Safety profile of D-penicillamine: a comprehensive pharmacovigilance analysis by FDA adverse event reporting system

Cuproptosis and its potential role in musculoskeletal disease

Cuproptosis, a recently identified form of copper-dependent cell death, arises from intracellular copper dyshomeostasis. As an essential trace element, copper plays a critical role in bioenergetic metabolism, redox regulation, and synaptic transmission. However, excessive copper exerts cytotoxic effects through multiple pathways, including increased reactive oxygen species (ROS) production, apoptotic cascade activation, necrotic membrane rupture, inflammatory responses, and mitochondrial dysfunction. Distinct from other cell death mechanisms, cuproptosis is characterized by copper ion binding to acetylated mitochondrial respiratory chain proteins, leading to pathogenic protein aggregation, iron-sulfur cluster depletion, and cellular collapse. Emerging evidence underscores aberrant copper accumulation and resultant proteotoxic stress as pivotal contributors to the pathogenesis of multiple musculoskeletal pathologies, including osteoporosis, osteoarthritis, sarcopenia, osteosarcoma, intervertebral disc degeneration, spinal cord injury, and biofilm-associated orthopedic infections. Understanding the spatiotemporal regulation of cuproptosis may provide novel opportunities for advancing diagnostic and therapeutic approaches in orthopedic medicine. This review synthesizes current insights into the molecular mechanisms of cuproptosis, its pathogenic role in musculoskeletal diseases, and the potential for biomarker-driven therapeutic interventions.

Factors Influencing Liver Cirrhosis Progression in Wilson's Disease Patients: A Retrospective Cohort Study Over 5 Years

OBJECTIVES

Wilson's disease (WD) is a rare autosomal recessive inherited disorder characterized by dysregulated copper metabolism, amenable to treatment with chelating agents. It manifests with hepatic and neurological symptoms, often precipitating the development of liver cirrhosis as a prominent complication. This study aims to elucidate the factors, biomarker alterations, and therapeutic modalities influencing the progression of cirrhosis in WD patients.

METHODS

This retrospective cohort study utilized WD patient data from West China Fourth Hospital (May 2018-September 2023). The primary outcome was the development of cirrhosis in initially cirrhosis-free WD patients. LASSO-COX regression identified predictive factors. The 1:1 propensity score matching generated a matched subgroup for robust Cox regression validation.

RESULTS

Among 133 initially cirrhosis-free WD patients, 47 developed cirrhosis during 35.98 (22.04-49.21) months. Significant differences were observed between the cirrhosis and non-cirrhosis groups in age at enrollment, age at WD diagnosis, clinical symptoms, educational levels, and administration of dimercaptosuccinic acid, compound glycyrrhizin polyene, and phosphatidylcholine. Multivariate Cox regression identified age at enrollment (hazard ratio [HR]: 1.038, 95% CI: 1.002-1.075), the use of glycyrrhizin (HR: 0.421, 95% CI: 0.192-0.926), erythrocyte (HR: 0.748, 95% CI: 0.626-0.895), and platelet counts (HR: 0.993, 95% CI: 0.988-0.998) associated with cirrhosis. Robust Cox analysis on the matched subgroup confirmed these findings.

CONCLUSION

Glycyrrhizic acid emerges as a potential hepatoprotective agent for WD patients. Furthermore, the progression of cirrhosis in WD patients is characterized by advanced age and decreased baseline levels of erythrocytes and platelets, suggesting their potential utility as prognostic indicators.

Gut Akkermansia enhances liver protection and facilitates copper removal during D-penicillamine treatment in a Wilson's disease model

Patients afflicted with Wilson's disease (WD) may encounter hepatic and extraneous manifestations due to the progressive accumulation of copper in the liver and other subsequent organs. Copper-chelating agents, such as D-penicillamine (DPA), are commonly utilized in the medical treatment of copper overload in WD. Manipulating the composition of gut microbiota appropriately can enhance drug efficacy and safety. This study aims to investigate how targeted intervention on gut microbiota influences the effectiveness of copper removal in a WD model during DPA treatment. First, following a 4-week treatment of DPA, the liver copper concentration and gut microbial composition were assessed in the WD mice model to identify potential candidates for targeted regulation of gut microbiota. Second, after 8 weeks of manipulating the gut microbiota during DPA treatment, various parameters including blood liver function indicators, tissue copper load, hepatic histopathological features, and gut microbiota were investigated in WD mice. The findings demonstrated that the presence of Akkermansia significantly enhances the efficacy of DPA, leading to a more efficient elimination of copper from tissues and a greater improvement in liver injury, liver dysfunction, and gut dysbiosis. In contrast, Butyricimonas has an antagonistic effect. The results of gene function prediction analysis indicated that the altered gut microbial function by DPA and Akk is primarily linked to energy generation/utilization, amino acid, fatty acid, lipid, and nucleic acid metabolisms. To summarize, this study provides experimental evidence for the potential application of targeted regulation of gut microbiota in the adjunctive therapy of copper dysregulation disease.IMPORTANCECopper is an essential element in virtually all living organisms. Wilson's disease (WD) is a representative disorder caused by the disruption of copper homeostasis. Oral-chelating agents are the first-line treatment for copper-overloaded diseases, with D-penicillamine (DPA) being the prototypical drug. However, the efficacy and adverse effects of DPA remain challenging in its use for WD treatment. In our study, the supplementation of Akkermansia muciniphila (Akk), a key gut microbe, along with DPA was demonstrated to enhance copper removal, ameliorate liver injury and dysfunction, and restore gut dysbiosis in a mouse model of WD. These findings highlight the significant potential applications of targeted modulation of gut microbiota as "pharmacomicrobiomics" in adjunctive therapy for disorders involving copper dysregulation.

Therapeutic potential of traditional herbal plants and their polyphenols in alleviation of mercury toxicity

Mercury (Hg) is a major environmental contaminant significantly impacting human health. As a naturally occurring element, mercury has been extensively mobilized into aquatic and terrestrial ecosystems over thousands of years, largely due to anthropogenic activities such as mining and metal extraction. Acute mercury toxicity causes extensive physiological damage, affecting vital organs including the kidneys, heart, liver, brain, and skin. Phytochemicals, known for their diverse pharmacological properties, have shown promise in mitigating metal-induced toxicities, including mercury. These compounds exhibit protective effects against mercury-induced multi-organ damage through mechanisms such as reactive oxygen species (ROS) scavenging, cyclooxygenase (COX) inhibition, and anti-inflammatory activity. This review explores the therapeutic potential of traditional herbal plants and their phytoconstituents in alleviating mercury-induced toxicity. Key findings highlight several plants with hepatoprotective effects, mitigating necrosis and anatomical distortion in liver cells. Phytochemicals such as quercetin, rutin, salicylic acid, ferulic acid, 6-gingerol, and 6-shogaol play pivotal roles in downregulating molecular pathways activated by mercury exposure. Other bioactive compounds, including acetogenin and gallic acid, exhibit potent antioxidant properties, with mechanisms such as ROS scavenging and inhibition of lipid peroxidation. This review also highlights certain compounds, such as aloe-emodin and gentisic acid, which exhibit potential for mitigating mercury toxicity through mechanisms like inhibiting oxidative stress and enhancing cellular defense pathways. However, these compounds remain underexplored, with no significant studies conducted to evaluate their efficacy against mercury-induced toxicity, presenting a critical area for future research. These findings underscore the potential of phytochemicals as effective agents in combating mercury toxicity through antioxidant mechanisms, cellular signalling regulation, and heavy metal chelation.

Characterization of renal damage in Wilson's disease-Detailed analysis of 20 Chinese cases

OBJECTIVE

Copper metabolism disorder disease is thought to contribute to renal symptoms in Wilson's disease (WD). Nonetheless, there remains limited knowledge regarding the precise characteristics of renal damage in individuals with Wilson's disease, encompassing clinical presentations, biochemical indicators, imaging findings, and renal histopathological alterations.

METHODS

In this study, 20 patients diagnosed with Wilson's disease and renal involvement were enrolled in our hospital. These patients met the validated European criteria for Wilson's disease, and those with primary kidney disease or secondary renal damage caused by other underlying conditions were excluded. The baseline data of patients were collected. Various biochemical and hematological parameters were monitored. Biochemical examinations were measured using an automatic biochemistry analyzer, blood routines were tested by flow cytometry analysis, 24-h urine copper was tested by atomic absorption spectrophotometer. Besides, CER was measured by turbidimetric immunoassay with a Hitachi 7020 automatic biochemical analyzer (the intraplate and interplate coefficients of variation were 2.7% and 5.13% respectively). Copper oxidase was tested by colorimetric method using p-phenylenediamine hydrochloride (the intraplate and interplate coefficients of variation were both <10%). Diagnostic criteria for Wilson's disease and kidney damage were established based on the European Association for the Study of the Liver (EASL) and CKD Epidemiology Collaboration guidelines, respectively. Statistical analysis was carried out using t-tests and χ2 tests in SPSS 22.0 software. Significant differences were considered when P<0.05.

RESULTS

In those patients with Wilson's disease-related renal damage, edema, gross hematuria, oliguria, and lumbar pain were present in most patients. Microscopic haematuria and proteinuria were also observed in 19 patients. Compared to patients without renal involvement, those with renal complications exhibited a significant increase in white blood cell (WBC) and neutrophil counts (P<0.05). Additionally, patients with renal damage showed a noteworthy rise in both diastolic and systolic blood pressure, along with a significant reduction in hemoglobin levels (P<0.05). Color Doppler ultrasound results revealed diffuse lesions in both kidneys in 12 patients, renal cysts were identified in 5 patients, and 2 patients exhibited abnormal renal blood flow signals. Meanwhile, varying degrees of IgA, IgM, IgG-based immunoglobulins, complement C3 and C1q deposition in the glomerular mesangial area were detected by immunofluorescence. Furthermore, renal puncture biopsy results revealed a spectrum of findings, including minimal change nephrosis in 1 case, IgA nephropathy in 3 cases, atypical membranous proliferative nephropathy in 2 cases, and focal segmental glomerulosclerosis in 1 case.

CONCLUSION

This study comprehensively elucidates the distinct attributes of renal damage related to Wilson's disease, while also speculating that renal dysfunction in Wilson's disease could be linked to immune complex deposition. Depending on the underlying pathogenesis, kidney injury associated with Wilson's disease can be classified as primary or secondary. To slow down the progression of renal impairment, it is essential to undergo a renal biopsy pathological examination as early as possible to clarify the type of impairment and take the appropriate treatment.

The Relationship between Seropositive Rheumatoid Arthritis and Congestive Heart Failure: A Nationwide Longitudinal Cohort Study in Korea

Objectives: The aim of this nationwide longitudinal cohort study is to determine the risk of congestive heart failure (CHF) associated with a seropositive rheumatoid arthritis (RA) population in Korea. Methods: In this study, National Health Insurance Service-Health Screening Cohort (NHIS-HEALS) data from 2002 to 2003 were used. The cohort was followed up with for 12 years until December of 2015. Seropositive RA was defined as a patient prescribed with a disease-modifying anti-rheumatic drug (DMARD) among patients with the International Classification of Diseases code M05 (seropositive RA). Patients who were diagnosed before 2004 were excluded. The seropositive RA group consisted of 2765 patients, and a total of 13,825 patients were in the control group. The Kaplan-Meier method was used to calculate the 12-year CHF incidence rate for each group. A Cox proportional hazards regression analysis was used to estimate the hazard ratio of CHF. Results: The hazard ratio of CHF in the seropositive RA group was 2.41 (95% confidence interval (CI): 1.40-4.14) after adjusting for age and sex. The adjusted hazard ratio of CHF in the seropositive RA group was 2.50 (95% CI: 1.45-4.30) after adjusting for age, sex, income, and comorbidities. In females aged ≥65 and aged <65, the incidence rates in the non-hypertension, non-diabetes mellitus, and non-dyslipidemia subgroups were significantly higher in the seropositive RA group than in the control group. Conclusions: This nationwide longitudinal cohort study shows an increased risk of CHF in patients with seropositive RA.

Roles and mechanisms of copper homeostasis and cuproptosis in osteoarticular diseases

Copper is an essential trace element in the human body that is extensively distributed throughout various tissues. The appropriate level of copper is crucial to maintaining the life activities of the human body, and the excess and deficiency of copper can lead to various diseases. The copper levels in the human body are regulated by copper homeostasis, which maintains appropriate levels of copper in tissues and cells by controlling its absorption, transport, and storage. Cuproptosis is a distinct form of cell death induced by the excessive accumulation of intracellular copper. Copper homeostasis and cuproptosis has recently elicited increased attention in the realm of human health. Cuproptosis has emerged as a promising avenue for cancer therapy. Studies concerning osteoarticular diseases have elucidated the intricate interplay among copper homeostasis, cuproptosis, and the onset of osteoarticular diseases. Copper dysregulation and cuproptosis cause abnormal bone and cartilage metabolism, affecting related cells. This phenomenon assumes a critical role in the pathophysiological processes underpinning various osteoarticular diseases, with implications for inflammatory and immune responses. While early Cu-modulating agents have shown promise in clinical settings, additional research and advancements are warranted to enhance their efficacy. In this review, we summarize the effects and potential mechanisms of copper homeostasis and cuproptosis on bone and cartilage, as well as their regulatory roles in the pathological mechanism of osteoarticular diseases (e.g., osteosarcoma (OS), osteoarthritis (OA), and rheumatoid arthritis (RA)). We also discuss the clinical-application prospects of copper-targeting strategy, which may provide new ideas for the diagnosis and treatment of osteoarticular diseases.

Kidney involvement in Wilson's disease: a review of the literature

Wilson's disease (WD) is a rare inherited disease due to the mutation of the ATP7B gene, resulting in impaired hepatic copper excretion and its pathological accumulation in various organs such as the liver, the nervous system, or the kidneys. Whereas liver failure and neuropsychiatric disorders are the most common features, less is known about the renal complications. We conducted a review of the literature to define the characteristics and pathophysiology of kidney involvement during WD. This review shed light on strong evidence for direct copper toxicity to renal tubular cells. Excessive tubular copper accumulation might present with various degrees of tubular dysfunction, ranging from mild hydroelectrolytic and acid-base disorders to complete Fanconi syndrome. Proximal and distal renal tubular acidosis also favors development of nephrolithiasis, nephrocalcinosis, and bone metabolism abnormalities. Indirect complications might involve renal hypoperfusion as occurs in hepatorenal or cardiorenal syndrome, but also tubular casts' formation during acute hemolysis, rhabdomyolysis, or bile cast nephropathy. Acute kidney failure is not uncommon in severe WD patients, and independently increases mortality. Finally, specific and long-term therapy by D-penicillamin, one of the most efficient drugs in WD, can cause glomerular injuries, such as membranous nephropathy, minimal-change disease, and, rarely, severe glomerulonephritis. Altogether, our study supports the need for interdisciplinary evaluation of WD patients involving nephrologists, with regular monitoring of tubular and glomerular functions, to provide adequate prevention of renal and bone involvement.

Prevalence, Incidence, and Treatment Pattern of Wilson's Disease Using National Health Insurance Data From 2010-2020, Korea

BACKGROUND

Wilson's disease (WD) is an autosomal recessive disorder in which copper (Cu) accumulates in organs, particularly in the liver and central nervous system. This study aimed to investigate the prevalence, incidence, and treatment patterns of WD patients in Korea.

METHODS

National Health Insurance System (NHIS) claims data from 2010 to 2020 were analyzed. patients with WD as a primary or additional diagnosis at least once were identified using the International Classification of Diseases (ICD)-10 disease code E83.0 and a record for a registration program for rare intractable diseases in Korea.

RESULTS

The average age- and sex-adjusted prevalence and incidence of WD between 2010 and 2020 were 3.06/100,000 and 0.11/100,000, respectively. The mean age of the patients with newly diagnosed WD was 21.0 ± 15.9 years. Among the 622 WD incident cases during the study period, 19.3% of the patients had liver cirrhosis and 9.2% had received liver transplantation. Psychological and neurological diseases were present in 40.7% and 48.1% of the patients, respectively. Regarding the diagnosis of WD, liver biopsy was performed in only 51.6% of new cases. D-penicillamine, trientine, or zinc were prescribed in 81.5% of the incident cases, and the treatment uptake rates decreased with increasing age.

CONCLUSION

The prevalence of WD in Korea is 3.06/100,000 and approximately 1,800 patients use medical services annually. A significant proportion of patients are diagnosed at the cirrhotic stage and not treated with Cu-chelating therapeutics, suggesting the need for early diagnosis and adequate treatment to improve prognosis.

Copper in Gynecological Diseases

Copper (Cu) is an essential micronutrient for the correct development of eukaryotic organisms. This metal plays a key role in many cellular and physiological activities, including enzymatic activity, oxygen transport, and cell signaling. Although the redox activity of Cu is crucial for enzymatic reactions, this property also makes it potentially toxic when found at high levels. Due to this dual action of Cu, highly regulated mechanisms are necessary to prevent both the deficiency and the accumulation of this metal since its dyshomeostasis may favor the development of multiple diseases, such as Menkes' and Wilson's diseases, neurodegenerative diseases, diabetes mellitus, and cancer. As the relationship between Cu and cancer has been the most studied, we analyze how this metal can affect three fundamental processes for tumor progression: cell proliferation, angiogenesis, and metastasis. Gynecological diseases are characterized by high prevalence, morbidity, and mortality, depending on the case, and mainly include benign and malignant tumors. The cellular processes that promote their progression are affected by Cu, and the mechanisms that occur may be similar. We analyze the crosstalk between Cu deregulation and gynecological diseases, focusing on therapeutic strategies derived from this metal.

Multifaceted Roles of Copper Ions in Anticancer Nanomedicine

The significantly increased copper level in tumor tissues and serum indicates the close association of copper ions with tumor development, making copper ions attractive targets in the development of novel tumor treatment methods. The advanced nanotechnology developed in the past decades provides great potential for tumor therapy, among which Cu-based nanotherapeutic systems have received greater attention. Herein, the multifaceted roles of copper ions in cancer progression are summarized and the recent advances in the copper-based nanostructures or nanomedicines for different kinds of tumor therapies including copper depletion therapy, copper-based cytotoxins, copper-ion-based chemodynamic therapy and its combination with other treatments, and copper-ion-induced ferroptosis and cuproptosis activation are discussed. Furthermore, the perspectives for the further development of copper-ion-based nanomedicines for tumor therapy and clinic translation are presented by the authors.

Development of Polydiphenylamine@Electrochemically Reduced Graphene Oxide Electrode for the D-Penicillamine Sensor from Human Blood Serum Samples Using Amperometry

D-penicillamine (PA) is a sulfur group-containing drug prescribed for various health issues, but overdoses have adverse effects. Therefore, regular, selective, and sensitive sensing is essential to reduce the need for further treatment. In this study, diphenylamine (DPA) was electropolymerized in an aqueous acidic medium. The PA detection sensitivity, selectivity, and limit of detection were enhanced by electropolymerizing DPA on an electrochemically reduced graphene oxide (ERGO)/glassy carbon (GC) surface. The formation of p-DPA and ERGO was investigated using various techniques. The as-prepared p-DPA@ERGO/GC revealed the excellent redox-active (N-C to N=C) sites of p-DPA. The p-DPA@ERGO/GC electrode exhibited excellent electrochemical sensing ability towards PA determination because of the presence of the -NH-functional moiety and effective interactions with the -SH group of PA. The p-DPA@ERGO/GC exhibited a high surface coverage of 9.23 × 10-12 mol cm-2. The polymer-modified p-DPA@ERGO/GC electrode revealed the amperometric determination of PA concentration from the 1.4 to 541 μM wide range and the detection limit of 0.10 μM. The real-time feasibility of the developed p-DPA@ERGO/GC electrode was tested with a realistic PA finding in human blood serum samples and yielded a good recovery of 97.5-101.0%, confirming the potential suitability in bio-clinical applications.

Chelation Combination-A Strategy to Mitigate the Neurotoxicity of Manganese, Iron, and Copper?

The chelating thiol dimercaptosuccinate (DMSA) and the traditional agent D-penicillamine (PSH) are effective in enhancing the urinary excretion of copper (Cu) and lead (Pb) in poisoned individuals. However, DMSA, PSH, EDTA (ethylenediamine tetraacetate), and deferoxamine (DFOA) are water-soluble agents with limited access to the central nervous system (CNS). Strategies for mobilization of metals such as manganese (Mn), iron (Fe), and Cu from brain deposits may require the combined use of two agents: one water-soluble agent to remove circulating metal into urine, in addition to an adjuvant shuttler to facilitate the brain-to-blood mobilization. The present review discusses the chemical basis of metal chelation and the ligand exchange of metal ions. To obtain increased excretion of Mn, Cu, and Fe, early experiences showed promising results for CaEDTA, PSH, and DFOA, respectively. Recent experiments have indicated that p-amino salicylate (PAS) plus CaEDTA may be a useful combination to remove Mn from binding sites in CNS, while the deferasirox-DFOA and the tetrathiomolybdate-DMSA combinations may be preferable to promote mobilization of Fe and Cu, respectively, from the CNS. Further research is requested to explore benefits of chelator combinations.

The Role of Zinc in the Treatment of Wilson’s Disease

Wilson’s disease (WD) is a hereditary disorder of copper metabolism, producing abnormally high levels of non-ceruloplasmin-bound copper, the determinant of the pathogenic process causing brain and hepatic damage and dysfunction. Although the disease is invariably fatal without medication, it is treatable and many of its adverse effects are reversible. Diagnosis is difficult due to the large range and severity of symptoms. A high index of suspicion is required as patients may have only a few of the many possible biomarkers. The genetic prevalence of ATP7B variants indicates higher rates in the population than are currently diagnosed. Treatments have evolved from chelators that reduce stored copper to zinc, which reduces the toxic levels of circulating non-ceruloplasmin-bound copper. Zinc induces intestinal metallothionein, which blocks copper absorption and increases excretion in the stools, resulting in an improvement in symptoms. Two meta-analyses and several large retrospective studies indicate that zinc is equally effective as chelators for the treatment of WD, with the advantages of a very low level of toxicity and only the minor side effect of gastric disturbance. Zinc is recommended as a first-line treatment for neurological presentations and is gaining acceptance for hepatic presentations. It is universally recommended for lifelong maintenance therapy and for presymptomatic WD.

Biochemical diagnosis of Wilson's disease: an update

Wilson's disease (WD) is an inherited disorder of copper metabolism caused by mutations in the ATP7B gene. This condition is characterized by the accumulation of copper in the liver and other organs and tissues causing hepatic and neuropsychiatric manifestations. This paper reviews the diagnostic performance and limitations of the biochemical tests commonly used to detect this underdiagnosed disease. It also provides some recommendations and suggests a set of standardized laboratory comments. At present, a rapid, simple, reliable biochemical test that confirms diagnosis of WD is not available. However, diagnosis can be established based on serum ceruloplasmin and urinary copper excretion. Total serum copper should be employed with caution, since it has a low negative predictive value. The use of estimated non-ceruloplasmin-bound copper is not recommended. Nevertheless, measured relative exchangeable copper has very high sensitivity and specificity and emerges as a potential gold standard for the biochemical diagnosis of WD. The development of novel assays for WD detection makes this disorder a potential candidate to be included in newborn screening programs.