Your search keyword '"KINKY hair syndrome"' showing total 241 results

1. Cuproptosis: Unraveling the Mechanisms of Copper-Induced Cell Death and Its Implication in Cancer Therapy.

Author

Springer, Chloe, Humayun, Danish, and Skouta, Rachid

Subjects

*TUMOR treatment, *HOMEOSTASIS, *APOPTOSIS, *MITOCHONDRIA, *OXIDATIVE stress, *NANOSTRUCTURES, *DISULFIRAM, *COPPER, *HEPATOLENTICULAR degeneration, *KINKY hair syndrome, *CELL death

Abstract

Simple Summary: Cuproptosis is a recently identified form of cell death induced by imbalanced copper levels. We aimed to explore the mechanism underlying copper-induced cell death. To achieve this, we surveyed the literature to understand the biochemical implications of cuproptosis in diseases, particularly in the context of cancer. The concept of copper ionophores, such as elesclomol and disulfiram, is highlighted as they elevate intracellular copper levels, triggering oxidative stress and ultimately leading to cell death–a potential avenue for cancer therapy. Furthermore, we will delve into the intricate relationship between copper, mitochondrial respiration, and protein lipoylation, shedding light on their connections in inducing cell death. Copper, an essential element for various biological processes, demands precise regulation to avert detrimental health effects and potential cell toxicity. This paper explores the mechanisms of copper-induced cell death, known as cuproptosis, and its potential health and disease implications, including cancer therapy. Copper ionophores, such as elesclomol and disulfiram, increase intracellular copper levels. This elevation triggers oxidative stress and subsequent cell death, offering potential implications in cancer therapy. Additionally, copper ionophores disrupt mitochondrial respiration and protein lipoylation, further contributing to copper toxicity and cell death. Potential targets and biomarkers are identified, as copper can be targeted to those proteins to trigger cuproptosis. The role of copper in different cancers is discussed to understand targeted cancer therapies using copper nanomaterials, copper ionophores, and copper chelators. Furthermore, the role of copper is explored through diseases such as Wilson and Menkes disease to understand the physiological mechanisms of copper. Exploring cuproptosis presents an opportunity to improve treatments for copper-related disorders and various cancers, with the potential to bring significant advancements to modern medicine. [ABSTRACT FROM AUTHOR]

Published

2024

2. Therapeutic Use of Trace Elements in Dermatology.

Author

Gade, Anita, Hwang, Jacqueline R., Hoegler, Karl, Khan, Samiya, and Khachemoune, Amor

Subjects

*TRACE elements, *DERMATOLOGIC agents, *DERMATOLOGY, *HORMONES, *SKIN disease genetics, *KINKY hair syndrome, *ACRODERMATITIS, *CONTACT dermatitis

Abstract

Trace elements (microminerals) play a role in many physiological functions, including hormone production and cellular growth. However, their importance in diagnosing and treating dermatologic disease has not been well examined. In this review, we discuss the functions, sources, and recommended requirements of each micromineral. In addition, we analyze the systemic and dermatologic manifestations associated with micromineral imbalances. The pathogenesis of genodermatoses, such as Wilson disease, Menkes disease, acrodermatitis enteropathica, and allergic dermatitis, are also discussed. Included are studies examining the potential therapeutic role of zinc, selenium, and copper in inflammatory diseases, skin cancer, and photoaging. [ABSTRACT FROM AUTHOR]

Published

2023

3. Genetics Corner: Menkes Disease in an Infant who Presented with Recurrent Infections.

Author

Clark, Robin Dawn

Subjects

*RESPIRATORY diseases, *PHYSICAL diagnosis, *NEWBORN screening, *GENETICS, *SEQUENCE analysis, *BLOOD proteins, *PECTUS excavatum, *URINATION disorders, *STREPTOCOCCAL diseases, *VANCOMYCIN, *GENETIC testing, *EXANTHEMA, *VOMITING, *STAPHYLOCOCCAL diseases, *DISEASE relapse, *KINKY hair syndrome, *THROMBOCYTOPENIA, *T cells, *GENETIC techniques, *COPPER, *GLOBULINS, *EARLY diagnosis

Abstract

The article presents a case study of 3 month-old male was admitted for emesis, hypotonia, worsening baseline congestion, decreased urine output, and respiratory distress. He was diagnosed with Moraxella pneumonia and treated with Rocephin for seven days. He had a positive blood culture for Staphylococcus epidermidis and Streptococcus mitis, for which he was treated with vancomycin. He had been previously admitted at approximately two months of age for COVID pneumonia.

Published

2022

4. Massive thrombosis in internal jugular phlebectasia in Menkes disease.

Author

Nakamura, Yuri, Hitaka, Daisuke, Kido, Takahiro, Yaita, Katsuyuki, Saeki, Saki, Miyazono, Yayoi, and Takada, Hidetoshi

Subjects

*THROMBOSIS, *GENETIC mutation, *HISTIDINE, *JUGULAR vein, *KINKY hair syndrome, *VASCULAR diseases, *COPPER, *COMPUTED tomography

Abstract

The article presents a case study of a Menkes disease (MD) patient with internal jugular phlebectasia (IJP) who developed massive thrombosis, resulting in a rapid and fatal outcome. Topics discussed include the association of IJP with MD, the conservative approach for benign cases, and the multifactorial risk factors contributing to thrombosis in seriously ill MD patients with phlebectasia.

Published

2023

5. Hair microscopy: an easy adjunct to diagnosis of systemic diseases in children.

Author

Bhattarai, Dharmagat, Banday, Aaqib Zaffar, Sadanand, Rohit, Arora, Kanika, Kaur, Gurjit, Sharma, Satish, and Rawat, Amit

Subjects

HAIR analysis, HAIR physiology, PRIMARY health care, GRISCELLI syndrome, KINKY hair syndrome

Abstract

Hair, having distinct stages of growth, is a dynamic component of the integumentary system. Nonetheless, derangement in its structure and growth pattern often provides vital clues for the diagnosis of systemic diseases. Assessment of the hair structure by various microscopy techniques is, hence, a valuable tool for the diagnosis of several systemic and cutaneous disorders. Systemic illnesses like Comel-Netherton syndrome, Griscelli syndrome, Chediak Higashi syndrome, and Menkes disease display pathognomonic findings on hair microscopy which, consequently, provide crucial evidence for disease diagnosis. With minimal training, light microscopy of the hair can easily be performed even by clinicians and other health care providers which can, thus, serve as a useful tool for disease diagnosis at the patient's bedside. This is especially true for resource-constrained settings where access and availability of advanced investigations (like molecular diagnostics) is a major constraint. Despite its immense clinical utility and non-invasive nature, hair microscopy seems to be an underutilized diagnostic modality. Lack of awareness regarding the important findings on hair microscopy may be one of the crucial reasons for its underutilization. Herein, we, therefore, present a comprehensive overview of the available methods for hair microscopy and the pertinent findings that can be observed in various diseases. [ABSTRACT FROM AUTHOR]

Published

2021

6. Choroba Menkesa - opis przypadku.

Author

Dzień, Izabela and Rozensztrauch, Anna

Subjects

KINKY hair syndrome, NEURODEGENERATION, COPPER metabolism, NURSING care facilities, GASTROINTESTINAL system

Abstract

Copyright of Modern Nursing & Health Care / Wspolczesne Pielegniarstwo i Ochrona Zdrowia is the property of Wydawnictwo Continuo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

7. Elesclomol alleviates Menkes pathology and mortality by escorting Cu to cuproenzymes in mice.

Author

Guthrie, Liam M., Soma, Shivatheja, Yuan, Sai, Silva, Andres, Zulkifli, Mohammad, Snavely, Thomas C., Greene, Hannah Faith, Nunez, Elyssa, Lynch, Brogan, De Ville, Courtney, Shanbhag, Vinit, Lopez, Franklin R., Acharya, Arjun, Petris, Michael J., Kim, Byung-Eun, Gohil, Vishal M., and Sacchettini, James C.

Subjects

*COPPER, *LABORATORY mice, *KINKY hair syndrome, *CYTOCHROME oxidase, *MITOCHONDRIA

Abstract

Loss-of-function mutations in the copper (Cu) transporter ATP7A cause Menkes disease. Menkes is an infantile, fatal, hereditary copper-deficiency disorder that is characterized by progressive neurological injury culminating in death, typically by 3 years of age. Severe copper deficiency leads to multiple pathologies, including impaired energy generation caused by cytochrome c oxidase dysfunction in the mitochondria. Here we report that the small molecule elesclomol escorted copper to the mitochondria and increased cytochrome c oxidase levels in the brain. Through this mechanism, elesclomol prevented detrimental neurodegenerative changes and improved the survival of the mottled-brindled mouse—a murine model of severe Menkes disease. Thus, elesclomol holds promise for the treatment of Menkes and associated disorders of hereditary copper deficiency. [ABSTRACT FROM AUTHOR]

Published

2020

8. Screening Inherited Metabolic Disorder in Children with Intellectual Disability and Epilepsy.

Author

Üstkoyuncu, Pembe Soylu, Güven, Ahmet Sami, Poyrazoğlu, Hatice Gamze, Gökay, Songül, Kardaş, Fatih, Kendirci, Mustafa, Gökçek, İkbal, and Torun, Yasemin Altuner

Subjects

*CONSANGUINITY, *DEVELOPMENTAL disabilities, *CHILDHOOD epilepsy, *MEDICAL screening, *PEOPLE with intellectual disabilities, *MITOCHONDRIAL pathology, *PHENYLKETONURIA, *KINKY hair syndrome, *EARLY diagnosis, *CHILDREN, INBORN errors of metabolism diagnosis

Abstract

Objective: To indicate the benefits of the screening of inherited metabolic disorders in patients with epilepsy, global developmental delay, and intellectual disability. Materials and Methods: The medical records of 1100 patients who were investigated for inherited metabolic disorders between March 2014 and June 2017 were evaluated. Five hundred patients with epilepsy and global developmental delay/intellectual disability with mild/moderate and non-specific neurologic findings were enrolled in the study. Results: Inherited metabolic disorders were detected in 7 of 500 patients (1.4%) with epilepsy and global developmental delay/intellectual disability. One patient was diagnosed as having tyrosinemia type-2, one had Menkes disease, one had mitochondrial disease, one had hyperphenylalaninemia, two siblings were diagnosed as having 3-methylcrotonyl Coa carboxylase deficiency, and one patient was diagnosed as having phenylketonuria. Conclusion: The prevalence of inherited metabolic disorders is higher in countries with a high consanguinity ratio such as Turkey. Lack of the regular screening in patients with mild/moderate and non-specific neurologic findings result in late diagnosis. [ABSTRACT FROM AUTHOR]

Published

2019

9. ATP7A mutations in 66 Japanese patients with Menkes disease and carrier detection: A gene analysis.

Author

Fujisawa, Chie, Kodama, Hiroko, Hiroki, Tomoko, Akasaka, Yoshikiyo, and Hamanoue, Makoto

Subjects

*ADENOSINE triphosphatase, *BINDING sites, *CARRIER proteins, *COPPER, *GENES, *GENETIC techniques, *JAPANESE people, *GENETIC mutation, *POLYMERASE chain reaction, *KINKY hair syndrome, *SEQUENCE analysis

Abstract

Background: Menkes disease (MNK; MIN 309400) is an X‐linked recessive lethal disorder of copper metabolism caused by mutations in ATP7A (MIM 300011), which encodes a transmembrane copper‐transporting P‐type ATPase. This study assessed mutations in ATP7A in Japanese patients with MNK and their families using gene analysis. Methods: A total of 66 patients with MNK born between 1975 and 2013 in Japan were investigated in this study. Definite diagnosis of MNK was carried out on polymerase chain reaction (PCR) amplification and direct sequencing of each exon. Genetic analysis was also performed on 39 women for carrier diagnosis, and on nine fetuses and 10 neonates for the diagnosis of MNK. Results: We detected 55 different mutations, of which 20 were de novo mutations. The mutations were located around the six copper binding sites, first to third and six transmembrane domains, and the ATP binding site. Of 30 mothers, 23 (76.7%) were carriers. Approximately half of the male siblings of patients with MNK were also diagnosed with MNK. Conclusion: Mutations in ATP7A varied widely across patients, although approximately half of the mutations were located in exons 4, 9, 10, and 15. Approximately 23% of patients did not inherit the mutations from their mothers, but had de novo mutations. An early definite diagnosis is necessary for the early treatment of MNK, and gene analysis serves as an effective method for detecting mutations in ATP7A. [ABSTRACT FROM AUTHOR]

Published

2019

10. A systematic review and evidence-based guideline for diagnosis and treatment of Menkes disease.

Author

Vairo, Filippo Pinto e, Chwal, Bruna Cristine, Perini, Silvana, Ferreira, Maria Angélica Pires, de Freitas Lopes, Ana Carolina, and Saute, Jonas Alex Morales

Subjects

*KINKY hair syndrome, *CATECHOLAMINES, *PRENATAL genetic testing, *NEURODEGENERATION, *NEONATAL anatomy

Abstract

Abstract Menkes disease is a rare X-linked neurodegenerative disorder caused by defect in copper metabolism. Parenteral copper supplementation has been used as a potential disease-modifying treatment of Menkes disease for decades. However, recent evidence suggests its efficacy only when treatment is started within days after birth, which also has important implications related to the techniques that enable early diagnosis. We aim at proposing a guideline for prenatal and neonatal diagnosis and for disease-modifying treatment of Menkes disease, guided by a systematic review of the literature, and built in conjunction with medical experts, methodologists and patient representatives. Thirteen articles were used for our recommendations that were based on GRADE system. Reviewed evidence suggests that prenatal genetic diagnosis in families with previous diagnosis of Menkes disease is feasible; analysis of plasma catecholamine levels is accurate for neonatal diagnosis of Menkes disease; treatment with copper-histidine is effective to increase survival and reduce neurologic burden of the disease if initiated in the neonatal period; and, treatment indication should not be guided by patient's genotype. In conclusion, our guideline can contribute to standardize some aspects of the clinical care of patients with Menkes disease, especially reducing disease burden and mortality and providers' and families' anxiety. [ABSTRACT FROM AUTHOR]

Published

2019

11. Osseous Metaplasia in a Bladder Diverticulum in a Patient with Mosaic Menkes Disease.

Author

Canalichio, Katie L., Chisholm, Karen M., and Lendvay, Thomas S.

Subjects

*BLADDER abnormalities, *BONES, *BONE diseases, *METAPLASIA, *MOSAICISM, *DIVERTICULUM, *KINKY hair syndrome, *DISEASE complications

Abstract

Menkes disease, or Kinky Hair Syndrome, is a rare disorder of copper metabolism that causes fatal neurodegenerative disease in infancy. This X-linked disorder results from mutations in the ATP7A gene. Along with neurological decline, characteristic coarse appearance of the hair is seen. Urological issues are prevalent in this patient population, with bladder diverticula being the most common. Herein, we describe a unique male patient with genetic mosaicism and osseous metaplasia found in a ruptured bladder diverticulum. [ABSTRACT FROM AUTHOR]

Published

2020

12. An unusual presentation of Menkes disease masquerading as a leukodystrophy with macrocephaly.

Author

Tayal, Anshula, Elwadhi, Aman, Sharma, Suvasini, and Patra, Bijoy

Subjects

BRAIN, DIFFERENTIAL diagnosis, GLOBOID cell leukodystrophy, MAGNETIC resonance imaging, MICROCEPHALY, KINKY hair syndrome, SYMPTOMS

Abstract

Background: Menkes disease is an X-linked neurodegenerative disease caused by mutation in ATP7A gene, which codes for copper-transporting ATPase. It usually presents in early infancy with neuro-regression, hypotonia, seizures, and kinky hair. Magnetic resonance imaging (MRI) of the brain shows cerebral atrophy, subdural effusions, and tortuous cerebral blood vessels. Case Characteristics: We report the case of a 7-month-old boy who presented with global developmental delay, seizures, and increasing head size since 2 months of age and history of sibling death. He had macrocephaly, sparse, hypopigmented hair, seborrheic dermatitis of scalp, hypotonia, and brisk reflexes. Brain MRI was suggestive of megalencephalic leukodystrophy. Careful reexamination of films revealed tortuous blood vessels. Serum copper and ceruloplasmin levels were significantly reduced, leading to diagnosis of Menkes disease. Conclusion: This case exemplifies a rare presentation of Menkes disease, simulating a leukodystrophy with macrocephaly. Tortuosity of cerebral blood vessels is an important finding, which can help in differentiating Menkes disease from white matter disorders. [ABSTRACT FROM AUTHOR]

Published

2020

13. Novel <em>ATP7A </em>gene mutation in a patient with Menkes disease.

Author

Caicedo-Herrera, Gabriela, Candelo, Estephania, Pinilla, Juan, Vidal, Andrés, Cruz, Santiago, and Pachajoa, Harry Mauricio

Subjects

GENES, GENETIC mutation, KINKY hair syndrome, NEURODEGENERATION, EPILEPSY, MUSCLE strength

Abstract

Background: Menkes disease is a congenital neurodegenerative disorder caused by ATP7A gene mutations. Clinical features include epilepsy, growth delay, reduced muscle strength, skin laxity, abnormal hair, and urologic abnormalities.  Case presentation: We describe an infant with developmental delay, neurologic degeneration, and kinky hair. Molecular test revealed a novel heterozygous mutation in exon 21 of the ATP7A gene. The genotype and phenotype of the patient were compared with those of the patients reported in the literature.  Conclusion: We propose that this mutation caused a dysfunctional protein resulting in classical Menkes disease. This case adds to the spectrum of pathogenic variants of the ATP7A gene known to cause disease. [ABSTRACT FROM AUTHOR]

Published

2018

14. Clinical Findings of Menkes Disease and the Treatment of Epilepsy.

Author

Min Hye Choi, Soojin Kim, Sun Whan Bae, Jae Sung Son, and Ran Lee

Subjects

*KINKY hair syndrome, *TREATMENT of epilepsy, *TREATMENT effectiveness, *ELECTROENCEPHALOGRAPHY, *MAGNETIC resonance imaging of the brain, *SPASMS

Abstract

Menkes disease (also known as kinky hair disease) is an X-linked recessive neurodegenerative disorder caused by diverse mutations in a copper-transport gene, ATP7A. Affected patients are characterized by kinky hair, hypotonia, and generalized myoclonic seizures. Here, we report a case of Menkes disease in which the patient presented with progressive hypotonia and intractable seizures. A 4-month-old male infant visited our pediatric clinic for focal seizures with blinking eyes. He was generally hypotonic and suffered from malnutrition. The focal seizures became more frequent, and the patient became intractable to anti-seizure medications. An electroencephalogram (EEG) indicated diffuse cerebral dysfunction with focal seizure, and a brain magnetic resonance imaging (MRI) showed tortuous and ectatic intracranial arteries, as well as several ischemic lesions. A genetic analysis was performed, and a c.2473_2474del (p.Leu825fsX1) of the ATP7A gene was detected. [ABSTRACT FROM AUTHOR]

Published

2018

15. De Novo Mutation in ATP7A Gene with Severe Menkes Disease.

Author

Üstkoyuncu1, Pembe Soylu, Güven, Ahmet Sami, Kiraz, Aslıhan, Yılmaz, Ayşegül, Bozdemir, Şefika Elmas, and Gökay, Songül

Subjects

*KINKY hair syndrome, *DNA mutational analysis, *SEQUENCE analysis, *INTELLECTUAL disabilities, *NEURODEGENERATION

Abstract

Menkes disease (MD) is an X-linked neurodegenerative disorder, which occurs in early infancy, and is caused by the impairment of P-type ATPase. An 8-month-old boy presented with seizure and difficulty of feeding. His hair was blond, thin, and weak. He had poor head control and could not sit. The microscopic appearance of the patient's hair was pili torti. Brain magnetic resonance imaging revealed diffuse cerebral and cerebellar atrophy, and vascular tortuosity was observed in both middle cerebral and vertebrobasilar arteries in magnetic resonance angiography. Molecular genetic analysis was performed for suspected MD and a hemizygous mutation (p. G1118S [c.3352G>A]) was detected in ATP7A gene. Although it is not specific for the disorder, microscopy of the hair allows early diagnosis when the differential diagnosis is broad or other tests are not conclusive. Since it is a fatal neurodegenerative disorder, genetic counseling must be provided to the family. [ABSTRACT FROM AUTHOR]

Published

2018

16. Interaction between the AAA ATPase p97/VCP and a concealed UBX domain in the copper transporter ATP7A is associated with motor neuron degeneration.

Author

Ling Yi and Kaler, Stephen G.

Subjects

*ADENOSINE triphosphatase, *HOMEOSTASIS, *GENETIC mutation, *KINKY hair syndrome, *NEUROPATHY

Abstract

The copper-transporting ATPase ATP7A contains eight transmembrane domains and is required for normal human copper homeostasis. Mutations in the ATP7A gene may lead to infantile-onset cerebral degeneration (Menkes disease); occipital horn syndrome (OHS), a related but much milder illness; or an adult-onset isolated distal motor neuropathy. The ATP7A missense mutation T994I is located in the sixth transmembrane domain of ATP7A, represents one of the variants associated with the latter phenotype, and is associated with an abnormal interaction with p97/valosin-containing protein (VCP), a hexameric AAA ATPase (ATPase associated with diverse cellular activities) with multiple biological functions. In this study, we further characterized this interaction and discovered a concealed UBX domain in the third lumenal loop of ATP7A, between its fifth and sixth transmembrane domains. We show that the T994I substitution results in conformational exposure of the UBX domain, which then binds the N-terminal domain of p97/VCP.Wealso show that this abnormal interaction occurs at or near the cell plasma membrane. The UBX domain has a conserved hydrophobic FP (Phe-Pro) motif, and substitution with di-alanine abrogated the interaction and restored the proper intracellular localization of ATP7A in the trans-Golgi network. Using protein MS, we identified potential coordinating components of the ATP7AT994I-p97 complex, including NSFL1 cofactor (NSF1C or p47) that may be relevant to the pathophysiology and clinical effects associated with ATP7AT994I. Our study represents the first report of p97/VCP binding to a UBX domain that is not normally exposed, resulting in an aberrant protein- protein interaction leading to motor neuron degeneration. [ABSTRACT FROM AUTHOR]

Published

2018

17. An electrochemiluminescent sensor based on functionalized conjugated polymer dots for the ultrasensitive detection of Cu2+.

Author

Luo, Jin-Hua, Cheng, Dan, Li, Pei-Xuan, Yao, Yuan, Chen, Shi-Hong, Yuan, Ruo, and Xu, Wen-Ju

Subjects

*ELECTROCHEMILUMINESCENCE, *CONJUGATED polymers, *INDUCTIVELY coupled plasma mass spectrometry, *ATOMIC fluorescence spectroscopy, *KINKY hair syndrome

Abstract

An ultrasensitive electrochemiluminescence (ECL) detection for Cu2+ was explored using the carboxyl functionalized poly(9,9-dioctylfluorenyl-2,7-diyl) (PS-COOH-co-PFO) dots as the signal label without adding any coreactant. [ABSTRACT FROM AUTHOR]

Published

2018

18. An electrochemiluminescent sensor based on functionalized conjugated polymer dots for the ultrasensitive detection of Cu2+.

Author

Luo, Jin-Hua, Cheng, Dan, Li, Pei-Xuan, Yao, Yuan, Chen, Shi-Hong, Yuan, Ruo, and Xu, Wen-Ju

Subjects

ELECTROCHEMILUMINESCENCE, CONJUGATED polymers, INDUCTIVELY coupled plasma mass spectrometry, ATOMIC fluorescence spectroscopy, KINKY hair syndrome

Abstract

An ultrasensitive electrochemiluminescence (ECL) detection for Cu2+ was explored using the carboxyl functionalized poly(9,9-dioctylfluorenyl-2,7-diyl) (PS-COOH-co-PFO) dots as the signal label without adding any coreactant. [ABSTRACT FROM AUTHOR]

Published

2018

19. Survey the Prevalence Level of Congenital Hypothyroidism Kinds (Transient and Permanent) and its Related Factors in Children of Kurdistan Provinces in 2005 to 2011.

Author

Fatollahpour, Asadolah, Eskandarifar, Alireza, mohamadbeigi, Robabeh, and Karbassi, Golaleh

Subjects

*KINKY hair syndrome, *ENDOCRINE diseases, *METABOLISM, *DIAGNOSIS, *THERAPEUTICS

Abstract

Introduction: Congenital hypothyroidism (CH) is one of the most common endocrine and metabolism diseases and also one of the common curable factors of physical growth and mental disabilities disorders. The prevalence of congenital hypothyroidism is 1 in 3000 to 1 in 4000 of live births in the world and about 1 in 670 live births in Iran. This situation may be transient or permanent. Postponing diagnosis and treatment of congenital hypothyroidism even for 3 months after birth lead to loss of IQ by 50 percent. However, the diagnosis and treatment of this disease is very easy. The purpose of current study is to survey the prevalence level of congenital hypothyroidism kinds and related factors in children of Kurdistan Provinces in 2005 to 2011 and acquiring the information necessary to chart the disease and designing preventive measures at the first and second levels. Materials and Methods: This is a descriptive-analytic study and that was conducted cross-sectional on all neonates with congenital hypothyroidism in Kurdistan province during 2005-2007. The affected infants with congenital hypothyroidism from the cities of Kurdistan province have been selected according to the form of care for congenital hypothyroid patients who were provided by health centers of the province between 2005 and 1390. The form for all patients after initial positive screening and confirmation of diagnosis was provided and delivered to the provincial health center. After collecting data, they were analyzed by inputting into SPSS software. Results: The number of patients was included of 279 boys (59%) and 188 girls (41%). The illness prevalence in boys, girls and total was 1 in 293, 1 in 418 and 1 in 344 in newborn infants, respectively. According to the findings, the incidence of transient congenital hypothyroidism was 1 in 446 and the prevalence of persistent type 1 in 1515 newborns. Data analysis indicated that the prevalence of congenital hypothyroidism in males was 48 percent and 1 fold and there was a significant relationship between type of hypothyroidism and gender (P = 0.000). Also according to the results of familial marriages, there is a significant relationship with the increase in chronic hypothyroidism in Kurdistan province and also there was a significant relationship between the type of hypothyroidism and parental relationship (P = 0.000). Conclusion: The prevalence of congenital hypothyroidism in Kurdistan province is higher than the national average and multiplied by the average of countries with a screening program. Hence, this disease is of particular importance and people's awareness and the health care staffs are necessary in order to raise awareness about the irreversible complications of the disease in the absence of treatment. On the other hand, supplementary studies to clarify the relevant factors, especially iodine deficiency and family marriage, are the research priorities of the health system in the province. [ABSTRACT FROM AUTHOR]

Published

2018

20. Molecular Diagnostics of Copper-Transporting Protein Mutations Allows Early Onset Individual Therapy of Menkes Disease.

Author

KRÁLÍK, L., FLACHSOVÁ, E., HANSÍKOVÁ, H., SAUDEK, V., ZEMAN, J., and MARTÁSEK, P.

Subjects

KINKY hair syndrome, MOLECULAR diagnosis, GENETIC mutation, PHYSIOLOGICAL effects of copper, ADENOSINE triphosphatase, THERAPEUTICS

Abstract

Menkes disease is a severe X-linked recessive disorder caused by a defect in the ATP7A gene, which encodes a membrane copper-transporting ATPase. Deficient activity of the ATP7A protein results in decreased intestinal absorption of copper, low copper level in serum and defective distribution of copper in tissues. The clinical symptoms are caused by decreased activities of copper-dependent enzymes and include neurodegeneration, connective tissue disorders, arterial changes and hair abnormalities. Without therapy, the disease is fatal in early infancy. Rapid diagnosis of Menkes disease and early start of copper therapy is critical for the effectiveness of treatment. We report a molecular biology-based strategy that allows early diagnosis of copper transport defects and implementation of individual therapies before the full development of pathological symptoms. Low serum copper and decreased activity of copperdependent mitochondrial cytochrome c oxidase in isolated platelets found in three patients indicated a possibility of functional defects in copper-transporting proteins, especially in the ATPA7 protein, a copper-transporting P-type ATPase. Rapid mutational screening of the ATP7A gene using high-resolution melting analysis of DNA indicated presence of mutations in the patients. Molecular investigation for mutations in the ATP7A gene revealed three nonsense mutations: c.2170C>T (p.Gln724Ter); c.3745G>T (p.Glu1249Ter); and c.3862C>T (p.Gln1288Ter). The mutation c.3745G>T (p.Glu1249Ter) has not been identified previously. Molecular analysis of the ATOX1 gene as a possible modulating factor of Menkes disease did not reveal presence of pathogenic mutations. Molecular diagnostics allowed early onset of individual therapies, adequate genetic counselling and prenatal diagnosis in the affected families. [ABSTRACT FROM AUTHOR]

Published

2017

21. 심한 방광요관역류가 첫 증상으로 나타난 ATP7A 유전자의 새로 운 돌연변이에 의한 멘케스병 1예

Author

강선아, 정승우, and 이은혜

Subjects

*KINKY hair syndrome, *COPPER metabolism disorders, *VESICO-ureteral reflux, *GENETIC mutation, *SYMPTOMS, *GENETICS

Abstract

Menkes disease is a rare, neurodegenerative, copper metabolism disorder characterized by mutations in ATP7A gene. Clinical symptoms include epilepsy, growth delay, reduced muscle strength, skin hyperextension, hair deformation and urologic abnormalities. However, since these clinical symptoms occur 2-3 months after birth, early diagnosis of Menkes disease is very difficult for clinicians. We report here the case of a patient who initially presented urinary tract infection followed by neurologic symptoms of Menkes disease; he was accurately diagnosed via ATP7A genetic analysis and found to harbor a novel mutation. Although neurological symptoms are the primary diagnostic feature of Menkes disease, clinicians should take into account urinary abnormalities as well, which may be an important clue to the early diagnosis of these patients. [ABSTRACT FROM AUTHOR]

Published

2017

22. A 37-year-old Menkes disease patient-Residual ATP7A activity and early copper administration as key factors in beneficial treatment.

Author

Tümer, Z., Petris, M., Zhu, S., Mercer, J., Bukrinski, J., Bilz, S., Baerlocher, K., Horn, N., and Møller, L.B

Subjects

*KINKY hair syndrome, *MISSENSE mutation, *COPPER metabolism, *PROTEIN expression, *NEUROLOGICAL disorders

Abstract

Menkes disease (MD) is a lethal disorder characterized by severe neurological symptoms and connective tissue abnormalities; and results from malfunctioning of cuproenzymes, which cannot receive copper due to a defective intracellular copper transporting protein, ATP7A. Early parenteral copper-histidine supplementation may modify disease progression substantially but beneficial effects of long-term treatment have been recorded in only a few patients. Here we report on the eldest surviving MD patient (37 years) receiving early-onset and long-term copper treatment. He has few neurological symptoms without connective tissue disturbances; and a missense ATP7A variant, p.( Pro852Leu), which results in impaired protein trafficking while the copper transport function is spared. These findings suggest that some cuproenzymes maintain their function when sufficient copper is provided to the cells; and underline the importance of early initiated copper treatment, efficiency of which is likely to be dependent on the mutant ATP7A function. [ABSTRACT FROM AUTHOR]

Published

2017

23. Design and synthesis of a fluorescent probe based on naphthalene anhydride and its detection of copper ions.

Author

He, Guangjie, Liu, Chenxi, Liu, Xiaobo, Wang, Qingzhi, Fan, Aiying, Wang, Songjun, and Qian, Xinlai

Subjects

*FLUORESCENT probes, *NAPHTHALENE derivatives, *COPPER ions, *CELLULAR signal transduction, *KINKY hair syndrome, *FLUORESCENCE spectroscopy

Abstract

Copper, as the third most abundant transition metal ions of human, plays an essential role in the redox reaction, signal transduction, hematopoiesis, and other physiological processes. Abnormal content of copper ions in the body will cause some diseases such as anemia, coronary heart disease, Menkes’ syndrome. In this article, a new fluorescence probe L for Cu2+ was designed and synthetized by using 4-bromo-1,8 naphthalene anhydride and 2-thiophene formaldehyde as raw materials. Fluorescent probe L itself exhibited strong fluorescence, upon the addition of Cu2+ ions, the fluorescence was quenched. The fluorescent detection limit for Cu2+ ions was determined to be 1.8 μM based on a 3δ/S method. UV-vis absorption and fluorescence spectra indicated that probe L showed good selectivity and sensitivity for Cu2+, and this selectivity was not interfered by other metal ions and anions. Further cell fluorescence imaging experiments indicated that the probe L had potential to be used to examine copper ions in vivo. [ABSTRACT FROM AUTHOR]

Published

2017

24. Neuroimaging in Menkes Disease.

Author

Ahmed, Molla I. and Hussain, Nahin

Subjects

MAGNETIC resonance imaging, NEURORADIOLOGY, KINKY hair syndrome, MAGNETIC resonance angiography

Abstract

Menkes disease (MD) is a rare infantile onset neurodegenerative disorder due to mutations in the X linked ATP7A gene. These patients can present with failure to thrive, severe psychomotor retardation, seizures and hypopigmented hair, which is characteristic of this condition. A number of neuro-radiological findings have been reported in this condition. We report the spectrum of neuro-radiological findings in three affected boys being treated at our centre. We suggest that magnetic resonance imaging (MRI) and, in particular magnetic resonance angiography (MRA) when taken in the context of the clinical presentation may be helpful in making an early diagnosis of this devastating condition. [ABSTRACT FROM AUTHOR]

Published

2017

25. Identification of novel ATP7A mutations and prenatal diagnosis in Chinese patients with Menkes disease.

Author

Cao, Binbin, Yang, Xiaoping, Chen, Yinyin, Huang, Qionghui, Wu, Ye, Gu, Qiang, Xiao, Jiangxi, Yang, Huixia, Pan, Hong, Chen, Junya, Sun, Yu, Ren, Li, Zhao, Chengfeng, Deng, Yanhua, Yang, Yanling, Chang, Xingzhi, Yang, Zhixian, Zhang, Yuehua, Niu, Zhengping, and Wang, Juli

Subjects

*ADENOSINE triphosphatase, *PUBLIC health, *KINKY hair syndrome, *GENETIC engineering, *DIAGNOSIS, *THERAPEUTICS

Abstract

Menkes disease (MD) is a fatal X-linked multisystem disease caused by mutations in ATP7A. In this study, clinical and genetic analysis was performed in 24 male MD patients. Development delay, seizures, kinky coarse hair, and dystonia were found in 24, 22, 24, and 24 patients, respectively. Serum ceruloplasmin/copper tested in 19 patients was low. Abnormal classic features of MD presented in the MRI/MRA of 19 patients. Seventeen mutations of ATP7A were identified in 22 patients. Twelve were novel mutations including three small deletion/insertion, one missense mutation, two nonsense mutations, three splicing-site mutations, and three gross deletions. Twenty-two patients were genetically diagnosed; neither point mutation nor deletion/duplication was found in two of them. c.2179G > A found in five patients might be a hot-spot mutation. Prenatal molecular diagnosis was performed for five unrelated fetuses (1 female and 4 male), which found four fetuses to be wild type and one male carried the same mutation as the proband. This study of the largest sample of Chinese MD patients examined to date discovered the unique phenotype and genotype spectrum in Chinese patients with 12 novel mutations of ATP7A, and that c.2179G > A might be a hot-spot mutation in MD patients. Five successful prenatal diagnosis contributed important information for MD families. [ABSTRACT FROM AUTHOR]

Published

2017

26. 13 novel putative mutations in ATP7A found in a cohort of 25 Italian families.

Author

Gemmis, Paola, Enzo, Maria, Lorenzetto, Elisa, Cattelan, Paola, Segat, Daniela, and Hladnik, Uros

Subjects

*ADENOSINE triphosphatase, *COPPER metabolism, *GENE expression, *KINKY hair syndrome, *DNA analysis

Abstract

ATP7A is a copper-transporting P-type adenosine triphosphatase whose loss of function leads to the Menkes disease, an X-linked copper metabolism multi-organ disorder (1 in 100.000 births). Here we document our experience with the ATP7A linked diseases in Italy. We analyzed the exonic structure of the ATP7A gene in 25 unrelated Italian families and studied the variants of unknown significance. We identified 22 different DNA alterations, 13 of which first reported in this study. The classical Menkes phenotype was present in 21 of the 25 families and was linked with highly damaging mutations (7 nonsense; 4 frame-shift; 2 small in-frame deletions, 2 splice site alterations, 2 gross deletions, and 1 gross duplication). Of the 4 cases with milder variants of the Menkes disease two had a missense mutation, one a leaky splice site alteration and one a nonsense mutation in exon 22. We determined in silico that all the mutations leading to the classical Menkes disease leave no residual activity of ATP7A including the apparently less severe in-frame deletions. Whereas milder forms of the disease are characterized by mutations that allow a limited residual activity of ATP7A, including the nonsense mutation observed. [ABSTRACT FROM AUTHOR]

Published

2017

27. Copper therapy reduces intravascular hemolysis and derepresses ferroportin in mice with mosaic mutation (Atp7amo-ms): An implication for copper-mediated regulation of the Slc40a1 gene expression.

Author

Lenartowicz, Małgorzata, Starzyński, Rafał R., Jończy, Aneta, Staroń, Robert, Antoniuk, Justyna, Krzeptowski, Wojciech, Grzmil, Paweł, Bednarz, Aleksandra, Pierzchała, Olga, Ogórek, Mateusz, Rajfur, Zenon, Baster, Zbigniew, and Lipiński, Paweł

Subjects

*KINKY hair syndrome, *COPPER deficiency, *IRON metabolism, *COPPER metabolism, *MACROPHAGES, *GENE expression, THERAPEUTIC use of copper

Abstract

Mosaic mutant mice displaying functional dysfunction of Atp7a copper transporter (the Menkes ATPase) are an established animal model of Menkes disease and constitute a convenient tool for investigating connections between copper and iron metabolisms. This model allows to explore changes in iron metabolism in suckling mutant mice suffering from systemic copper deficiency as well as in young and adult ones undergone copper therapy, which reduces lethal effect of the Atp7a gene mutation. Our recent study demonstrated that 14-day-old mosaic mutant males display blood cell abnormalities associated with intravascular hemolysis, and show disturbances in the functioning of the hepcidin-ferroportin regulatory axis, which controls systemic iron homeostasis. We thus aimed to check whether copper supplementation recovers mutants from hemolytic insult and rebalance systemic iron regulation. Copper supplementation of 14-day-old mosaic mutants resulted in the reestablishment of hematological status, attenuation of hepicidin and concomitant induction of the iron exporter ferroportin/Slc40a1 expression in the liver, down-regulated in untreated mutants. Interestingly, treatment of wild-type males with copper, induced hepcidin-independent up-regulation of ferroportin protein level in hepatic macrophages in both young and adult (6-month-old) animals. Stimulatory effect of copper on ferroportin mRNA and protein levels was confirmed in bone marrow-derived macrophages isolated from both wild-type and mosaic mutant males. Our study indicates that copper is an important player in the regulation of the Slc40a1 gene expression. [ABSTRACT FROM AUTHOR]

Published

2017

28. The role of insufficient copper in lipid synthesis and fatty-liver disease.

Author

Morrell, Austin, Tallino, Savannah, Yu, Lei, and Burkhead, Jason L.

Subjects

*COPPER in the body, *BODY composition, *HEAVY metals in the body, *KINKY hair syndrome, *INBORN errors of metabolism

Abstract

The essential transition metal copper is important in lipid metabolism, redox balance, iron mobilization, and many other critical processes in eukaryotic organisms. Genetic diseases where copper homeostasis is disrupted, including Menkes disease and Wilson disease, indicate the importance of copper balance to human health. The severe consequences of insufficient copper supply are illustrated by Menkes disease, caused by mutation in the X-linked ATP7A gene encoding a protein that transports copper from intestinal epithelia into the bloodstream and across the blood-brain barrier. Inadequate copper supply to the body due to poor diet quality or malabsorption can disrupt several molecular level pathways and processes. Though much of the copper distribution machinery has been described and consequences of disrupted copper handling have been characterized in human disease as well as animal models, physiological consequences of sub-optimal copper due to poor nutrition or malabsorption have not been extensively studied. Recent work indicates that insufficient copper may be important in a number of common diseases including obesity, ischemic heart disease, and metabolic syndrome. Specifically, marginal copper deficiency (CuD) has been reported as a potential etiologic factor in diseases characterized by disrupted lipid metabolism such as non-alcoholic fatty-liver disease (NAFLD). In this review, we discuss the available data suggesting that a significant portion of the North American population may consume insufficient copper, the potential mechanisms by which CuD may promote lipid biosynthesis, and the interaction between CuD and dietary fructose in the etiology of NAFLD. © 2016 IUBMB Life, 69(4):263-270, 2017 [ABSTRACT FROM AUTHOR]

Published

2017

29. In Vivo Modeling of the Pathogenic Effect of Copper Transporter Mutations That Cause Menkes and Wilson Diseases, Motor Neuropathy, and Susceptibility to Alzheimer's Disease.

Author

Mercer, Stephen W., Jianbin Wang, and Burke, Richard

Subjects

*GENETIC mutation, *KINKY hair syndrome, *HEPATOLENTICULAR degeneration, *DISEASE susceptibility, *ALZHEIMER'S disease

Abstract

Copper is an essential biometal, and several inherited diseases are directly associated with a disruption to normal copper homeostasis. The best characterized are the copper deficiency and toxicity disorders Menkes and Wilson diseases caused by mutations in the p-type Cu-ATPase genes ATP7A and ATP7B, respectively. Missense mutations in the C-terminal portion of ATP7A have also been shown to cause distal motor neuropathy, whereas polymorphisms inATP7Bare associated with increased risk of Alzheimer's disease. We have generated a single, in vivo model for studying multiple pathogenic mutations inATP7proteins using Drosophila melanogaster, which has a single orthologue of ATP7A and ATP7B. Four pathogenic ATP7A mutations and two ATP7B mutations were introduced into a genomic ATP7 rescue construct containing an in-frame C-terminal GFP tag. Analysis of the wild type ATP7-GFP transgene confirmed that ATP7 is expressed at the basolateral membrane of larval midgut copper cells and that the transgene can rescue a normally early lethal ATP7 deletion allele to adulthood. Analysis of the gATP7-GFP transgenes containing pathogenic mutations showed that the function of ATP7 was affected, to varying degrees, by all six of the mutations investigated in this study. Of particular interest, the ATP7BK832R Alzheimer's disease susceptibility allele was found, for the first time, to be a loss of function allele. This in vivo system allows us to assess the severity of individual ATP7A/B mutations in an invariant genetic background and has the potential to be used to screen for therapeutic compounds able to restore function to faulty copper transport proteins. [ABSTRACT FROM AUTHOR]

Published

2017

30. Menkes disease and response to copper histidine: An Indian case series.

Author

Yoganathan, Sangeetha, Thomas, Maya, Sudhakar, Sniya Valsa, Arunachal, Gautham, Danda, Sumita, Subramanian, Annadurai, and George, Renu

Subjects

*COPPER, *ORGANOMETALLIC compounds, *HISTIDINE, *KINKY hair syndrome

Abstract

Background: Menkes disease (MD) is an X-linked recessive neurodegenerative disorder caused by mutations in ATP7A gene. Depending on the residual ATP7A activity, manifestation may be classical MD, occipital horn syndrome, or distal motor neuropathy. Neurological sparing is expected in female carriers. However, on rare occasions, females may manifest with classical clinical phenotype due to skewed X-chromosome inactivation, X-autosome translocation, and XO genotype. Here, we describe a small series of probands with MD and their response to copper histidine therapy. This series also includes a female with X-13 translocation manifesting neurological symptoms. Methods: The clinical profile, laboratory and radiological data, and follow-up of four children with MD were collected from the hospital database and are being presented. Results: All the four children in our series had developmental delay, recurrent respiratory tract infections, hair and skeletal changes, axial hypotonia, tortuous vessels on imaging, low serum copper, ceruloplasmin, and elevated lactate. Fetal hypokinesia and fetal growth retardation were present in two cases. Failure to thrive was present in three children and only one child had epilepsy. Subcutaneous copper histidine was administered to all children. The average time lapse in the initiation of treatment was 20.3 months, and average duration of follow-up was 14.3 months. Conclusion: We conclude that copper histidine therapy is beneficial in reversing the skin and hair changes, improving appendicular tone, socio-cognitive milestones, and improving weight gain, and immunity. Early diagnosis and management of MD are essential to have a better clinical outcome. More research is needed to explore and devise new strategies in the management of patients with MD. [ABSTRACT FROM AUTHOR]

Published

2017

31. Metal-Dependent Regulation of ATP7A and ATP7B in Fibroblast Cultures.

Author

Lenartowicz, Malgorzata, Moos, Torben, Ogórek, Mateusz, Jensen, Thomas G., and Møller, Lisbeth B.

Subjects

KINKY hair syndrome, HEPATOLENTICULAR degeneration, COPPER

Abstract

Deficiency of one of the copper transporters ATP7A and ATP7B leads to the rare X-linked disorder Menkes Disease (MD) or the rare autosomal disorder Wilson disease (WD), respectively. In order to investigate whether the ATP7A and the ATP7B genes may be transcriptionally regulated, we measured the expression level of the two genes at various concentrations of iron, copper, and insulin. Treating fibroblasts from controls or from individuals with MD or WD for 3 and 10 days with iron chelators revealed that iron deficiency led to increased transcript levels of both ATP7A and ATP7B. Copper deficiency obtained by treatment with the copper chelator led to a downregulation of ATP7A in the control fibroblasts, but surprisingly not in the WD fibroblasts. In contrast, the addition of copper led to an increased expression of ATP7A, but a decreased expression of ATP7B. Thus, whereas similar regulation patterns for the two genes were observed in response to iron deficiency, different responses were observed after changes in the access to copper . Mosaic fibroblast cultures from female carriers of MD treated with copper or copper chelator for 6-8 weeks led to clonal selection. Cells that express the normal ATP7A allele had a selective growth advantage at high copper concentrations, whereas more surprisingly, cells that express the mutant ATP7A allele had a selective growth advantage at low copper concentrations. Thus, although the transcription of ATP7A is regulated by copper, clonal growth selection in mosaic cell cultures is affected by the level of copper . Female carriers of MD are rarely affected probably due to a skewed inactivation of the X-chromosome bearing the ATP7A mutation. [ABSTRACT FROM AUTHOR]

Published

2016

32. The Activity of Menkes Disease Protein ATP7A Is Essential for Redox Balance in Mitochondria.

Author

Bhattacharjee, Ashima, Haojun Yang, Duffy, Megan, Robinson, Emily, Conrad-Antoville, Arianrhod, Ya-Wen Lu, Capps, Tony, Braiterman, Lelita, Wolfgang, Michael, Murphy, Michael P., Ling Yi, Kaler, Stephen G., Lutsenko, Svetlana, and Ralle, Martina

Subjects

*KINKY hair syndrome, *ADENOSINE triphosphatase, *OXIDATION-reduction reaction, *MITOCHONDRIA, *HOMEOSTASIS

Abstract

Copper-transporting ATPase ATP7A is essential for mammalian copper homeostasis. Loss of ATP7A activity is associated with fatal Menkes disease and various other pathologies. In cells, ATP7A inactivation disrupts copper transport from the cytosol into the secretory pathway. Using fibroblasts from Menkes disease patients and mouse 3T3-L1 cells with a CRISPR/Cas9-inactivated ATP7A, we demonstrate that ATP7A dysfunction is also damaging to mitochondrial redox balance. In these cells, copper accumulates in nuclei, cytosol, and mitochondria, causing distinct changes in their redox environment. Quantitative imaging of live cells using GRX1-roGFP2 and HyPer sensors reveals highest glutathione oxidation and elevation of H2O2 in mitochondria, whereas the redox environment of nuclei and the cytosol is much less affected. Decreasing the H2O2 levels in mitochondria with MitoQ does not prevent glutathione oxidation; i.e. elevated copper and not H2O2 is a primary cause of glutathione oxidation. Redox misbalance does not significantly affect mitochondrion morphology or the activity of respiratory complex IV but markedly increases cell sensitivity to even mild glutathione depletion, resulting in loss of cell viability. Thus, ATP7A activity protects mitochondria from excessive copper entry, which is deleterious to redox buffers. Mitochondrial redox misbalance could significantly contribute to pathologies associated with ATP7A inactivation in tissues with paradoxical accumulation of copper (i.e. renal epithelia). [ABSTRACT FROM AUTHOR]

Published

2016

33. Menkes disease: what a multidisciplinary approach can do.

Author

Ojha, Rahul and Prasad, Asuri N.

Subjects

KINKY hair syndrome, COPPER deficiency, INFANT health, NEURODEGENERATION, COPPER metabolism

Abstract

Disorders of copper homeostasis are currently recognized across the life span. Their recognition and links to human disease have spanned several decades, beginning with the recognition of a degenerative disorder in the offspring of sheep grazing in copper-deficient pastures, through to the description of infants suffering from a progressive neurodegenerative disorder characterized by epileptic seizures, developmental regression, failure to thrive, and an unusual hair quality (giving the condition its distinctive label of "kinky hair disease"). In this review, we trace the historical background and describe the biochemistry and physiology of copper metabolism and transport, inheritance patterns, molecular genetics, and genotype-phenotype correlations based on current understanding of the disorder. It is clear from the clinical presentations and variants that disorders of copper homeostasis include phenotypes ranging from mild occipital horn syndrome to intermediate and severe forms of classical Menkes disease. The symptoms involve multiple organ systems such as brain, lung, gastrointestinal tract, urinary tract, connective tissue, and skin. A multisystem disorder needs a multidisciplinary approach to care, as treatment interventions permit longer survival for some individuals. Animal models have been developed to help screen treatment options and provide a better understanding of these disorders in the laboratory. Finally, we propose a multidisciplinary approach to promote continued research (both basic and clinical) to improve survival, quality of life, and care for these conditions. [ABSTRACT FROM AUTHOR]

Published

2016

34. Copper dyshomoeostasis in Parkinson's disease: implications for pathogenesis and indications for novel therapeutics.

Author

Davies, Katherine M., Mercera, Julian F. B., Nicholas Chen, and Double, Kay L.

Subjects

*PARKINSON'S disease, *BRAIN diseases, *NEURAL development, *CENTRAL nervous system diseases, *KINKY hair syndrome

Abstract

Copper is a biometal essential for normal brain development and function, thus copper deficiency or excess results in central nervous system disease. Well-characterized disorders of disrupted copper homoeostasis with neuronal degeneration include Menkes disease and Wilson's disease but a large body of evidence also implicates disrupted copper pathways in other neurodegenerative disorders, including Parkinson's disease, Alzheimer's disease, Amyotrophic lateral sclerosis, Huntington's disease and prion diseases. In this short review we critically evaluate the data regarding changes in systemic and brain copper levels in Parkinson's disease, where alterations in brain copper are associated with regional neuronal cell death and disease pathology. We review copper regulating mechanisms in the human brain and the effects of dysfunction within these systems. We then examine the evidence for a role for copper in pathogenic processes in Parkinson's disease and consider reports of diverse copper-modulating strategies in in vitro and in vivo models of this disorder. Copper-modulating therapies are currently advancing through clinical trials for Alzheimer's and Huntington's disease and may also hold promise as disease modifying agents in Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2016

35. Canine Models for Copper Homeostasis Disorders.

Author

Xiaoyan Wu, Leegwater, Peter A. J., and Fieten, Hille

Subjects

*COPPER metabolism, *HOMEOSTASIS, *KINKY hair syndrome, *GENETIC disorders, *HEPATITIS

Abstract

Copper is an essential trace nutrient metal involved in a multitude of cellular processes. Hereditary defects in copper metabolism result in disorders with a severe clinical course such as Wilson disease and Menkes disease. InWilson disease, copper accumulation leads to liver cirrhosis and neurological impairments. A lack in genotype-phenotype correlation inWilson disease points toward the influence of environmental factors or modifying genes. In a number of Non-Wilsonian forms of copper metabolism, the underlying genetic defects remain elusive. Several pure bred dog populations are affected with copper-associated hepatitis showing similarities to human copper metabolism disorders. Gene-mapping studies in these populations offer the opportunity to discover new genes involved in copper metabolism. Furthermore, due to the relatively large body size and long life-span of dogs they are excellent models for development of new treatment strategies. One example is the recent use of canine organoids for disease modeling and gene therapy of copper storage disease. This review addresses the opportunities offered by canine genetics for discovery of genes involved in copper metabolism disorders. Further, possibilities for the use of dogs in development of new treatment modalities for copper storage disorders, including gene repair in patient-derived hepatic organoids, are highlighted. [ABSTRACT FROM AUTHOR]

Published

2016

36. Case Study: Somatic Sprouts and Halo-Like Amorphous Materials of the Purkinje Cells in Huntington's Disease.

Author

Sakai, Kenji, Ishida, Chiho, Morinaga, Akiyoshi, Takahashi, Kazuya, and Yamada, Masahito

Subjects

*AMORPHOUS substances, *HUNTINGTON disease, *PURKINJE cells, *NEOSTRIATUM, *KINKY hair syndrome, *NEURODEGENERATION, *PHYSIOLOGY, *GENETICS

Abstract

We described a 63-year-old Japanese female with genetically confirmed Huntington's disease who showed unusual pathological findings in the cerebellum. This case exhibited typical neuropathological features as Huntington's disease, including severe degeneration of the neostriatum and widespread occurrence of ubiquitin and expanded polyglutamine-positive neuronal intranuclear and intracytoplasmic inclusions. The cerebellum was macroscopically unremarkable; however, somatic sprouts and halo-like amorphous materials of Purkinje cell with a large amount of torpedoes were noteworthy. Furthermore, the Purkinje cells were found to have granular cytoplasmic inclusions. Somatic sprouting is a form of degenerated Purkinje cell exhibited in several specific conditions. Although this finding usually appeared in developmental brains, several neurodegenerative disorders, including Menkes kinky hair disease, familial spinocerebellar ataxia, acute encephalopathy linked to familial hemiplegic migraine, and several other conditions, have been reported showing sprouting from the soma of Purkinje cell. We propose that Huntington's disease is another degenerative condition associated with these distinct neuropathological findings of Purkinje cell. Abnormally accumulated huntingtin protein in the cytoplasm could be related to the development of these structures. [ABSTRACT FROM AUTHOR]

Published

2015

37. Mottled Mice and Non-Mammalian Models of Menkes Disease.

Author

Lenartowicz, Małgorzata, Krzeptowski, Wojciech, Lipiński, Paweł, Grzmil, Paweł, Starzyński, Rafał, Pierzchała, Olga, Møller, Lisbeth Birk, Ghose, Aurnab, and Padinjat, Raghu

Subjects

KINKY hair syndrome, LABORATORY mice

Abstract

Menkes disease is a multi-systemic copper metabolism disorder caused by mutations in the X-linked ATP7A gene and characterized by progressive neurodegeneration and severe connective tissue defects. The ATP7A protein is a copper (Cu)-transporting ATPase expressed in all tissues and plays a critical role in the maintenance of copper homeostasis in cells of the whole body. ATP7A participates in copper absorption in the small intestine and in copper transport to the central nervous system (CNS) across the blood-brain-barrier (BBB) and blood-cerebrospinal fluid barrier (BCSFB). Cu is essential for synaptogenesis and axonal development. In cells, ATP7A participates in the incorporation of copper into Cu-dependent enzymes during the course of its maturation in the secretory pathway. There is a high degree of homology (>80%) between the human ATP7A and murine Atp7a genes. Mice with mutations in the Atp7a gene, called mottled mutants, are well-established and excellent models of Menkes disease. Mottled mutants closely recapitulate the Menkes phenotype and are invaluable for studying Cumetabolism. They provide useful models for exploring and testing new forms of therapy in Menkes disease. Recently, non-mammalian models of Menkes disease, Drosophila melanogaster and Danio rerio mutants were used in experiments which would be technically difficult to carry out in mammals. [ABSTRACT FROM AUTHOR]

Published

2015

38. Menkes Kinky Hair Disease: Role of Dermatologist.

Author

Shah, Bela, Jagati, Ashish, and Joshi, Rutu

Subjects

*KINKY hair syndrome, *DERMATOLOGISTS, *X-linked genetic disorders

Abstract

Menkes kinky hair disease is an X-linked recessive multisystem disorder which mainly involves a central nervous system and usually presents in early infancy. The underlying defect is in copper metabolism leading to impaired function of copper-dependent enzymes. Diagnosis is confirmed by low level of serum copper and serum ceruloplasmin. Classical disease is associated with poor prognosis. Hereby, we report a classical case of Menkes kinky hair disease with characteristic clinical as well as laboratory findings and radiological features. We are reporting this case because of its early presentation. [ABSTRACT FROM AUTHOR]

Published

2018

39. Autonomous requirements of the Menkes disease protein in the nervous system.

Author

Hodgkinson, Victoria L., Sha Zhu, Yanfang Wang, Ladomersky, Erik, Nickelson, Karen, Weisman, Gary A., Lee, Jaekwon, Gitlin, Jonathan D., and Petris, Michael J.

Subjects

*KINKY hair syndrome, *NERVOUS system, *INBORN errors of metabolism, *SYNDROMES, *NEUROGLIA

Abstract

Menkes disease is a fatal neurodegenerative disorder arising from a systemic copper deficiency caused by loss-of-function mutations in a ubiquitously expressed copper transporter, ATP7A. Although this disorder reveals an essential role for copper in the developing human nervous system, the role of ATP7A in the pathogenesis of signs and symptoms in affected patients, including severe mental retardation, ataxia, and excitotoxic seizures, remains unknown. To directly examine the role of ATP7A within the central nervous system, we generated Atp7aNes mice, in which the Atp7a gene was specifically deleted within neural and glial cell precursors without impairing systemic copper homeostasis, and compared these mice with the mottled brindle (mo-br) mutant, a murine model of Menkes disease in which Atp7a is defective in all cells. Whereas mo-br mice displayed neurodegeneration, demyelination, and 100% mortality prior to weaning, the Atp7aNes mice showed none of these phenotypes, exhibiting only mild sensorimotor deficits, increased anxiety, and susceptibility to NMDA-induced seizure. Our results indicate that the pathophysiology of severe neurological signs and symptoms in Menkes disease is the result of copper deficiency within the central nervous system secondary to impaired systemic copper homeostasis and does not arise from an intrinsic lack of ATP7A within the developing brain. Furthermore, the sensorimotor deficits, hypophagia, anxiety, and sensitivity to NMDA-induced seizure in the Atp7aNes mice reveal unique autonomous requirements for ATP7A in the nervous system. Taken together, these data reveal essential roles for copper acquisition in the central nervous system in early development and suggest novel therapeutic approaches in affected patients. [ABSTRACT FROM AUTHOR]

Published

2015

40. Impaired osteogenesis in Menkes disease-derived induced pluripotent stem cells.

Author

Dongkyu Kim, Jieun Choi, Kyu-Min Han, Beom Hee Lee, Jin-Ho Choi, Han-Wook Yoo, and Yong-Mahn Han

Subjects

*KINKY hair syndrome, *BONE abnormalities, *INDUCED pluripotent stem cells, *GENETIC mutation, *MESENCHYMAL stem cells, *OSTEOBLASTS, *CD antigens

Abstract

Introduction: Bone abnormalities, one of the primary manifestations of Menkes disease (MD), include a weakened bone matrix and low mineral density. However, the molecular and cellular mechanisms underlying these bone defects are poorly understood. Methods: We present in vitro modeling for impaired osteogenesis in MD using human induced pluripotent stem cells (iPSCs) with a mutated ATP7A gene. MD-iPSC lines were generated from two patients harboring different mutations. Results: The MD-iPSCs showed a remarkable retardation in CD105 expression with morphological anomalies during development to mesenchymal stem cells (MSCs) compared with wild-type (WT)-iPSCs. Interestingly, although prolonged culture enhanced CD105 expression, mature MD-MSCs presented with low alkaline phosphatase activity, reduced calcium deposition in the extracellular matrix, and downregulated osteoblast-specific genes during osteoblast differentiation in vitro. Knockdown of ATP7A also impaired osteogenesis in WT-MSCs. Lysyl oxidase activity was also decreased in MD-MSCs during osteoblast differentiation. Conclusions: Our findings indicate that ATP7A dysfunction contributes to retardation in MSC development and impairs osteogenesis in MD. [ABSTRACT FROM AUTHOR]

Published

2015

41. Molecular basis of neurodegeneration and neurodevelopmental defects in Menkes disease.

Author

Zlatic, Stephanie, Comstra, Heather Skye, Gokhale, Avanti, Petris, Michael J., and Faundez, Victor

Subjects

*NEURODEGENERATION, *KINKY hair syndrome, *GENETIC mutation, *GENETIC disorders, *PHENOTYPES, *INTELLECTUAL disabilities

Abstract

ATP7A mutations impair copper metabolism resulting in three distinct genetic disorders in humans. These diseases are characterized by neurological phenotypes ranging from intellectual disability to neurodegeneration. Severe ATP7A loss-of-function alleles trigger Menkes disease, a copper deficiency condition where systemic and neurodegenerative phenotypes dominate clinical outcomes. The pathogenesis of these manifestations has been attributed to the hypoactivity of a limited number of copper-dependent enzymes, a hypothesis that we refer as the oligoenzymatic pathogenic hypothesis. This hypothesis, which has dominated the field for 25 years, only explains some systemic Menkes phenotypes. However, we argue that this hypothesis does not fully account for the Menkes neurodegeneration or neurodevelopmental phenotypes. Here, we propose revisions of the oligoenzymatic hypothesis that could illuminate the pathogenesis of Menkes neurodegeneration and neurodevelopmental defects through unsuspected overlap with other neurological conditions including Parkinson's, intellectual disability, and schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2015

42. Small amounts of functional ATP7A protein permit mild phenotype.

Author

Møller, Lisbeth Birk

Subjects

PROTEIN analysis, PHENOTYPES, GENETIC mutation, KINKY hair syndrome, NEUROPATHY

Abstract

Summary Mutations in ATP7A lead to at least three allelic disorders: Menkes disease (MD), Occipital horn syndrome and X-linked distal motor neuropathy. These disorders are mainly seen in male individuals, but a few affected females have been described. More than 400 different mutations have been identified in the ATP7A gene. We have conducted several studies in the hope of uncovering the relationship between genotype and phenotype. We have examined the X-inactivation pattern in affected females, the effect of exon-deletions and—duplications, and splice-site mutations on the composition and amount of ATP7A transcript, and we have examined the structural location of missense mutations. The X-inactivation pattern did not fully explain the manifestation of MD in a small fraction of carriers. Most of the affected females had preferential inactivation of the X-chromosome with the normal ATP7A gene, but a few individuals exhibited preferential inactivation of the X-chromosome with the mutated ATP7A gene. The observed mild phenotype in some patients with mutations that effect the composition of the ATP7A transcript, seems to be explained by the presence of a small amount of normal ATP7A transcript. The location of missense mutations on structural models of the ATP7A protein suggests that affected conserved residues generally lead to a severe phenotype. The ATP7A protein traffics within the cells. At low copper levels, ATP7A locates to the Trans-Golgi Network (TGN) to load cuproenzymes with copper, whereas at higher concentrations, ATP7A shifts to the post-Golgi compartments or to the plasma membrane to export copper out of the cell. Impaired copper-regulation trafficking has been observed for ATP7A mutants, but its impact on the clinical outcome is not clear. The major problem in patients with MD seems to be insufficient amounts of copper in the brain. In fact, prenatal treatment of mottled mice as a model for human MD with a combination of chelator and copper, produces a slight increase in copper levels in the brain which perhaps leads to longer survival and more active behavior. In conclusion, small amounts of copper at the right location seem to relieve the symptoms. [ABSTRACT FROM AUTHOR]

Published

2015

43. Menkes Disease- A Rare Neurodegenerative Disorder.

Author

Choudhary, R., Choudhary, A., and Sitaraman, S.

Subjects

*KINKY hair syndrome, *CHILDREN with developmental disabilities

Abstract

Menkes Disease is a rare neurological disorder of impaired copper transport, characterized by progressive neurodegeneration, refractory epilepsy and characteristic hair abnormalities. Here, we report a 5 month old child with developmental delay, refractory seizures, and hypopigmented short, sparse hair with microscopic pili torti; low serum copper and ceruloplasmin and neuroimaging revealing white matter hyperintensities and tortuous vessels. [ABSTRACT FROM AUTHOR]

Published

2015

44. Pigmentary disorders of the eyes and skin.

Author

Que, Syril Keena T., Weston, Gillian, Suchecki, Jeanine, and Ricketts, Janelle

Subjects

*PIGMENTATION disorders, *EYE color, *HUMAN skin color, *ALBINISM, *KINKY hair syndrome, *TUBEROUS sclerosis, *NEUROFIBROMATOSIS 1

Abstract

Oculocutaneous albinism, Menkes syndrome, tuberous sclerosis, neurofibromatosis type 1, dyskeratosis congenita, lentiginosis profusa syndrome, incontinentia pigmenti, and Waardenburg syndrome all are genodermatoses that have well established gene mutations affecting multiple biological pathways, including melanin synthesis, copper transport, cellular proliferation, telomerase function, apoptosis, and melanocyte biology. Onchocerciasis results from a systemic inflammatory response to a nematode infection. Hypomelanosis of Ito is caused by chromosomal mosaicism, which underlies its phenotypic heterogeneity. Incomplete migration of melanocytes to the epidermis and other organs is the underlying feature of nevus of Ota. Vogt-Koyangi-Harada and vitiligo have an autoimmune etiology; the former is associated with considerable multiorgan involvement, while the latter is predominantly skin-limited. [ABSTRACT FROM AUTHOR]

Published

2015

45. Novel mutations and clinical outcomes of copper-histidine therapy in Menkes disease patients.

Author

Kim, Ja, Lee, Beom, Kim, Yoo-Mi, Choi, Jin-Ho, Kim, Gu-Hwan, Cheon, Chong, and Yoo, Han-Wook

Subjects

*KINKY hair syndrome, *HISTIDINE, *COPPER metabolism, *FRAMESHIFT mutation, *DELETION mutation, *HEALTH outcome assessment, *CEREBRAL infarction, *THERAPEUTICS

Abstract

Menkes disease is a very rare X-linked copper metabolism disorder that results from an ATP7A gene mutation. With the advent of subcutaneous copper-histidine therapy, the early diagnosis of Menkes disease becomes of utmost importance for patients' prognosis. In the present study, the clinical characteristics of 12 Korean patients with Menkes disease (11 males and 1 female from 11 unrelated families) were described along with the mutation spectrum. Only 2 male patients were diagnosed in the neonatal period, and the other male patients were diagnosed at age 4.3 ± 1.9 months. The presenting signs included depigmented kinky hair, neurologic deficits, and hypotonia. Serum copper and ceruloplasmin levels were markedly decreased. Intracranial vessels were dilated with tortuosity and accompanied by regional cerebral infarctions, even at an early age. Of note, the female patient was diagnosed at age 18 months, during the evaluation for developmental delay, by characteristic MRA findings, biochemical profiles, and genetic evaluation. A total of 11 ATP7A mutations were identified, including five previously unreported mutations. Most mutations were truncated (except 1 missense mutation), including 3 frameshift, 2 nonsense, 3 large deletion, and 2 splice-site variants. The age at commencement of copper-histidine treatment was variable among patients age 7.3 ± 7.5 (0.5-27) months. Despite the treatment, seven patients died before age 5 years, and the remaining patients were severely retarded in neurodevelopment. The poor outcomes of our patients might be related to delayed therapy, but severe ATP7A mutations should be noted as well. [ABSTRACT FROM AUTHOR]

Published

2015

46. Menkes disease in Korea: ATP7A mutation and epilepsy phenotype.

Author

Lee, Jin Sook, Lim, Byung Chan, Kim, Ki Joong, Hwang, Yong Seung, Cheon, Jung-Eun, Kim, In-One, Seong, Moon-Woo, Park, Sung Sup, and Chae, Jong-Hee

Subjects

*KINKY hair syndrome, *NEURODEGENERATION, *GENETIC mutation, *KOREANS, *EPILEPSY, *ELECTROENCEPHALOGRAPHY, *PHENOTYPES, *DISEASES

Abstract

Objective Menkes disease (MD) is an X-linked recessive disorder characterized by progressive neuro-degeneration. There are few reports of epilepsy and electroencephalography (EEG) findings and few reports of MD patients in Korea. We explored MD genotypes and phenotypes, including epilepsy, in Korean patients. Patients and methods All patients diagnosed as MD in our hospital, seven males, were included in this study. Their medical records and EEG findings were reviewed retrospectively. Results All male patients had developmental delay/regression with hypotonia, and the appearance of their hair and skin was characteristic of MD. A recurrent missense mutation was found in two patients. Two nonsense mutations and one gross deletion were also found. The five male patients with identified molecular defects experienced anticonvulsant-resistant seizures. EEGs in focal seizures usually revealed interictal focal epileptiform discharges over the posterior region without focal slowing. This was followed by modified hypsarrhythmia with less polymorphic background activity in spasms and anteriorly dominant diffuse slowing with generalized and multifocal epileptiform discharges in myoclonic or generalized tonic seizures. Two patients with the same G727R missense mutation both developed seizures that evolved with age but differed in severity. Conclusions G727R missense mutation may be relatively common in Korea, as in other countries. There was no clear correlation of genotype with phenotype, even in epilepsy and EEG abnormalities. [ABSTRACT FROM AUTHOR]

Published

2015

47. Menkes disease in affected females: The clinical disease spectrum.

Author

Smpokou, Patroula, Samanta, Monisha, Berry, Gerard T., Hecht, Leah, Engle, Elizabeth C., and Lichter‐Konecki, Uta

Abstract

Menkes disease (MD; OMIM 309400) is an X-linked, neurodegenerative disorder resulting from deficient activity of copper-dependent enzymes and caused by alterations in the APT7A gene. In its classic form, it manifests in boys with hypotonia, seizures, skin and joint laxity, hair twisting ( pili torti), cerebrovascular tortuosity, and bladder diverticulae. Menkes disease phenotypes have been reported in females with X; autosome translocations- disrupting ATP7A gene function- or ATP7A gene alterations. Those females manifest variable clinical findings, some of which, such as pili torti, seizure presence and/or age of onset, cerebrovascular tortuosity, degree of intellectual disability, and bladder divericulae are largely under-reported and under-studied. Here, we report on three females with Menkes disease and variant phenotypes, sharing characteristic features, one with classic Menkes disease and two with Menkes disease variants. We conclude that Menkes disease in females manifests with a variable spectrum of clinical findings but a few are uniformly present such as neurodevelopmental disability, hypotonia, and connective tissue findings. Others, such as seizures, cerebral atrophy, and cerebrovascular tortuosity may be present but are under-reported and under- studied. We propose that the diagnosis of Menkes disease or variants in females with suspicious clinical findings is an important one to consider as early treatment with parenteral copper may be considered. The effect of this treatment on the disease course in females with MD is unknown and remains to be seen. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

48. Copper mediated neurological disorder: Visions into amyotrophic lateral sclerosis, Alzheimer and Menkes disease.

Author

Ahuja, Anami, Dev, Kapil, Tanwar, Ranjeet S., Selwal, Krishan K., and Tyagi, Pankaj K.

Subjects

AMYOTROPHIC lateral sclerosis, PHYSIOLOGICAL effects of copper, ALZHEIMER'S disease, KINKY hair syndrome, NEURODEGENERATION, OXYGEN in the body, BIOACCUMULATION, DNA damage

Abstract

Copper (Cu) is a vital redox dynamic metal that is possibly poisonous in superfluous. Metals can traditionally or intricately cause propagation in reactive oxygen species (ROS) accretion in cells and this may effect in programmed cell death. Accumulation of Cu causes necrosis that looks to be facilitated by DNA damage, followed by activation of P53. Cu dyshomeostasis has also been concerned in neurodegenerative disorders such as Alzheimer, Amyotrophic lateral sclerosis (ALS) or Menkes disease and is directly related to neurodegenerative syndrome that usually produces senile dementia. These mortal syndromes are closely related with an immense damage of neurons and synaptic failure in the brain. This review focuses on copper mediated neurological disorders with insights into amyotrophic lateral sclerosis, Alzheimer and Menkes disease. [ABSTRACT FROM AUTHOR]

Published

2015

49. Molecular and biochemical characterization of Mottled-dappled, an embryonic lethal Menkes disease mouse model.

Author

Haddad, Marie Reine, Patel, Keyur D., Sullivan, Patricia H., Goldstein, David S., Murphy, Kevin M., Centeno, Jose A., and Kaler, Stephen G.

Subjects

*KINKY hair syndrome, *MOLECULAR biology, *DELETION mutation, *BIOCHEMISTRY, *MICROARRAY technology, *X chromosome, *COMPARATIVE genomics, *LABORATORY mice

Abstract

Mottled-dappled ( Mo-dp ) is a mouse model of Menkes disease caused by a large, previously uncharacterized deletion in the 5′ region of Atp7a , the mouse ortholog of ATP7A . Affected mutants die in utero at embryonic day 17, and show bending and thickening of the ribs and distortion of the pectoral and pelvic girdles and limbs. To characterize this allele, we designed a custom 4x180K microarray on the mouse X chromosome and performed comparative genomic hybridization using extracted DNA from normal and carrier Mo-dp females, and identified an approximately 9 kb deletion. We used PCR to fine-map the breakpoints and amplify a junction fragment of 630 bp. Sequencing of the junction fragment disclosed the exact breakpoint locations and that the Mo-dp deletion is precisely 8990 bp, including approximately 2 kb in the promoter region of Atp7a . Western blot analysis of Mo-dp heterozygous brains showed diminished amounts of Atp7a protein, consistent with reduced expression due to the promoter region deletion on one allele. In heterozygous females, brain copper levels tended to be lower compared to wild type whereas neurochemical analyses revealed higher dihydroxyphenylacetic acid:dihydroxyphenylglycol (DOPAC:DHPG) and dopamine:norepinephrine (DA:NE) ratios compared to normal (P = 0.002 and 0.029, respectively), consistent with partial deficiency of dopamine-beta-hydroxylase, a copper-dependent enzyme. Heterozygous females showed no significant differences in body weight compared to wild type females. Our results delineate the molecular details of the Mo-dp mutation for the first time and define novel biochemical findings in heterozygous female carriers of this allele. [ABSTRACT FROM AUTHOR]

Published

2014

50. Epilepsy in Children With Menkes Disease: A Systematic Review of Literature.

Author

Verrotti, Alberto, Carelli, Alessia, and Coppola, Giangennaro

Subjects

*CHILDHOOD epilepsy, *PEDIATRIC neurology research, *KINKY hair syndrome, *HAIR manifestations of general diseases, *INBORN errors of metabolism

Abstract

Menkes disease is a lethal multisystemic disorder of copper metabolism characterized by connective tissue abnormalities, progressive neurodegeneration and peculiar “kinky hair.” Epilepsy is one of the main clinical features of this disease but it has been described in detail by only a few authors. Most patients develop seizures from 2 to 3 months of age, accompanied by a neurodevelopmental regression. The history of epilepsy is usually characterized by 3 stages: an early stage with focal clonic seizures and status epilepticus, an intermediate stage with infantile spasms, and a late stage with multifocal, myoclonic, and tonic seizures. At the onset, epilepsy can be controlled with anticonvulsant therapy, whereas with the progression of disease, it becomes extremely resistant to all antiepileptic drugs. In this article, we analyze clinical and electroencephalographic (EEG) characteristics of epilepsy in patients with this syndrome. [ABSTRACT FROM PUBLISHER]

Published

2014