Regulation of the apico-basolateral trafficking polarity of the homologous copper-ATPases ATP7A and ATP7B.

The homologous P-type copper-ATPases (Cu-ATPases) ATP7A and ATP7B are the key regulators of copper homeostasis in mammalian cells. In polarized epithelia, upon copper treatment, ATP7A and ATP7B traffic from the trans-Golgi network (TGN) to basolateral and apical membranes, respectively. We characterized the sorting pathways of Cu-ATPases between TGN and the plasma membrane and identified the machinery involved. ATP7A and ATP7B reside on distinct domains of TGN in limiting copper conditions, and in high copper, ATP7A traffics to basolateral membrane, whereas ATP7B traverses common recycling, apical sorting and apical recycling endosomes en route to apical membrane. Mass spectrometry identified regulatory partners of ATP7A and ATP7B that include the adaptor protein-1 complex. Upon knocking out pan-AP-1, sorting of both Cu-ATPases is disrupted. ATP7A loses its trafficking polarity and localizes on both apical and basolateral surfaces in high copper. By contrast, ATP7B loses TGN retention but retained its trafficking polarity to the apical domain, which became copper independent. Using isoform-specific knockouts, we found that the AP-1A complex provides directionality and TGN retention for both Cu-ATPases, whereas the AP-1B complex governs copper-independent trafficking of ATP7B solely. Trafficking phenotypes of Wilson disease-causing ATP7B mutants that disrupts putative ATP7B-AP1 interaction further substantiates the role of AP-1 in apical sorting of ATP7B.

AP-1γ2 is an adaptor protein 1 variant required for endosome-to-Golgi trafficking of the mannose-6-P receptor (CI-MPR) and ATP7B copper transporter.

Selective retrograde transport from endosomes back to the trans-Golgi network (TGN) is important for maintaining protein homeostasis, recycling receptors, and returning molecules that were transported to the wrong compartments. Two important transmembrane proteins directed to this pathway are the Cation-Independent Mannose-6-phosphate receptor (CI-MPR) and the ATP7B copper transporter. Among CI-MPR functions is the delivery of acid hydrolases to lysosomes, while ATP7B facilitates the transport of cytosolic copper ions into organelles or the extracellular space. Precise subcellular localization of CI-MPR and ATP7B is essential for the proper functioning of these proteins. This study shows that both CI-MPR and ATP7B interact with a variant of the clathrin adaptor 1 (AP-1) complex that contains a specific isoform of the γ-adaptin subunit called γ2. Through synchronized anterograde trafficking and cell-surface uptake assays, we demonstrated that AP-1γ2 is dispensable for ATP7B and CI-MPR exit from the TGN while being critically required for ATP7B and CI-MPR retrieval from endosomes to the TGN. Moreover, AP-1γ2 depletion leads to the retention of endocytosed CI-MPR in endosomes enriched in retromer complex subunits. These data underscore the importance of AP-1γ2 as a key component in the sorting and trafficking machinery of CI-MPR and ATP7B, highlighting its essential role in the transport of proteins from endosomes.

FoxO1 silencing in Atp7b-/- neural stem cells attenuates high copper-induced apoptosis via regulation of autophagy.

Wilson disease (WD) is a severely autosomal genetic disorder triggered by dysregulated copper metabolism. Autophagy and apoptosis share common modulators that process cellular death. Emerging evidences suggest that Forkhead Box O1 over-expression (FoxO1-OE) aggravates abnormal autophagy and apoptosis to induce neuronal injury. However, the underlying mechanisms remain undetermined. Herein, the aim of this study was to investigate how regulating FoxO1 affects cellular autophagy and apoptosis to attenuate neuronal injury in a well-established WD cell model, the high concentration copper sulfate (CuSO4, HC)-triggered Atp7b-/- (Knockout, KO) neural stem cell (NSC) lines. The FoxO1-OE plasmid, or siRNA-FoxO1 (siFoxO1) plasmid, or empty vector plasmid was stably transfected with recombinant lentiviral vectors into HC-induced Atp7b-/- NSCs. Toxic effects of excess deposited copper on wild-type (WT), Atp7b-/- WD mouse hippocampal NSCs were tested by Cell Counting Kit-8 (CCK-8). Subsequently, the FoxO1 expression was evaluated by immunofluorescence (IF) assay, western blot (WB) and quantitative real-time polymerase chain reaction (qRT-PCR) analysis. Meanwhile, the cell autophagy and apoptosis were evaluated by flow cytometry (FC), TUNEL staining, 2,7-dichlorofluorescein diacetate (DCFH-DA), JC-1, WB, and qRT-PCR. The current study demonstrated a strong rise in FoxO1 levels in HC-treated Atp7b-/- NSCs, accompanied with dysregulated autophagy and hyperactive apoptosis. Also, it was observed that cell viability was significantly decreased with the over-expressed FoxO1 in HC-treated Atp7b-/- WD model. As intended, silencing FoxO1 effectively inhibited abnormal autophagy in HC-treated Atp7b-/- NSCs, as depicted by a decline in LC3II/I, Beclin-1, ATG3, ATG7, ATG13, and ATG16, whereas simultaneously increasing P62. In addition, silencing FoxO1 suppressed apoptosis via diminishing oxidative stress (OS), and mitochondrial dysfunction in HC-induced Atp7b-/- NSCs. Collectively, these results clearly demonstrate the silencing FoxO1 has the neuroprotective role of suppressing aberrant cellular autophagy and apoptosis, which efficiently attenuates neuronal injury in WD.

The physiological and pathophysiological roles of copper in the nervous system.

Copper is a critical trace element in biological systems due the vast number of essential enzymes that require the metal as a cofactor, including cytochrome c oxidase, superoxide dismutase and dopamine-ß-hydroxylase. Due its key role in oxidative metabolism, antioxidant defence and neurotransmitter synthesis, copper is particularly important for neuronal development and proper neuronal function. Moreover, increasing evidence suggests that copper also serves important functions in synaptic and network activity, the regulation of circadian rhythms, and arousal. However, it is important to note that because of copper's ability to redox cycle and generate reactive species, cellular levels of the metal must be tightly regulated to meet cellular needs while avoiding copper-induced oxidative stress. Therefore, it is essential that the intricate system of copper transporters, exporters, copper chaperones and copper trafficking proteins function properly and in coordinate fashion. Indeed, disorders of copper metabolism such as Menkes disease and Wilson disease, as well as diseases linked to dysfunction of copper-requiring enzymes, such as SOD1-linked amyotrophic lateral sclerosis, demonstrate the dramatic neurological consequences of altered copper homeostasis. In this review, we explore the physiological importance of copper in the nervous system as well as pathologies related to improper copper handling.

Wilson's disease in Sardinian population: The experience of a pediatric referral center.

BACKGROUND AND OBJECTIVES: Wilson's disease (WD) in children and adolescents is predominantly asymptomatic or oligo-symptomatic. The symptoms are nonspecific and difficult to distinguish from other hepatic or neuropsychiatric disorders. In this study, we present the experience of a pediatric referral center for WD diagnosis and treatment. PATIENTS AND METHODS: We retrospectively analyzed clinical and laboratory data from 99 patients with WD of Sardinian origin, including physical examination, laboratory biochemical testing, liver biopsy, and genetic analysis. RESULTS: Patients were prevalently oligo-symptomatic or asymptomatic. The median age of diagnosis was 8.78 years. Ceruloplasmin values were lower than normal values in all analyzed patients. Twenty-four-hour urinary copper levels were higher than 40 µg/24-h in 92/96 patients. In all analyzed patients with the exception of one, liver copper was higher than 250 µg/g of dry weight but all had >75 µg/g of dry weight. Statistical analysis showed correlation between the age at diagnosis, serum copper, and 24-h urinary copper. Correlation was also found between serum copper and 24-h urinary copper. Molecular analysis of ATP7B gene allowed complete characterization in all the analyzed patients. CONCLUSION: A high index of clinical suspicion and biochemical tests including liver tests, serum ceruloplasmin, and basal 24-h urinary copper excretion and genotype determination are key to WD diagnosis. The long experience that a referral center for WD possesses is an important factor in making WD diagnosis a more accurate process. Studies in animal models on WD could be used as a guide to further investigate the molecular mechanisms that regulate copper metabolism and influence the natural history of WD.

[Genotype-phenotype relationship and genetics study of 115 cases with Wilson's disease].

Objective: To explore the genotype-phenotype relationship of Wilson's disease (WD) and further study the mutation spectrum in the ATP7B gene. Methods: The clinical data and genetic test results of 115 cases with WD diagnosed in the First Affiliated Hospital of Zhengzhou University from 2015 to 2022 were retrospectively analyzed. The rank sum test was used for quantitative data comparison, and χ(2) test was used for count data comparison. Multivariate logistic regression was used to analyze the relationship between patients' genotype and phenotype. Results: The onset of liver manifestations (hepatic type) accounted for 60.9%, neurological symptoms (cerebral type) for 13.0%, and mixed hepato-cerebral symptoms for 26.1%. Presymptomatic individuals (hepatic types) accounted for 62.9%. Next-generation sequencing- diagnosed WD cases accounted for 87.8%. Combined multiplex ligation-dependent probe amplification assay-diagnosed WD cases accounted for 89.6%. A single case with a detected pathogenic locus accounted for 10.4%. The diagnostic rate of WD by genetic testing combined with clinical data was 100%. A total of 76 ATP7B mutations were detected, and the top three mutation frequencies were c.2333G>T (p.Arg778Leu) (30.7%), c.2975C>T (p.Pro992Leu) (7.3%), and c.2621C>T (p.Ala874Val) (6.4%). The mutations were mainly distributed in exons 8, 11-13, and 15-18, accounting for more than 90% of the total mutations. Eight new mutations were found, including c.3724G>A (p.Glu1242Lys), c.3703G>C (p.Gly1235Arg), c.3593T>C (p.Val1198Ala), c.2494A>C (p.Lys832Gln), c.1517T>A (p.Ile506Lys), c.484G>T (p.Glu162Ter), c.1870-49A>G, and the missing of exons 10-21. Liver histopathology showed cellular edema, degeneration, inflammation, and necrosis, as well as a 42.8% copper staining positive rate. Genotype-phenotype analysis showed that the p.Arg778Leu mutation had higher alanine aminotransferase (ALT) levels than those carrying other mutations (P=0.024), while the homozygous mutation of p.Arg778Leu was associated with cerebral-type patients (P=0.027). Conclusion: Genetic testing plays an important role in the diagnosis of WD. p.Arg778Leu is the first high-frequency mutation in the Chinese population, and patients carrying it have higher ALT levels. The p.Arg778Leu homozygous mutation is prone to causing cerebral-type WD. This study expands the ATP7B gene mutation spectrum.

The mutation spectrum and ethnic distribution of Wilson disease, a review.

Wilson's disease is a complicated medical condition caused by the accumulation of copper, mostly in the liver and brain. The genetic basis of Wilson's disease is attributed to the presence of pathogenic variants in the ATP7B copper-transporting gene, which prevents the excretion of copper through the biliary tract. To date, ATP7B remains the only identified gene that has been linked to the development of this disease. Our understanding of the disease has been associated with the identification of particular disease-causing variants that present specific impairments in copper transporters. It is crucial to identify the most frequent variant in terms of ethnicity to facilitate testing of its functionality. This study represents the initial comprehensive analysis of ATP7B variants, providing insights into the extensive range of disease-causing mutations. Here, we describe the 1275 distinct ATP7B variants documented so far, with particular emphasis on their regional and ethnic prevalence. The H1069Q missense variant is the most frequently reported in Europe, Northern America, and North Africa, whereas the R778L, C271*, and M645R variants are the most prevalent in the East Asian, Middle Eastern-South Asian, and South American populations, respectively. Acquiring such knowledge would facilitate the implementation of a selective mutation screening approach, targeting the most predominant variant identified within a specific ethnic group or geographic region for better diagnosis of the disease.

Research progress in stem cell therapy for Wilson disease.

Wilson disease (WD), also known as hepatolenticular degeneration, is an autosomal recessive disorder characterized by disorganized copper metabolism caused by mutations in the ATP7B gene. Currently, the main treatment options for WD involve medications such as d-penicillamine, trientine hydrochloride, zinc acetate, and liver transplantation. However, there are challenges that encompass issues of poor compliance, adverse effects, and limited availability of liver sources that persist. Stem cell therapy for WD is currently a promising area of research. Due to the advancement in stem cell directed differentiation technology in vitro and the availability of sufficient stem cell donors, it is expected to be a potential treatment option for the permanent correction of abnormal copper metabolism. This article discusses the research progress of stem cell therapy for WD from various sources, as well as the challenges and future prospects of the clinical application of stem cell therapy for WD.

Phenotype and molecular characterization of Wilson's disease in Morocco.

BACKGROUND AND STUDY AIMS: In Morocco the prevalence of Wilson disease (WD) and the spectrum of mutations are not known. The aim of the present study was to estimate the prevalence of WD in Morocco, to evaluate the phenotype among a large cohort of WD patients, and to characterize ATP7B variants in a subgroup of WD patients. PATIENTS AND METHODS: We collected data from 226 patients admitted to five university hospital centers in Morocco between 2008 and 2020. The diagnosis was based on clinical manifestations, function tests and biochemical parameters. The genotype was characterized in 18 families diagnosed at the University Hospital Center of Marrakesh, by next generation sequencing. RESULTS: The mean annual prevalence in Morocco was 3.88 per 100,000 and the allele frequency was 0.15 %. Among the 226 patients included (121 males and 105 females), 196 were referred for a hepatic or neurological involvement and 30 were asymptomatic. The mean age at diagnosis was 13 ± 5.1 years (range: 5 - 42 years). Consanguinity was found in 63.3 % of patients. The mean duration of illness was 2.8 ± 1.9 years. Kayser-Fleischer rings were found in 131 (67.9 %) of 193 patients. Among the 196 symptomatic patients, 141/159 (88.7 %) had low serum ceruloplasmin (<0.2 g/L) and a high 24-hours urinary copper (>100 µg/day) was found in 173/182 (95.1 %) patients. The initial treatment was D-penicillamine in 207 patients, zinc acetate in five, zinc sulfate in five, and nine patients were not treated; 60/207 (29 %) patients have stopped treatment. A total of 72 patients died; the mortality rate was 31.9 %. Eight different ATP7B variants were identified among the 18 patients studied, of which two were novel (p.Cys1104Arg and p.Gln1277Hisfs*52), and six previously published (p.Gln289Ter, p.Cys305Ter, p.Thr1232Pro, p.Lys1020Arg, p.Glu583ArgfsTer25 and c.51+4A>T). All informative patients were homozygous for the disease-causing mutation. CONCLUSION: In Morocco, a high prevalence due to consanguinity and a high mortality rate due to the difficulty of diagnosis and lack of treatment were observed in WD patients. NGS sequencing identified new ATP7B variants in WD patients from Morocco.

A Case of Wilson's Disease Suspected to Involve a Novel Genetic Mutation of ATP7B Gene, Requiring a Differential Diagnosis with Non-alcoholic Steatohepatitis.

A 19-year-old Japanese man was referred for a further evaluation of liver dysfunction. Despite the absence of symptoms or obesity, the liver biopsy results were consistent with non-alcoholic steatohepatitis. Subsequent investigations revealed low serum ceruloplasmin, increased urinary copper excretion, and a known mutation c.3809A>G (p.Asn1270Ser) in the copper-transporting enzyme P-type ATPase (ATP7B) gene, leading to a diagnosis of Wilson's disease. A previously unreported variant, i.e., c.3866A>T (p.Asp1289Val) was detected on the patient's other allele and was considered a novel mutation, classified as 'likely pathogenic' according to the American College of Medical Genetics guidelines.

Structure and mechanism of the human copper transporting ATPases: Fitting the pieces into a moving puzzle.

Human copper transporters ATP7B and ATP7A deliver copper to biosynthetic pathways and maintain copper homeostasis in the cell. These enzymes combine several challenges for structural biology because they are large low abundance membrane proteins with many highly mobile domains and long disordered loops. No method has yet succeeded in solving the structure of the complete fully functional protein. Still, X-ray crystallography, Cryo-EM and NMR helped to piece together a structure based model of the enzyme activity and regulation by copper. We review the structures of ATP7B and ATP7A with an emphasis on the mechanistic insights into the unique aspects of the transport function and regulation of the human copper ATPases that have emerged from more than twenty years of research.

Wilson Disease in Children in the Eastern Region of Morocco: Analysis of 24 Cases.

Wilson's disease (WD), or "hepato-lenticular degeneration," is a rare genetic disorder of autosomal recessive inheritance causing toxic tissue accumulation of copper, mainly in the liver, brain, and cornea. Its phenotypic and genotypic heterogeneity characterizes it. This study aimed to clarify the clinical features and spectrum of Wilson's disease in children from the eastern region of Morocco and to study the evolutionary profile and survival in this population while discussing and highlighting the various diagnostic and therapeutic difficulties encountered in the management of WD in our context. This retrospective study encompassed 24 children diagnosed with Wilson's disease, selected from the gastroenterology-hepatology and pediatric nutrition units at Mohamed VI University Hospital in Oujda, Morocco, over a span of nine years, from January 2015 to November 2023. Our series results show 14 boys and 10 girls; the median age of discovery was 11 years, with extremes ranging from 18 months to 15 years. The consanguinity was found in 13 patients. Clinically, the edemato-ascitic syndrome was noted in 14 patients with an alteration of the general state; icterus was found in 13 patients; signs of portal hypertension were present in six patients; and neurological signs in seven cases. Skin manifestations occurred in three cases, and arthralgia in three cases. Six children were diagnosed on the occasion of a family screening. Biologically, hepatic cytolysis was found in 20 patients, with signs of hepatocellular failure in 15 cases. Hemolytic anemia was present in nine patients. Ceruloplasminemia was decreased in 21 patients and cupremia in 19 patients. Cupruria was increased in 22 cases. The Kayser-Fleicher ring was found in 10 cases. Abdominal ultrasound showed ascites in 16 patients, hepatomegaly in 1, splenomegaly in two cases, hepatosplenomegaly in five cases, and cirrhosis in two. MRI showed signal abnormalities in 11 patients. Therapeutically, D-penicillamine was initially introduced in 18 patients and zinc acetate in 6 patients. The evolution was favorable for 15 patients still followed up in the department. Three patients died of hepatocellular failure, and two died of hepatic encephalopathy. Four patients were lost to follow-up.

Copper Conundrum: Navigating Atypical Wilson's Disease Through Radiological Insights.

Wilson's disease is a rare genetic disorder characterized by abnormal copper metabolism due to mutations in the ATP-7B gene. This case report details the presentation of a 14-year-old male child exhibiting severe generalized dystonia, rigidity, myoclonic jerks, dysarthria, and excessive salivary drooling. During ophthalmic examination, Kayser-Fleischer rings were identified. Symmetrical hyperintensities in cortical and subcortical areas, including the basal ganglia and brainstem, were noted on brain magnetic resonance imaging (MRI). Additionally, diffusion restriction in the bilateral fronto-parietal region was observed. The diagnosis of Wilson's disease was confirmed through further diagnostic assessments, such as serum ceruloplasmin levels and urine copper excretion. Treatment was initiated with penicillamine, anticonvulsants, and supportive measures, resulting in partial recovery after a three-month follow-up period. This case emphasizes the significance of identifying atypical MRI brain findings in Wilson's disease, which aids in early diagnosis and appropriate management to prevent irreversible neurological damage.

The interplay between copper metabolism and microbes: in perspective of host copper-dependent ATPases ATP7A/B.

Copper, a vital element in various physiological processes, is transported from the gastrointestinal tract to tissues and cells through diverse copper transporters. Among these transporters, ATP7A and ATP7B play significant roles in regulating systemic copper metabolism and exhibit precise regulation in their intracellular trafficking. These transporters undergo dynamic shuttling between the trans-Golgi network (TGN) and the plasma membrane via the endocytic recycling mechanism, which involves the retromer and other associated factors. Interestingly, the antimicrobial attribute of copper implies a potential connection between microbial infection and copper metabolism. Several microbes, including Salmonella enterica, Cryptococcus, Influenza A virus (IAV) and Zika virus (ZIKV) have been observed to impact the regulatory mechanisms of ATP7A/B, either directly or indirectly, as a means of survival. This review summarizes the key features and trafficking mechanisms of the copper transporters ATP7A/B, and examines the intricate interplay between microbes and copper metabolism. Ultimately, it highlights how microbes can perturb copper homeostasis through interactions with host factors, offering valuable insights into the mechanistic aspects of host-microbe interactions.

Enfermedad de Wilson: experiencia de un centro de referencia en Colombia / Wilson's disease: Experience of a reference center in Colombia

Resumen Introducción: la enfermedad de Wilson es una enfermedad heterogénea causada por mutaciones en el gen ATP7B. La presentación clínica es variable, en fenotipos hepáticos y neuropsiquiátricos. El objetivo de este estudio es describir una cohorte retrospectiva de pacientes. Materiales y métodos: estudio retrospectivo descriptivo de pacientes atendidos en el Hospital Pablo Tobón Uribe desde enero de 2004 a septiembre de 2017. Resultados: se reportaron 27 pacientes, 17 hombres y 10 mujeres. El tiempo de seguimiento medio fue de 2,18 años, el 40% presentó síntomas neurológicos; el 29%, psiquiátricos; y el 85%, alteración hepática. En el laboratorio, el 85% presentó ceruloplasmina baja; 55%, cobre urinario alto; en casos con biopsia hepática, 7 tenían depósito de cobre en coloraciones especiales. En neuroimágenes, el 84% presentó hallazgos sugestivos de enfermedad de Wilson y en 3 casos se documentó una mutación genética patogénica. Durante el seguimiento, el 51% mejoró clínica o bioquímicamente, el 11% se mantuvo estable y el 18% se deterioró. El 88% de los casos sobrevivió al final del seguimiento. Conclusiones: este estudio es la cohorte retrospectiva más grande de Colombia. Los resultados son base para nuevos estudios poblacionales buscando de manera activa la enfermedad para documentarla en su fase preclínica y, de este modo, impactar en el pronóstico.

Abstract Introduction: Wilson's disease is a heterogeneous disorder caused by mutations in the ATP7B gene. Its clinical presentation is variable in hepatic and neuropsychiatric phenotypes. The aim of this study is to describe a retrospective cohort of patients. Materials and methods: A descriptive retrospective study was carried out in patients treated at the Hospital Pablo Tobón Uribe from January 2004 to September 2017. Results: 27 patients were reported, 17 men and 10 women. The mean follow-up time was 2.18 years. 40% of the patients had neurological symptoms, 29% psychiatric symptoms, and 85% hepatic impairment. Lab tests showed that 85% had low ceruloplasmin and 55% had increased urinary copper. In cases that underwent liver biopsy, 7 had special copper colorations. Neuroimaging revealed that 84% had findings suggestive of Wilson's disease and a pathogenic genetic mutation was documented in 3 cases. During follow-up, 51% improved clinically or biochemically, 11% remained stable, and 18% deteriorated. 88% of cases survived at the end of follow-up. Conclusions: This study is the largest retrospective cohort carried out in Colombia. The results are the basis for new population-based studies actively seeking this disease to describe its preclinical development and thus impact prognosis.

Enfermedad de Wilson / Wilson's disease: overview

La enfermedad de Wilson (EW) es una enfermedad hereditaria rara causada por la deficiencia del trasportador ATP7B. La proteína codificada por este gen facilita la incorporación del cobre a la ceruloplasmina. Por lo tanto, la EW condiciona una acumulación de cobre principalmente en el hígado y en el sistema nervioso central. Su espectro clínico es amplio, desde pacientes asintomáticos hasta enfermedad hepática crónica, fallo hepático agudo o síntomas neurológicos. El diagnóstico se establece mediante la combinación de signos y pruebas diagnósticas como medición de ceruloplasmina, excreción urinaria de cobre, cuantificación de cobre en tejido seco y estudio genético. Las terapias farmacológicas deben ser mantenidas de por vida e incluyen fármacos quelantes del cobre como la D-penicilamina o la trientina e inhibidores de la absorción de cobre como las sales de zinc. El trasplante hepático debe ser una opción en la enfermedad hepática terminal. (AU)

Wilson's disease (WD) is an uncommon hereditary disorder caused by a deficiency in the ATP7B transporter. The protein codified by this gene facilitates the incorporation of the copper into ceruloplasmin. Therefore, WD accumulates copper primary in the liver and secondary in other organs, such as the central nervous system. It represents a wide spectrum of disease, ranging from being asymptomatic in some patients to promote an acute liver failure in others. The diagnosis requires a combination of clinical signs and symptoms, as well as some diagnostic tests such as the measurement of serum ceruloplasmin, the urinary excretion of copper, the liver biopsy or the genetic testing. The treatment must be maintained lifelong and includes some drugs such as chelating agents (penicillamine and trientine) and inhibitors of the copper absorption (zinc salts). Lastly, the liver transplant should be an option for patients with end-stage liver disease. (AU)

Análisis de los polimorfismos p. K832R y p. T991T en pacientes cubanos con diagnóstico clínico de la enfermedad de Wilson / p. K832R and p. T991T polymorphisms’ analysis in Cuban patients with clinical diagnosis of Wilson's disease

Introducción: La Enfermedad de Wilson se caracteriza por la acumulación de cobre en hígado, cerebro, riñones y cornea. Se transmite con un patrón de herencia autosómico recesivo. La causa molecular que la provoca son las mutaciones en el gen ATP7B. Se han informado en la literatura más de 139 polimorfismos en el gen ATP7B. Objetivo: Identificar los cambios conformacionales en los exones 10 y 13 y detectar los polimorfismos p.K832R y p.T991T en el gen ATP7B en pacientes cubanos con diagnóstico clínico de Enfermedad de Wilson. Material y Métodos: Se realizó un estudio descriptivo, durante el período 2012 al 2013, que incluyó 27 pacientes con diagnóstico clínico de Enfermedad de Wilson. Para la amplificación del fragmento de interés, se utilizó la técnica de Reacción en Cadena de la Polimerasa y para identificar los cambios conformacionales se aplicó la técnica de Polimorfismo Conformacional de Simple Cadena, en el exón 10 y 13 del gen ATP7B. La presencia de los polimorfismos p.K832R y p.T991T fueron identificados por secuenciación. Resultados: Se detectaron tres cambios conformacionales diferentes denominados: (a, b y c) en el exón 10 y (a y b) en el exón 13 del gen ATP7B. La frecuencia alélica de los polimorfismos p. K832R y p.T991T en 27 pacientes cubanos con diagnóstico clínico de la Enfermedad de Wilson es 35,2 por ciento y 5,6 por ciento respectivamente. Conclusiones: Se analizó por primera vez en Cuba la combinación de los polimorfismos p. K832R y p. T991T que posibilitará hacer estudios moleculares por métodos indirectos(AU)

Introduction: Wilson's disease is characterized by accumulation of copper in the liver, brain and cornea. It is transmitted with an autosomal recessive inherited disorder. The molecular causes are mutations in the ATP7B gene. It has been reported in the literature more than 139polymorphisms of the ATP7B gene. Objective: Identify the conformational changes in exons 10 and 13 and detect the polymorphisms p.K832R and p.T991T in the ATP7B gene in Cuban patients with clinical diagnosis of Wilson's disease. Material and Methods: Was performed a descriptive study including 27 patients with Wilson’s disease ranging in the time from 2012 to 2013. Were applied the polymerase chain reaction to amplify the fragment of interest and the Conformation Polymorphism Single-Chain procedures in the exon 10 and 13 of the ATP7B gene. The p. K832R and p. T991T polymorphisms were detected by sequencing this fragment. Results: Three different conformational changes were identified: (a, b and c) in exon 10 and (a and b) in exon 13 of the ATP7B gene. The allelic frequency of polymorphisms p. K832R and p. T991T in 27 Cuban patients with clinical diagnosis of Wilson's disease is 35.2 percent and 5.6 percent, respectively. Conclusions: It is the first time in Cuba that a combination of the polymorphisms p. K832R and p. T991T were identified which will allow to make possible molecular studies by indirect methods(AU)

Enfermedad de Wilson. Actualidad del tema / Wilson’s disease. Theme update

La enfermedad de Wilson constituye un problema de salud mundial. Es una enfermedad hereditaria que si no se atiende de forma adecuada, puede provocar lesiones irreversibles en el hígado y el cerebro, que pueden llevar a la muerte del paciente. En este trabajo se realizó una amplia revisión bibliográfica en bases de datos de la red de Infomed como: LILACS, Hinari, Scielo, Medline/PubMed y en buscadores como: google. Se analizaron 24 artículos referentes a la temática y más del 60% correspondían a los últimos cinco años. La enfermedad de Wilson es poco conocida y la prevalencia mundial es 1:35 000. El diagnóstico clínico se realiza utilizando varias pruebas bioquímicas. La causa molecular que la provoca son las mutaciones en el gen atp7b y en la actualidad se han informado más de 500. En este trabajo se da a conocer complejidad del diagnóstico clínico-molecular de la enfermedad de Wilson.

Wilson’s disease is a world health problem. It is a hereditary disease that could cause irreversible lesions in the liver and brain and lead to patient’s death if it is not adequately treated. In this paper its presents a comprehensive literature review was consulted different databases network in Infomed as: LILACS, Hinari, Scielo, Medline/ PubMed and search engine such as Google. More than 60% correspond to the last 5 years. The prevalence of Wilson’s disease is 1:35000. The clinical diagnosis is achieved using several biochemical tests. The molecular causes that provoking this disease are the mutations in the atp7b gene, and there have been informed more than 500. The difficulty of the clinical and molecular diagnosis was explained in this work.

Identificación del polimorfismo k832r en pacientes cubanos con diagnóstico clínico de la enfermedad de Wilson / Identification of the k832r polymorphism in patients with clinical diagnosis of Wilson's disease

Introducción: la enfermedad de Wilson se caracteriza por la acumulación de cobre fundamentalmente en el hígado. Se transmite con un patrón de herencia autosómico recesivo. La causa molecular que la provoca son las mutaciones en el gen atp7b. Se han informado en la literatura varios polimorfismos en el gen atp7b. Objetivo: identificar el polimorfismo K832R en 100 pacientes cubanos diagnosticados clínicamente con la Enfermedad de Wilson. Material y Métodos: en el presente estudio se empleó la técnica de cribaje: Polimorfismo Conformacional de Simple Cadena para la determinación de cambios conformacionales en el exón 10. Se utilizó la Técnica de Secuenciación para la identificación del polimorfismo K832R. Resultados: se detectaron tres cambios conformacionales diferentes denominados: a, b y c. El cambio conformacional b y c correspondió al polimorfismo K832R en estado heterocigótico y homocigótico respectivamente. La frecuencia alélica del polimorfismo K832R en 100 pacientes cubanos diagnosticados clínicamente con la Enfermedad de Wilson es de 35%. Conclusiones: se identificó por primera vez en Cuba el polimorfismo K832R y posibilitará hacer estudios moleculares por métodos indirectos.

ABSTRACT Introduction: Wilson's disease is characterized by accumulation of copper in liver, brain and cornea. It is an autosomal recessive inherited disorder of copper metabolism. The molecular causes are mutations in the atp7b gene. It has been reported in the literature several polymorphisms in the atp7b gene. Objective: this research aims to identify the polymorphism K832R in 100 Cubans patients with clinical diagnosis of Wilson's disease. Materials and Methods: in this study we used the technique of screening: single stranded conformational polymorphism for the determination of conformational shifts in exon 10. We used sequencing technique for identifying the K832R polymorphism. Results: they identified three different conformational shifts denominated: a, b and c. The shifts b and c corresponded to polymorphism K832R in heterozygous and homozygous state respectively. The frequency of this polymorphism K832R is 35% in 100 Cubans patients. Conclusions: the polymorphism K832R was identified first in Cuba and it will make possible molecular studies by indirect methods.

Análisis molecular del exón 2 del gen atp7b en pacientes cubanos con la enfermedad de Wilson / Molecular analysis in the exon 2 of atp7b gene in cubans patients with wilson disease

La enfermedad de Wilson es un trastorno hereditario que se transmite con un patrón de herencia autosómico recesivo. Se caracteriza por la acumulación de cobre fundamentalmente en hígado y cerebro. La causa molecular que la provoca son las mutaciones en el gen atp7b y hasta la fecha se han reportado más de 380. El diagnóstico molecular es complejo. En el presente estudio se empleó la técnica de cribaje: Polimorfismo Conformacional de Simple Cadena para la determinación de cambios conformacionales en el exón 2 en el fragmento a. Se detectó dos cambios conformacionales diferentes denominados: a y b. El cambio conformacional b correspondió a la mutación N41S en estado heterocigótico. La frecuencia alélica de la mutación N41S en 130 pacientes cubanos diagnosticados clínicamente con la enfermedad de Wilson es de un 0.77 por ciento.

Wilson disease is an autosomal recessive inherited disorder of copper metabolism. It is clinically characterised by hepatic and neurological manifestations related to the accumulation of copper in the liver and brain. Molecular analysis reveals more than 380 distinct mutations. The molecular diagnosis is complex. In this investigation we use single- strand conformation polymorphism for determine conformationals shift. We identified two different conformationals shifts in the exon 2 of atp7b gene in cubans patients, denominated: a and b. The shift b correspond with the mutation N41S. The frequency of this mutation is 0.77 percent in 130 cubans patients.