigose. A prevalência de DRPAD em gatos Persas e raças relacionadas foram de 5,03% e 1,6%, respectivamente. Não houve associações significativas entre raça, gênero ou idade dos felinos e incidência de DRPAD. A prevalência de DRPAD em gatos Persas e raças relacionadas no Brasil foi menor do que em outras partes do mundo, o que pode estar relacionado ao aconselhamento genético e consequente seleção de gatos sem ADPKD para reprodução.
ABSTRACT
This is the first study analyzing concomitantly osteoprotegerin (OPG)/receptor activator of nuclear factor kappa B ligand (RANKL) polymorphisms and OPG/RANKL serum levels and their association with bone mineral density (BMD), vertebral fractures, and vascular aortic calcification in a cohort of 800 subjects in community-dwelling older individuals. INTRODUCTION: Osteoprotegerin (OPG) and RANKL play an important role in osteoclast activation and differentiation as well as in vascular calcification. At present, there are no studies of OPG or RANKL gene polymorphisms in Brazilian older populations. The aim of this study was to evaluate OPG/RANKL polymorphism and their association with vertebral fractures (VFs) and aortic calcification. METHODS: Eight hundred subjects (497 women/303 men) were genotyped for the OPG 1181G>C (rs2073618), 163C>T (rs3102735), 245T>G (rs3134069), and 209G>A (rs3134070) and RANKL A>G (rs2277438) single-nucleotide polymorphisms (SNPs). VFs were evaluated by spine radiography (Genant's method). Aortic calcification was quantified using Kauppila's method. RESULTS: The isolated genotype analyses and single-allele frequency data showed association of OPG 163C, 245G, and 209A alleles with presence of VFs (P < 0.05). Multiple logistic regression of subjects with absence of VFs vs. those with VFs (grades II/III) revealed only OPG 209A homozygosity as a risk factor for higher-grade VFs (odds ratio (OR) = 4.17, 95 % CI 1.03-16.93, P = 0.046). Regarding aortic calcification, the isolated genotype analysis frequency data revealed a significant association of OPG 1181G, 163C, 245G, and 209A alleles with absent aortic calcification (P < 0.05). Multiple logistic regression data confirmed that the OPG 209A allele was protective for aortic calcification (OR = 0.63, 95 % CI 0.45-0.88, P = 0.007) and the OPG 1181C allele was a risk factor for aortic calcification (OR = 1.26, 95 % CI 1.00-1.58, P = 0.046). CONCLUSION: This study showed that the OPG 209AA genotype was a risk factor for higher-grade VFs, the OPG 209A allele was protective for aortic calcification, and the OPG 1181C was a risk factor for aortic calcification, supporting the involvement of OPG polymorphisms in the analyzed phenotypes and the concept that the related pathogenesis is multifactorial.
Subject(s)
Aorta/pathology , Calcinosis/pathology , Osteoprotegerin/genetics , RANK Ligand/genetics , Spinal Fractures/genetics , Aged , Aging , Bone Density , Brazil , Female , Humans , Male , Osteoprotegerin/blood , Polymorphism, Single Nucleotide , RANK Ligand/bloodABSTRACT
Positron-emission tomography/computed tomography (PET/CT) has improved cyst infection (CI) management in autosomal dominant polycystic kidney disease (ADPKD). The determinants of kidney and/or liver involvement, however, remain uncertain. In this study, we evaluated clinical and imaging factors associated with CI in kidney (KCI) and liver (LCI) in ADPKD. A retrospective cohort study was performed in hospital-admitted ADPKD patients with suspected CI. Clinical, imaging and surgical data were analyzed. Features of infected cysts were evaluated by PET/CT. Total kidney (TKV) and liver (TLV) volumes were measured by CT-derived multiplanar reconstruction. CI was detected in 18 patients who experienced 24 episodes during an interval of 30 months (LCI in 12, KCI in 10 and concomitant infection in 2). Sensitivities of CT, magnetic resonance imaging and PET/CT were 25.0, 71.4, and 95.0%. Dysuria (P<0.05), positive urine culture (P<0.01), and previous hematuria (P<0.05) were associated with KCI. Weight loss (P<0.01) and increased C-reactive protein levels (P<0.05) were associated with LCI. PET/CT revealed that three or more infected cysts were present in 70% of the episodes. TKV was higher in kidney-affected than in LCI patients (AUC=0.91, P<0.05), with a cut-off of 2502 mL (72.7% sensitivity, 100.0% specificity). TLV was higher in liver-affected than in KCI patients (AUC=0.89, P<0.01) with a cut-off of 2815 mL (80.0% sensitivity, 87.5% specificity). A greater need for invasive procedures was observed in LCI (P<0.01), and the overall mortality was 20.8%. This study supports PET/CT as the most sensitive imaging method for diagnosis of cyst infection, confirms the multifocal nature of most hospital-admitted episodes, and reveals an association of kidney and liver volumes with this complication.
Subject(s)
Adult , Female , Humans , Male , Middle Aged , Cysts/microbiology , Hospitalization , Kidney/pathology , Liver/pathology , Polycystic Kidney, Autosomal Dominant/microbiology , Brazil/epidemiology , C-Reactive Protein/analysis , Chi-Square Distribution , Cysts/pathology , Dysuria/microbiology , Hematuria/microbiology , Immunoenzyme Techniques , Incidental Findings , Liver/microbiology , Positron-Emission Tomography , Polycystic Kidney, Autosomal Dominant/mortality , Polycystic Kidney, Autosomal Dominant/pathology , Retrospective Studies , Sensitivity and Specificity , Statistics, Nonparametric , Weight LossABSTRACT
Positron-emission tomography/computed tomography (PET/CT) has improved cyst infection (CI) management in autosomal dominant polycystic kidney disease (ADPKD). The determinants of kidney and/or liver involvement, however, remain uncertain. In this study, we evaluated clinical and imaging factors associated with CI in kidney (KCI) and liver (LCI) in ADPKD. A retrospective cohort study was performed in hospital-admitted ADPKD patients with suspected CI. Clinical, imaging and surgical data were analyzed. Features of infected cysts were evaluated by PET/CT. Total kidney (TKV) and liver (TLV) volumes were measured by CT-derived multiplanar reconstruction. CI was detected in 18 patients who experienced 24 episodes during an interval of 30 months (LCI in 12, KCI in 10 and concomitant infection in 2). Sensitivities of CT, magnetic resonance imaging and PET/CT were 25.0, 71.4, and 95.0%. Dysuria (P<0.05), positive urine culture (P<0.01), and previous hematuria (P<0.05) were associated with KCI. Weight loss (P<0.01) and increased C-reactive protein levels (P<0.05) were associated with LCI. PET/CT revealed that three or more infected cysts were present in 70% of the episodes. TKV was higher in kidney-affected than in LCI patients (AUC=0.91, P<0.05), with a cut-off of 2502 mL (72.7% sensitivity, 100.0% specificity). TLV was higher in liver-affected than in KCI patients (AUC=0.89, P<0.01) with a cut-off of 2815 mL (80.0% sensitivity, 87.5% specificity). A greater need for invasive procedures was observed in LCI (P<0.01), and the overall mortality was 20.8%. This study supports PET/CT as the most sensitive imaging method for diagnosis of cyst infection, confirms the multifocal nature of most hospital-admitted episodes, and reveals an association of kidney and liver volumes with this complication.
Subject(s)
Cysts/microbiology , Hospitalization , Kidney/pathology , Liver/pathology , Polycystic Kidney, Autosomal Dominant/microbiology , Adult , Brazil/epidemiology , C-Reactive Protein/analysis , Chi-Square Distribution , Cysts/pathology , Dysuria/microbiology , Female , Hematuria/microbiology , Humans , Immunoenzyme Techniques , Incidental Findings , Liver/microbiology , Male , Middle Aged , Polycystic Kidney, Autosomal Dominant/mortality , Polycystic Kidney, Autosomal Dominant/pathology , Positron-Emission Tomography , Retrospective Studies , Sensitivity and Specificity , Statistics, Nonparametric , Weight LossABSTRACT
Autosomal dominant polycystic kidney disease (ADPKD) is one of the most common human life-threatening monogenic disorders. The disease is characterized by bilateral, progressive renal cystogenesis and cyst and kidney enlargement, often leading to end-stage renal disease, and may include extrarenal manifestations. ADPKD is caused by mutation in one of two genes, PKD1 and PKD2, which encode polycystin-1 (PC1) and polycystin-2 (PC2), respectively. PC2 is a non-selective cation channel permeable to Ca2+, while PC1 is thought to function as a membrane receptor. The cyst cell phenotype includes increased proliferation and apoptosis, dedifferentiation, defective planar polarity, and a secretory pattern associated with extracellular matrix remodeling. The two-hit model for cyst formation has been recently extended by the demonstration that early gene inactivation leads to rapid and diffuse development of renal cysts, while inactivation in adult life is followed by focal and late cyst formation. Renal ischemia/reperfusion, however, can function as a third hit, triggering rapid cyst development in kidneys with Pkd1 inactivation induced in adult life. The PC1-PC2 complex behaves as a sensor in the primary cilium, mediating signal transduction via Ca2+ signaling. The intracellular Ca2+ homeostasis is impaired in ADPKD, being apparently responsible for the cAMP accumulation and abnormal cell proliferative response to cAMP. Activated mammalian target for rapamycin (mTOR) and cell cycle dysregulation are also significant features of PKD. Based on the identification of pathways altered in PKD, a large number of preclinical studies have been performed and are underway, providing a basis for clinical trials in ADPKD and helping the design of future trials.
Subject(s)
Humans , Polycystic Kidney, Autosomal Dominant/genetics , TRPP Cation Channels/genetics , Apoptosis/genetics , Calcium/metabolism , Disease Progression , Gene Silencing , Mutation , Membrane Proteins/genetics , Polycystic Kidney, Autosomal Dominant/metabolismABSTRACT
Autosomal dominant polycystic kidney disease (ADPKD) is one of the most common human life-threatening monogenic disorders. The disease is characterized by bilateral, progressive renal cystogenesis and cyst and kidney enlargement, often leading to end-stage renal disease, and may include extrarenal manifestations. ADPKD is caused by mutation in one of two genes, PKD1 and PKD2, which encode polycystin-1 (PC1) and polycystin-2 (PC2), respectively. PC2 is a non-selective cation channel permeable to Ca(2+), while PC1 is thought to function as a membrane receptor. The cyst cell phenotype includes increased proliferation and apoptosis, dedifferentiation, defective planar polarity, and a secretory pattern associated with extracellular matrix remodeling. The two-hit model for cyst formation has been recently extended by the demonstration that early gene inactivation leads to rapid and diffuse development of renal cysts, while inactivation in adult life is followed by focal and late cyst formation. Renal ischemia/reperfusion, however, can function as a third hit, triggering rapid cyst development in kidneys with Pkd1 inactivation induced in adult life. The PC1-PC2 complex behaves as a sensor in the primary cilium, mediating signal transduction via Ca(2+) signaling. The intracellular Ca(2+) homeostasis is impaired in ADPKD, being apparently responsible for the cAMP accumulation and abnormal cell proliferative response to cAMP. Activated mammalian target for rapamycin (mTOR) and cell cycle dysregulation are also significant features of PKD. Based on the identification of pathways altered in PKD, a large number of preclinical studies have been performed and are underway, providing a basis for clinical trials in ADPKD and helping the design of future trials.
Subject(s)
Polycystic Kidney, Autosomal Dominant/genetics , TRPP Cation Channels/genetics , Apoptosis/genetics , Calcium/metabolism , Disease Progression , Gene Silencing , Humans , Membrane Proteins/genetics , Mutation , Polycystic Kidney, Autosomal Dominant/metabolismABSTRACT
Autosomal recessive polycystic kidney disease (ARPKD) is an inherited disease characterized by a malformation complex which includes cystically dilated tubules in the kidneys and ductal plate malformation in the liver. The disorder is observed primarily in infancy and childhood, being responsible for significant pediatric morbidity and mortality. All typical forms of ARPKD are caused by mutations in a single gene, PKHD1 (polycystic kidney and hepatic disease 1). This gene has a minimum of 86 exons, assembled into multiple differentially spliced transcripts and has its highest level of expression in kidney, pancreas and liver. Mutational analyses revealed that all patients with both mutations associated with truncation of the longest open reading frame-encoded protein displayed the severe phenotype. This product, polyductin, is a 4,074-amino acid protein expressed in the cytoplasm, plasma membrane and primary apical cilia, a structure that has been implicated in the pathogenesis of different polycystic kidney diseases. In fact, cholangiocytes isolated from an ARPKD rat model develop shorter and dysmorphic cilia, suggesting polyductin to be important for normal ciliary morphology. Polyductin seems also to participate in tubule morphogenesis and cell mitotic orientation along the tubular axis. The recent advances in the understanding of in vitro and animal models of polycystic kidney diseases have shed light on the molecular and cellular mechanisms of cyst formation and progression, allowing the initiation of therapeutic strategy designing and promising perspectives for ARPKD patients. It is notable that vasopressin V2 receptor antagonists can inhibit/halt the renal cystic disease progression in an orthologous rat model of human ARPKD.
Subject(s)
Mutation , Polycystic Kidney, Autosomal Recessive/genetics , Receptors, Cell Surface/genetics , Animals , Cilia/pathology , Cytoplasm/pathology , Disease Models, Animal , Exons , Humans , Phenotype , Polycystic Kidney, Autosomal Recessive/pathology , RatsABSTRACT
Autosomal recessive polycystic kidney disease (ARPKD) is an inherited disease characterized by a malformation complex which includes cystically dilated tubules in the kidneys and ductal plate malformation in the liver. The disorder is observed primarily in infancy and childhood, being responsible for significant pediatric morbidity and mortality. All typical forms of ARPKD are caused by mutations in a single gene, PKHD1 (polycystic kidney and hepatic disease 1). This gene has a minimum of 86 exons, assembled into multiple differentially spliced transcripts and has its highest level of expression in kidney, pancreas and liver. Mutational analyses revealed that all patients with both mutations associated with truncation of the longest open reading frame-encoded protein displayed the severe phenotype. This product, polyductin, is a 4,074-amino acid protein expressed in the cytoplasm, plasma membrane and primary apical cilia, a structure that has been implicated in the pathogenesis of different polycystic kidney diseases. In fact, cholangiocytes isolated from an ARPKD rat model develop shorter and dysmorphic cilia, suggesting polyductin to be important for normal ciliary morphology. Polyductin seems also to participate in tubule morphogenesis and cell mitotic orientation along the tubular axis. The recent advances in the understanding of in vitro and animal models of polycystic kidney diseases have shed light on the molecular and cellular mechanisms of cyst formation and progression, allowing the initiation of therapeutic strategy designing and promising perspectives for ARPKD patients. It is notable that vasopressin V2 receptor antagonists can inhibit/halt the renal cystic disease progression in an orthologous rat model of human ARPKD.
Subject(s)
Humans , Animals , Rats , Mutation , Polycystic Kidney, Autosomal Recessive/genetics , Polycystic Kidney, Autosomal Recessive/pathology , Receptors, Cell Surface/genetics , Cilia/pathology , Cytoplasm/pathology , Disease Models, Animal , Exons , PhenotypeABSTRACT
The cell volume regulation of the lower segment cells of the Malpighian tubule of Rhodnius neglectus in anisosmotic media was evaluated by using video-optic techniques. When the medium osmolality was increased with addition of 100 mM mannitol the cells shrank to a minimum of 16.84 +/- 2.62% and subsequently swelled towards their initial volume undergoing a typical regulatory volume increase (RVI). Replacement of either K+ or Cl- or HCO(3-) by Na+, gluconate and phosphate, respectively, abolished the RVI response. Furthermore, the substitution of Na+ by tetramethylammonium (TMA+) in isosmotic conditions led to cellular swelling and death. Addition of either amiloride 10(-4) M, anthracene-9-COOH 5 x 10(-4) M, furosemide 5 x 10(-4) M or ethacrynic acid 5 x 10(-5) M, also abolished RVI. On the other hand, addition of either Ba2+ 10(-3) M, SITS 5 x 10(-4) M, ouabain 10(-3) M or vanadate 10(-3) M, did not change the RVI response. When the tubules were incubated in hyperosmotic media with EGTA 2 mM or verapamil 10(-6) M, the RVI response was abolished. In contrast, a decrease of NaCl concentration from 129 to 79 mM induced a cell swelling to a maximum of 33.11 +/- 1.73%, but the cells maintained swollen, only partially regulating their volume. These results show that the proximal cells of Malpighian tubule of R. neglectus are able to regulate their volume in hyperosmotic but only partially regulating in hyposmotic solutions. The mechanisms in RVI involve Na+, K+, Cl-, Ca2+ and HCO(3-) transport pathways and a ouabain-insensitive ATPase stimulated by Na+.
Subject(s)
Malpighian Tubules/physiology , Rhodnius/physiology , Animals , Cell Size/drug effects , Cell Size/physiology , Ethacrynic Acid/pharmacology , Furosemide/pharmacology , Male , Mannitol/pharmacology , Microscopy, Video , Osmolar ConcentrationABSTRACT
Thin ascending limb cells of Henle's loop from Wistar rats were studied with in vitro microperfusion and video-optical techniques to investigate their ability in regulating cell volume during osmotic shock and to identify mechanisms of ion transport involved in the process. These cells showed a clear volume regulatory decrease (VRD) response in hyposmotic medium, but no volume regulatory increase in hyperosmotic medium. The presence of barium in the bath abolished VRD. Removal of K+ from bath and perfusate also inhibited the VRD response. Reintroduction of K+ in hyposmotic conditions reestablished cell volume regulation. Introduction of anthracene-9-COOH to the basolateral medium blocked cell volume regulatory response. Cl- removal from perfusate and bath solutions also inhibited VRD, probably because of a significant intracellular Cl- depletion. Exposure of cells to ethylene glycol-bis(beta-aminoethyl ether)-N,N,N'N'-tetraacetic acid in perfusate and bath solutions reduced significantly Ca2+ concentration and impaired VRD. Reintroduction of Ca2+ in hyposmotic conditions restored volume regulation. The presence of ouabain in basolateral medium also inhibited VRD. These data suggest that the following mechanisms in the basolateral membrane are involved in VRD response: K+ and Cl- conductive pathways, which might be Ca2+ dependent for activation, and an Na(+)-K(+)-adenosinetriphosphatase.
Subject(s)
Loop of Henle/cytology , Animals , Anthracenes/pharmacology , Barium/pharmacology , Chlorides/pharmacology , Culture Media , Egtazic Acid/pharmacology , Gluconates/pharmacology , Loop of Henle/drug effects , Loop of Henle/metabolism , Osmolar Concentration , Osmosis , Potassium/pharmacology , Rats , Rats, WistarABSTRACT
In twenty patients with accidental hypothermia the plasma levels of amylase and glucose, hematologic aspects, and the response to the treatment were studied. The treatment was made at the Intensive Care Unit of the Medical Division of the Hospital of the University of São Paulo. The data showed that high levels of serum amylase without clinical manifestations may be observed in accidental hypothermia. Hyperglycemia was more frequently observed than hypoglycemia. Patients with body temperature lower than 30 degrees C may show leukopenia which returns to normal values when the temperature is corrected. The pneumonia and sepsis were the causes of death in accidental hypothermia.
Subject(s)
Amylases/blood , Blood Glucose/analysis , Hypothermia/blood , Leukocyte Count , Adult , Body Temperature , Hot Temperature/therapeutic use , Humans , Hypothermia/therapy , Male , Middle AgedABSTRACT
Thin ascending limb cells from Henle's loop were studied with optical and video techniques to evaluate cell volume regulation in response to anisoosmotic media and its ionic dependence. Cell volume regulation was observed when these cells were exposed to hypoosmotic solutions. Under hyperosmotic conditions only an osmometric response was found, with no volume regulatory increase (VRI). The removal of Cl- or HCO3- abolished the volume regulatory decrease (VRD) normally observed during exposure to hypoosmotic solutions. Re-addition of these ions did not elicit the VRD response. The removal of K+ from hypoosmotic solutions abolished VRD but its re-introduction restored the volume regulatory response. In the absence of Na+, a partial inhibition of VRD was found; re-addition of Na+ completely restored the regulatory response. These indicate that cells from the thin ascending limb of Henle's loop regulate their volume under hypoosmotic conditions, and that this process is dependent upon Cl-, HCO3-, Na+ and K+, with different patterns of response being observed upon addition or deletion of these ions.
Subject(s)
Loop of Henle/metabolism , Animals , Cells, Cultured/physiology , Female , Loop of Henle/cytology , Osmolar Concentration , Rats , Rats, Inbred Strains , Water-Electrolyte BalanceABSTRACT
Thin ascending limb cells from Henle's loop were optical and video techniques to evaluate cell volume regulation in response to anisoosmotic media and its ionic dependence. Cell volume regulation was observed when these cells were exposed to, hypoosmotic solutions. Under hyperosmotic conditions only an osmometric reponse was found, with no volume regulatory increase (VRI). The removal of Cl- or HCO3- abolished the volume regulatory decrease (VRD) normally observed during exposure to hypoosmotic soloutions. Re-addition of these ions did not elicit the VRD response. The removal of K+ from hypoosmotic solutions abolished VRD but is re-introduction restored the volume regulatory reponse. In the absence of Na+, a partial inhibition of VRD was found; re-addition of Na+ completely restored the regulatory response. These indicate that cells from the thin ascending limb of Henle's loop regulate their volume under hypoosmotic conditions, and that this process is dependent upon Cl-, HCO3-, Na+ and K+, with different patterns of response being observed upon addition or deltion of these ions