[Reappraisal on the clinical diagnosis and treatment of hereditary liver diseases].

Hereditary liver diseases are rare conditions characterized by a wide variety of types and very low incidence rate for each one. Their clinical manifestations are diverse, and diagnosis often requires specialized testing, posing a high likelihood of missed or misdiagnosis. Systemic learning the basic knowledge and classification of hereditary liver diseases, as well as an understanding of the clinical features, laboratory findings, imaging, and pathological features of the relatively common hereditary liver diseases in adults, such as Wilson's disease, hemochromatosis, and alpha-1 antitrypsin deficiency, is essential. Targeted genetic testing can aid in the timely identification and correct diagnosis of these diseases. Once the etiology is revealed, appropriate treatment can often improve the clinical outcomes and quality of life. Cell therapy and gene therapy represent future directions and may offer the chance of cure for certain conditions. Currently, for patients who have progressed to end-stage liver disease, liver transplantation remains the ultimate treatment option and mostly yield excellent long-term prognosis if the indication and timing are appropriate.

[Progress in drug therapy of Wilson's disease].

Wilson's disease, also known as hepatolenticular degeneration, is an inherited disorder of copper metabolism caused by homozygous or compound heterozygous variants in the ATP7B gene, which is mainly clinically manifested as liver disease and/or neurological/psychological disorders, and Kayser-Fleischer ring in the peripheral cornea. Patients with Wilson's disease are currently treated with lifelong use of chelating agents that promote copper ion excretion and/or zinc agents that reduce copper absorption, but there is still an unmet clinical need because some patients who receive treatment have poor efficacy, disease progression, or serious adverse drug reactions. In recent years, new therapeutic drugs have been developed rapidly. This article will summarize the advances in drug treatment of Wilson's disease, shedding new light on the treatment of Wilson's disease.

[Application of zinc agents in Wilson's disease].

Wilson's disease (WD) is a kind of inherited metabolic liver disease in which most patients need lifelong medication to maintain copper homeostasis in the body. Zinc is one of the most commonly used drugs for WD treatment. However, there are currently few high-quality, large-sample, and prospective clinical trials on zinc agent-treated WD. The selection and application of zinc agents are mainly based on patients' clinical phenotype, tolerance to zinc agents, and physicians' experience in treating WD. This article summarizes the application of zinc agents in WD.

Relative exchangeable copper, a high-quality biomarker for differentiation of Traditional Chinese Medicine syndrome in Wilson's disease.

OBJECTIVE: To investigate the value of relative exchangeable copper (REC) in diagnosing Wilson's disease (WD) and to determine its significance in the differentiation of Traditional Chinese Medicine (TCM) syndrome. METHODS: A total of 78 patients with WD were recruited on the same day of the medical visit, and among them, 32 were suffering from non-WD (N-WD) and 37 were heterozygous ATP7B carriers (HC) enrolled as controls. Molecular genetic testing was performed for diagnosing WD and HC. Additionally, REC levels in different TCM syndromes were investigated. The correlation between REC and serum ceruloplasmin (Cp), serum copper oxidase (CO), and 24-h urinary copper was analyzed using the Global Assessment Scale and Unified Wilson's Disease Rating Scale and the significance of REC in WD diagnosis was investigated. Resting-state functional magnetic resonance imaging was used to assess the clinical symptoms of WD and analyze its severity in different TCM syndromes. RESULTS: REC determination helped in significantly distinguishing patients with N-WD or HC from those with WD with a cut-off of 21.15%. Furthermore, the comparative analysis of REC ratios among different TCM syndromes showed markedly high REC levels in the dampness-heat internal accumulation syndrome group. Additionally, the seed-based functional connectivity value from the putamen to the cerebellum was significantly correlated with TCM syndromes. CONCLUSION: REC level is a high-quality biomarker for diagnosing WD that effectively reflects disease severity and plays an essential role in deciding on treatment strategies and prognosis. Furthermore, REC levels are closely related to TCM syndromes in WD; thus, it is a potential objective quantitative indicator for distinguishing TCM syndromes in WD.

Aberrant copper metabolism and hepatic inflammation cause neurological manifestations in a mouse model of Wilson's disease.

Pathogenic germline mutations in the P-type copper-transporting ATPase (ATP7B) gene cause Wilson's disease (WD), a hereditary disorder characterized by disrupted copper metabolism. The Arg778Leu (R778L) mutation in exon 8 is prevalent among individuals with WD in East Asia and is associated with more severe phenotypes. In this study, we generated a WD mouse model harboring R778L mutation (R778L mice) using CRISPR/Cas9. R778L mice exhibit a range of pathological characteristics resembling those of patients with WD and the same point mutations, including aberrant copper metabolism, pathological cellular injury, inflammation, and severe hepatic fibrosis. At 3-5 months of age, these mice started to display neurological deficits in motor coordination and cognitive dysfunction, accompanied by increased expression of inflammatory cytokines in the central nervous system. Microglia in the striatum and cortex exhibit significant activation, shorter processes, and decreased branch points. However, the Cu2+ levels in the brain tissue of R778L mice did not differ significantly from those of wild-type mice. Notably, inhibition of hepatic inflammation with PJ34 or siNfkb markedly alleviated the deficiencies in cognitive performance and improved locomotor activity in R778L mice. Thus, this study establishes a novel murine model to investigate the pathophysiology of WD, highlights the liver-brain crosstalk responsible for neurological manifestations in individuals with WD caused by the R778L point mutation, and demonstrates the potential of modulating liver inflammation as a therapeutic strategy for alleviating the neurological manifestations of WD.

Epidemiology of Wilson disease in Germany - real-world insights from a claims data study.

BACKGROUND: Wilson disease (WD) is a rare disorder of copper metabolism, causing copper accumulation mainly in the liver and the brain. The prevalence of WD was previously estimated around 20 to 33.3 patients per million for the United States, Europe, and Asia, but data on the prevalence of WD in Germany are limited. OBJECTIVES: To describe patient characteristics and to assess prevalence of WD in Germany using a representative claims database. METHODS: WD patients were identified in the WIG2 (Wissenschaftliches Institut für Gesundheitsökonomie und Gesundheitssystemforschung; Scientific Institute for Health Economics and Health Systems Research) benchmark database of 4.5 million insured Germans by combining ICD-10-coding with WD-specific lab tests and treatments. The study period ranged from 2013 to 2016 for assessing patient characteristics, and to 2018 for prevalence, respectively. RESULTS: Seventy unique patients were identified. Most patients (86%) were between 18 and 64 years of age and more often male (60%) than female. Two patients (3%) younger than 18 years were included, as well as 8 patients (11%) older than 64 years. Most common WD subtypes were hepatic (57%), psychiatric (49%), and neurologic (44%). Average prevalence was 20.3 patients per million (range: 17.8-24.4), with similar results for two-year prevalence. Generally, prevalence increased steadily over the study period. Observed mortality was low, with only one death during the study period. CONCLUSIONS: This study adds valuable real-world data on the prevalence and patient characteristics of WD in Germany. Generally, our findings align with other reports and contribute to the global understanding of WD epidemiology. Still, regional and temporal trends remain to be investigated more thoroughly to further the understanding of the natural history and epidemiology of this rare disease.

Topographical metal burden correlates with brain atrophy and clinical severity in Wilson's disease.

BACKGROUND: Quantitative susceptibility mapping (QSM) is a post-processing technique that creates brain susceptibility maps reflecting metal burden through tissue magnetic susceptibility. We assessed topographic differences in magnetic susceptibility between participants with and without Wilson's disease (WD), correlating these findings with clinical severity, brain volume, and biofluid copper and iron indices. METHODS: A total of 43 patients with WD and 20 unaffected controls, were recruited. QSM images were derived from a 3T MRI scanner. Clinical severity was defined using the minimal Unified Wilson's Disease Rating Scale (M-UWDRS) and Montreal Cognitive Assessment scoring. Differences in magnetic susceptibilities between groups were evaluated using general linear regression models, adjusting for age and sex. Correlations between the susceptibilities and clinical scores were analyzed using Spearman's method. RESULTS: In age- and sex-adjusted analyses, magnetic susceptibility values were increased in WD patients compared with controls, including caudate nucleus, putamen, globus pallidus, and substantia nigra (all p < 0.01). Putaminal susceptibility was greater with an initial neuropsychiatric presentation (n = 25) than with initial hepatic dysfunction (n = 18; p = 0.04). Susceptibility changes correlated negatively with regional brain volume in almost all topographic regions. Serum ferritin, but not serum copper or ceruloplasmin, correlated positively with magnetic susceptibility level in the caudate nucleus (p = 0.04), putamen (p = 0.04) and the hippocampus (p = 0.03). The dominance of magnetic susceptibility in cortical over subcortical regions correlated with M-UWDRS scores (p < 0.01). CONCLUSION: The magnetic susceptibility changes could serve as a surrogate marker for patients with WD.

Multi-omics study unravels gut microbiota and metabolites alteration in patients with Wilson's disease.

Hepatolenticular degeneration (HLD), also known as Wilson's disease (WD), is a rare autosomal recessive disorder regarding copper metabolism. Whether gut microbiota imbalance is involved in developing HLD remains unknown. A comprehensive 16S rRNA amplicon sequencing, metagenomic sequencing, and metabonomic analysis were undertaken in patients with WD to analyze the composition and function profiles of gut microbiota in patients with WD. The data demonstrated differences in gut microbiota and metabolic pathways between WD patients and normal individuals, significantly decreasing bacterial richness and diversity. The levels of Selenomonaceae and Megamonas in WD patients are significantly higher than those in healthy individuals. The relative abundances of Roseburia inulinivorans in patients with WD are lower than in healthy individuals. Compared with healthy people, the level of metabolites in patients with WD is abnormal. Leucylproline, 5-Phenylvaleric Acid and N-Desmethylclobazam, which have nutritional and protective effects, are significantly reduced fecal metabolites in patients with WD. D-Gluconic acid, which can chelate metal ions, may be a potential treatment for WD. The positive correlation it demonstrates with Alistipes indistinctus and Prevotella stercora indicates potential bacteria able to treat WD. These metabolites are mainly related to the biosynthesis of antibiotics, alpha-linolenic acid metabolism, one carbon pool by folate, nicotinate and nicotinamide metabolism. In conclusion, the data from this study elucidate novel mechanisms describing how abnormal gut miccrobiota contribute to the pathogenesis of WD and outlines new molecules for the treatment of WD.

PSYCHOTHERAPEUTICAL FEATURES OF PERSONS WITH MULTIPLE SCLEROSIS AND HEPATOCEREBRAL DEGENERATION.

Physiological process of aging causes a slight deterioration in memorization, learning, and the speed of cognitive processes. There is often a big gap between established standards, norms that work for mass and individual cases, for which standards are no more than guidelines, not prescriptions and dementia could be caused by many factors, the most important of which are degenerative, vascular, and toxic. Multiple sclerosis (MS) is the commonest non-traumatic disabling disease to affect young adults. Wilson's disease (WD) is an uncommon hereditary disorder caused by a deficiency in the ATP7B transporter. All of the above realized in the aim of our work: performing comprehensive clinical and laboratory examination of patients with multiple sclerosis and patients with Wilson's disease in order to study the problem of neurodegenerative diseases and their prevention. MATERIALS AND METHODS: The "Mini Mental Status Exam" scale was used for the screening assessment of the state of cognitive functions and the study of the level of intellectual productivity of patients. To determine the verbal memory, the method: "memorizing 10 words" was used, and the Derogatis SCl-90-P method was used to study the personality and emotional sphere. Psychodiagnostic examination was performed for 111 patients with MS and 33 patients with WD. RESULTS: Сognitive disorders were found in less than half of the patients (44.9%) in young patients with multiple sclerosis, whereas in the older age group, almost all patients (91.2%) had various cognitive disorders. Violation of verbal memory, of varying degrees of severity, was found in 69.1% of patients with multiple sclerosis. More than half of the patients with Wilson's disease (66.7%) had impaired productivity of cognitive functions of various degrees of severity. Identified violations were noted in 27.3% of patients (10 patients), among them 7 were aged 40 years or older and had not received pathogenetic treatment for a long time. Violations of mental functions of various nature and severity were found in 78.8% patients with Wilson's disease. They are characterized by dynamic and voluntary-regulatory thinking disorders, such as exhaustion of mental capacity (88.0%), a decrease in its speed characteristics (39.4%) and general productivity, as well as inertia (48.5%), impulsiveness (27.3%) of mental processes. Decrease in criticality of thinking was noted in 33.3% of patients. CONCLUSIONS: The structures that take participation in cognitive functions of the brain are always involved (sooner or later) in the pathogenetic process in patients with multiple sclerosis and hepatocerebral degeneration, that leads to the development of their defects. Therefore, for the treatment of these patients, a comprehensive, pathogenetically justified and personal fixed therapy is necessary. The development of palliative therapy, which will prevent the transformation of cognitive disorders into dementia, may become a prospect for further research.

Unusual presentation of Wilson's disease as proximal renal tubular acidosis with isolated phosphaturia.

An adolescent girl presented with recurrent lower limb fractures and was managed as osteogenesis imperfecta. Low phosphate levels noted on routine investigation were the clue for the phosphaturia and subsequent diagnosis of proximal renal tubular acidosis (RTA). Further, with a history of jaundice, she was diagnosed with Wilson's disease, which was the underlying cause of proximal RTA with isolated phosphaturia and consequent fractures. Standard treatment for Wilson's disease along with supplementation of oral phosphate and bicarbonate led to complete recovery of fragile bones.

Gandouling ameliorates liver injury in Wilson's disease through the inhibition of ferroptosis by regulating the HSF1/HSPB1 pathway.

Ferroptosis, an iron-dependent form of cell death, plays a crucial role in the progression of liver injury in Wilson's disease (WD). Gandouling (GDL) has emerged as a potential therapeutic agent for preventing and treating liver injury in WD. However, the precise mechanisms by which GDL mitigates ferroptosis in WD liver injury remain unclear. In this study, we discovered that treating Toxic Milk (TX) mice with GDL effectively decreased liver copper content, corrected iron homeostasis imbalances, and lowered lipid peroxidation levels, thereby preventing ferroptosis and improving liver injury. Bioinformatics analysis and machine learning algorithms identified Hspb1 as a pivotal regulator of ferroptosis. GDL treatment significantly upregulated the expression of HSPB1 and its upstream regulatory factor HSF1, thereby activating the HSF1/HSPB1 pathway. Importantly, inhibition of this pathway by NXP800 reversed the protective effects of GDL on ferroptosis in the liver of TX mice. In conclusion, GDL shows promise in alleviating liver injury in WD by inhibiting ferroptosis through modulation of the HSF1/HSPB1 pathway, suggesting its potential as a novel therapeutic agent for treating liver ferroptosis in WD.

Discussion on the relationship between the distribution characteristics of TCM syndrome types and related objective indicators in hepatolenticular degeneration.

Hepatolenticular degeneration is a rare treatable autosomal recessive inherited copper metabolism disorder with a diverse clinical phenotype and an exceptionally complex pathogenesis. Early definitive phenotypic diagnosis and targeted treatment are major challenges worldwide. In this study, we strictly followed the "National Standards of the People's Republic of China - Terminology of Traditional Chinese Medicine Clinical Diagnosis and Treatment (Syndrome Part)," "Chinese Medicine Nomenclature," and the clinical investigation-determined traditional Chinese medicine syndrome differentiation standards at Anhui University of Chinese Medicine to select 6 of the most common traditional Chinese medicine syndrome differentiations. This study retrospectively analyzed 107 patients admitted between 2019 and 2023 with Wilson's disease based on real-world data. After testing for normal distribution and homogeneity of variance, corresponding analysis of variance was selected, followed by post hoc multiple comparisons. Of the selected 25 objective influencing factors, 22 exhibited normal distribution, while red blood cells, hemoglobin, and type IV collagen did not pass the homogeneity of variance test. After analysis of variance, the factors ceruloplasmin (CP) and copper oxidase (SCO) showed significant differences among patients with different traditional Chinese medicine syndromes (P < .05), with partial η2 for CP being 0.13 > 0.06 and for SCO being 0.143 > 0.14. Post hoc multiple comparison results indicated significant differences in CP and SCO among patients with certain traditional Chinese medicine syndromes (P < .05). There were significant differences in the factors CP and SCO among patients with different traditional Chinese medicine syndromes. Significant differences were observed in the copper blue protein factor between damp-heat syndrome and liver and kidney deficiency syndrome, liver and kidney deficiency syndrome and liver and kidney yin deficiency syndrome, liver and kidney deficiency syndrome and phlegm heat and wind syndrome, as well as liver and kidney deficiency syndrome and syndrome of phlegm and blood stasis (P < .05). Significant differences were also found in the SCO factor between damp-heat syndrome and liver and kidney deficiency syndrome, liver and kidney deficiency syndrome and liver and kidney yin deficiency syndrome, liver and kidney deficiency syndrome and phlegm heat and wind syndrome, and liver and kidney deficiency syndrome and syndrome of phlegm and blood stasis (P < .05).

Clinical and neuroimaging features in neurological Wilson's disease with claustrum lesions.

According to early research, the incidence of claustrum lesions in patients with neurological Wilson's disease (WD) was inconsistent, ranging from 1.8 to 75% on magnetic resonance imaging (MRI). Our study aims to explore the incidence, clinical presentation features, iconography features, and possible pathological mechanisms in WD patients with claustrum lesions on magnetic resonance imaging (MRI), to characterize the clinical, and brain imaging findings and possible pathological mechanisms in the patients with WD. Retrospective cases meeting the inclusion criteria were studied for analyzing MRI characteristics and associated physicochemical examination data in neurological WD patients with claustrum lesions. 443 (66.3%) with brain MRI abnormalities were screened from 668 WD patients. The three (0.7%) patients with the claustrum lesions characteristics on MRI images were: (a) "bright claustrum" in T2-weighted and FLAIR sequences, (b) bilateral symmetrical, (c) non-isolated lesions, (d) occurred only in severe neurological manifestations. The claustrum lesions are not common in neurological WD and mainly appear in cases with severe neurological symptoms. On MRI, the "bright claustrum" signs may be a radiographic marker of neuroinflammation, the features of the lesions showed bilateral symmetry, and hyperintensity signals on T2-weighted, FLAIR, and DWI.

Phenotypic and genetic characterization of children with Wilson Disease from Northeast China.

BACKGROUND: Wilson disease (WD) is an autosomal recessive inherited disease caused by ATP7B variants and characterized by copper metabolism defects. However, children with WD are often asymptomatic, making the clinical diagnosis difficult. Therefore, more accurate methods are required for clinical diagnosis. The objective of this study was to highlight the phenotypic and genetic characteristics of children with WD in northeast China. METHODS: We retrospectively analyzed the clinical data and gene sequencing results of 65 children with WD from January 1, 2014, to December 31, 2022, at the Shengjing Hospital of China Medical University. All data refer to the time of diagnosis before treatment. RESULTS: The median age at diagnosis was 5 years (range 1.2-15 years). In 50 cases (50/65, 76.9%) patients, routine physical examinations revealed only abnormal liver function. However, they had a significantly negative (p < 0.05) Kayser-Fleischer ring (KF). Children with acute liver failure had significantly increased 24 h urinary copper excretion (p < 0.05). We detected 46 genetic variants of ATP7B, including seven novel variants. The most frequent variant was p.R778L with an allele frequency of 38.7%. Phenotype-genotype correlation analysis suggested that p.R778L was significantly associated with lower serum ceruloplasmin levels and higher zinc levels (p < 0.05). The loss-of-function (LOF) variant was associated with significantly lower albumin levels (p < 0.05). CONCLUSION: Most children with WD are asymptomatic, which makes early diagnosis of WD difficult. Therefore, clinical and laboratory characteristics as well as genetic testing are essential. p.R778L is the most frequent variant of ATP7B in China and may play an important role in lowering serum ceruloplasmin levels.

Zinc transporter 1 functions in copper uptake and cuproptosis.

Copper (Cu) is a co-factor for several essential metabolic enzymes. Disruption of Cu homeostasis results in genetic diseases such as Wilson's disease. Here, we show that the zinc transporter 1 (ZnT1), known to export zinc (Zn) out of the cell, also mediates Cu2+ entry into cells and is required for Cu2+-induced cell death, cuproptosis. Structural analysis and functional characterization indicate that Cu2+ and Zn2+ share the same primary binding site, allowing Zn2+ to compete for Cu2+ uptake. Among ZnT members, ZnT1 harbors a unique inter-subunit disulfide bond that stabilizes the outward-open conformations of both protomers to facilitate efficient Cu2+ transport. Specific knockout of the ZnT1 gene in the intestinal epithelium caused the loss of Lgr5+ stem cells due to Cu deficiency. ZnT1, therefore, functions as a dual Zn2+ and Cu2+ transporter and potentially serves as a target for using Zn2+ in the treatment of Wilson's disease caused by Cu overload.

Wilson's Disease-Crossroads of Genetics, Inflammation and Immunity/Autoimmunity: Clinical and Molecular Issues.

Wilson's disease (WD) is a rare, autosomal recessive disorder of copper metabolism caused by pathogenic mutations in the ATP7B gene. Cellular copper overload is associated with impaired iron metabolism. Oxidative stress, cuproptosis, and ferroptosis are involved in cell death in WD. The clinical picture of WD is variable. Hepatic/neuropsychiatric/other symptoms may manifest in childhood/adulthood and even old age. It has been shown that phenotypic variability may be determined by the type of ATP7B genetic variants as well as the influence of various genetic/epigenetic, environmental, and lifestyle modifiers. In 1976, immunological abnormalities were first described in patients with WD. These included an increase in IgG and IgM levels and a decrease in the percentage of T lymphocytes, as well as a weakening of their bactericidal effect. Over the following years, it was shown that there is a bidirectional relationship between copper and inflammation. Changes in serum cytokine concentrations and the relationship between cytokine gene variants and the clinical course of the disease have been described in WD patients, as well as in animal models of this disease. Data have also been published on the occurrence of antinuclear antibodies (ANAs), antineutrophil cytoplasmic antibodies (ANCAs), anti-muscle-specific tyrosine kinase antibodies, and anti-acetylcholine receptor antibodies, as well as various autoimmune diseases, including systemic lupus erythematosus (SLE), myasthenic syndrome, ulcerative colitis, multiple sclerosis (MS), polyarthritis, and psoriasis after treatment with d-penicillamine (DPA). The occurrence of autoantibodies was also described, the presence of which was not related to the type of treatment or the form of the disease (hepatic vs. neuropsychiatric). The mechanisms responsible for the occurrence of autoantibodies in patients with WD are not known. It has also not been clarified whether they have clinical significance. In some patients, WD was differentiated or coexisted with an autoimmune disease, including autoimmune hepatitis or multiple sclerosis. Various molecular mechanisms may be responsible for immunological abnormalities and/or the inflammatory processes in WD. Their better understanding may be important for explaining the reasons for the diversity of symptoms and the varied course and response to therapy, as well as for the development of new treatment regimens for WD.

Serum ceruloplasmin oxidase activity: A neglected diagnostic biomarker for Wilson disease.

BACKGROUND: Low serum ceruloplasmin concentration is considered robust marker for Wilson disease (WD) screening, measuring serum ceruloplasmin oxidase activity might be an even more valuable diagnostic tool, but it has not been sufficiently studied. METHODS: All patients who were assessed for serum ceruloplasmin oxidase activity between January 1, 2016, and September 2, 2019, were enrolled in this study. The diagnostic performance of serum ceruloplasmin oxidase activity was analyzed using receiver operating characteristic curve analysis (ROC), Spearman's rank correlation, and Mann-Whitney U test. RESULTS: Serum ceruloplasmin oxidase activity was significantly decreased in WD patients (0.87 U/L, IQR 0.61-1.54). The optimal cut-off of serum ceruloplasmin oxidase activity to identified WD is 7 U/L, with sensitivity and specificity of 97.03 % and 98.19 %, respectively. Furthermore, this study revealed a positive correlation between enzymatic and immunoreactive serum ceruloplasmin tests. As primary diagnostic methods, serum ceruloplasmin levels below the diagnostic cut-offs for either the enzymatic or immunoreactive tests were observed in 818 out of 842 WD patients (97.15 %). Compared with the presence of K-F rings in asymptomatic patients, the accuracy of serum ceruloplasmin tests was significantly higher (56.12 % VS 95.08 %). Moreover, the positive rate of cranial MRI in neurological patients was similar to the tests of serum ceruloplasmin (92.91 % VS 97.40 %). Moreover, 71 patients had ambiguous genetic results, complicating the diagnosis. However, serum ceruloplasmin tests successfully identified 65 out of these 71 patients (91.55 %). CONCLUSION: Serum ceruloplasmin oxidase activity has excellent performance in diagnosing WD, which should be widely used as preferred test in WD patients.