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Cell culture studies of Menkes kinky hair disease. 1978

W Y Chan, and A D Garnica, and O M Rennert

The dose response as well as kinetics of uptake and retention of copper and cadmium of normal and Menkes kinky hair disease (MKHD) cultured fibroblasts are described. In basal culture medium, intracellular copper concentration in MKHD fibroblasts was approximately 3 times that of control cultures. The intracellular copper concentration of MKHD cells was significantly higher than that of normal fibroblasts at medium copper concentrations below 20 microgram/ml. Death of MKHD cells occurred at medium copper concentrations between 15 and 20 microgram/ml with an intracellular copper level 3 times that at basal medium. Normal cells died at medium copper concentration above 30 microgram/ml with an intracellular copper concentration 19 times that at basal medium. These observations suggested the existence of a regulatory mechanism for maintenance and control of intracellular copper in normal fibroblasts which is effective at medium copper concentrations below 30 microgram/ml. This system is defective in MKHD fibroblasts. In basal medium MKHD and normal fibroblasts had similar intracellular cadmium concentrations; however, at higher medium cadmium concentrations MKHD cells had increased intracellular cadmium levels. The uptake of both 64Cu and 109Cd was significantly higher in MKHD cells than in normal cells, indicating that the uptake of 64Cu and 109Cd is not impaired in MKHD cells. A higher retention of 64Cu was observed in MKHD cells at both 37 degrees C and 4 degrees C. No obvious trend, however, was observed in the difference of retention of 109Cd between MKHD and normal cells. An impairment of egress of copper in MKHD cells is implicated by these results.

UI MeSH Term Description Entries
D007223 Infant A child between 1 and 23 months of age. Infants
D007231 Infant, Newborn An infant during the first 28 days after birth. Neonate,Newborns,Infants, Newborn,Neonates,Newborn,Newborn Infant,Newborn Infants
D007700 Kinetics The rate dynamics in chemical or physical systems.
D007706 Menkes Kinky Hair Syndrome An inherited disorder of copper metabolism transmitted as an X-linked trait and characterized by the infantile onset of HYPOTHERMIA, feeding difficulties, hypotonia, SEIZURES, bony deformities, pili torti (twisted hair), and severely impaired intellectual development. Defective copper transport across plasma and endoplasmic reticulum membranes results in copper being unavailable for the synthesis of several copper containing enzymes, including PROTEIN-LYSINE 6-OXIDASE; CERULOPLASMIN; and SUPEROXIDE DISMUTASE. Pathologic changes include defects in arterial elastin, neuronal loss, and gliosis. (From Menkes, Textbook of Child Neurology, 5th ed, p125) Hypocupremia, Congenital,Kinky Hair Syndrome,Menkes Syndrome,Steely Hair Syndrome,Congenital Hypocupremia,Copper Transport Disease,Kinky Hair Disease,Menkea Syndrome,Menkes Disease,Menkes' Disease,Steely Hair Disease,X-Linked Copper Deficiency,Congenital Hypocupremias,Copper Deficiencies, X-Linked,Copper Deficiency, X-Linked,Copper Transport Diseases,Deficiencies, X-Linked Copper,Deficiency, X-Linked Copper,Disease, Copper Transport,Disease, Steely Hair,Diseases, Copper Transport,Diseases, Kinky Hair,Diseases, Menkes',Diseases, Steely Hair,Hair Diseases, Kinky,Hair Diseases, Steely,Hypocupremias, Congenital,Kinky Hair Diseases,Menkea Syndromes,Menkes' Diseases,Steely Hair Diseases,Steely Hair Syndromes,Syndrome, Menkea,Syndrome, Steely Hair,Syndromes, Menkea,Syndromes, Steely Hair,Transport Disease, Copper,Transport Diseases, Copper,X Linked Copper Deficiency,X-Linked Copper Deficiencies
D008297 Male Males
D011506 Proteins Linear POLYPEPTIDES that are synthesized on RIBOSOMES and may be further modified, crosslinked, cleaved, or assembled into complex proteins with several subunits. The specific sequence of AMINO ACIDS determines the shape the polypeptide will take, during PROTEIN FOLDING, and the function of the protein. Gene Products, Protein,Gene Proteins,Protein,Protein Gene Products,Proteins, Gene
D001928 Brain Diseases, Metabolic Acquired or inborn metabolic diseases that produce brain dysfunction or damage. These include primary (i.e., disorders intrinsic to the brain) and secondary (i.e., extracranial) metabolic conditions that adversely affect cerebral function. Central Nervous System Metabolic Disorders,Encephalopathies, Metabolic,Metabolic Disorders, Brain,Acquired Metabolic Diseases, Brain,Acquired Metabolic Diseases, Nervous System,Acquired Metabolic Encephalopathies,Brain Diseases, Metabolic, Acquired,Brain Disorders, Metabolic,Brain Disorders, Metabolic, Acquired,Brain Syndrome, Metabolic,Brain Syndrome, Metabolic, Acquired,CNS Metabolic Disorders,CNS Metabolic Disorders, Acquired,Encephalopathy, Metabolic, Acquired,Metabolic Brain Diseases,Metabolic Brain Diseases, Acquired,Metabolic Brain Syndrome,Metabolic Brain Syndrome, Acquired,Metabolic Brain Syndromes,Metabolic Brain Syndromes, Acquired,Metabolic Diseases, Acquired, Nervous System,Metabolic Disorder, Central Nervous System, Acquired,Metabolic Disorders, CNS,Metabolic Disorders, CNS, Acquired,Metabolic Disorders, Central Nervous System,Metabolic Encephalopathies,Nervous System Acquired Metabolic Diseases,Acquired Metabolic Encephalopathy,Brain Disease, Metabolic,Brain Disorder, Metabolic,Brain Metabolic Disorder,Brain Metabolic Disorders,CNS Metabolic Disorder,Encephalopathies, Acquired Metabolic,Encephalopathy, Acquired Metabolic,Encephalopathy, Metabolic,Metabolic Brain Disease,Metabolic Brain Disorder,Metabolic Brain Disorders,Metabolic Disorder, Brain,Metabolic Disorder, CNS,Metabolic Encephalopathies, Acquired,Metabolic Encephalopathy,Metabolic Encephalopathy, Acquired
D002104 Cadmium An element with atomic symbol Cd, atomic number 48, and atomic weight 112.41. It is a metal and ingestion will lead to CADMIUM POISONING.
D002478 Cells, Cultured Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others. Cultured Cells,Cell, Cultured,Cultured Cell
D003300 Copper A heavy metal trace element with the atomic symbol Cu, atomic number 29, and atomic weight 63.55. Copper-63,Copper 63

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