Copper metabolism and inherited copper transport disorders: molecular mechanisms, screening, and treatment
文献情報
Hiroko Kodama, Chie Fujisawa
In this review, we discuss genetic disorders involving altered copper metabolism, particularly in relation to Menkes disease (MD), occipital horn syndrome (OHS), and Wilson’s disease (WD). The responsible genes for MD and WD are ATP7A and ATP7B, respectively. Both proteins encoded by these genes are responsible for transporting copper from the cytosol to the Golgi apparatus. However, the pathology of MD is completely different from that of WD, that is, MD is characterized by a copper deficiency while WD is caused by a toxic excess of copper. The reason for this difference is related to the particular cell types in which the ATP7A and ATP7B proteins are expressed. ATP7A is expressed in almost all cell types except hepatocytes, whereas ATP7B is mainly expressed in hepatocytes. MD and OHS are X-linked recessive disorders characterized by copper deficiency. Typical features of MD, such as neurological disturbances, connective tissue disorders, and hair abnormalities, can be explained by the abnormally low activity of copper-dependent enzymes. The current standard-of-care treatment for MD is parenteral administrations of copper–histidine. When the treatment is initiated in newborn babies prior to two months of age, the neurological degeneration may be prevented, but delayed treatment is considerably less effective. Moreover, copper–histidine treatment does not improve symptoms of the connective tissue disorders. As such, systems for mass screening of neonates for MD should be implemented. At the same time, novel treatments targeting connective tissue disorders need to be developed. OHS is a milder form of MD and is characterized by connective tissue abnormalities. Although formal trials have not been conducted for OHS, OHS patients are typically treated in a similar manner to those with MD. WD is an autosomal recessive disorder characterized by the toxic effects of chronic exposure to high levels of copper. The hepatic and nervous systems are typically most severely affected. Numerous other symptoms can also be observed, however, making an early diagnosis difficult. Chelating agents and zinc are effective for the treatment of WD, but they are ineffective for the patients with fulminant hepatic failure. Some patients with neurological diseases show poor response to chelating agents; here again, early diagnosis and treatment are critical. Screening of newborn babies or infants for WD can help lead to timely diagnosis and treatment. Patients with WD may have a risk of hepatocellular carcinoma despite receiving treatment. An understanding of the relation between WD and hepatocellular carcinoma will provide clues to help prevent hepatocellular carcinoma in patients with WD.
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Metallomics
Metallomics publishes cutting-edge investigations aimed at elucidating the identification, distribution, dynamics, role and impact of metals and metalloids in biological systems. Studies that address the “what, where, when, how and why” of these inorganic elements in cells, tissues, organisms, and various environmental niches are welcome, especially those employing multidisciplinary approaches drawn from the analytical, bioinorganic, medicinal, environmental, biophysical, cell biology, plant biology and chemical biology communities. We are particularly interested in articles that enhance our chemical and/or physical understanding of the molecular mechanisms of metal-dependent life processes, and those that probe the common space between metallomics and other ‘omics approaches to uncover new insights into biological processes. Metallomics seeks to position itself at the forefront of those advances in analytical chemistry destined to clarify the enormous complexity of biological systems. As such, we particularly welcome those papers that outline cutting-edge analytical technologies, e.g., in the development and application of powerful new imaging, spectroscopic and mass spectrometric modalities. Work that describes new insights into metal speciation, trafficking and dynamics in complex systems or as a function of microenvironment are also strongly encouraged. Studies that examine the interconnectivity of metal-dependent processes with systems level responses relevant to organismal health or disease are also strongly encouraged, for example those that probe the effect of chemical exposure on metal homeostasis or the impact of metal-based drugs on cellular processes.
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