The Syndrome of Neonatal Copper Deficiency

Ashkenazi, A; Levin, Stanley; Djaldetti, Meir; Fishel, Efraim; Benvenisti, D S

doi:10.1542/peds.52.4.525

Cited by 164 publications

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“…In this model, iron is finally secreted into milk by exocytosis of secretory vesicles at the apical membrane. The molecular entity that mediates iron oxidation after its transport by FPN remains unknown vulnerable to nutritional copper deficiency [127,128]. Moreover, toxic-milk (tx) mice pups die in the second week from severe copper deficiency due to low liver copper stores and low intakes from maternal copper-deficient milk [129].…”

Section: Copper Transport In the Mammary Glandmentioning

confidence: 99%

Nutrient Transport in the Mammary Gland: Calcium, Trace Minerals and Water Soluble Vitamins

Montalbetti

Dalghi

Albrecht

et al. 2014

J Mammary Gland Biol Neoplasia

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Milk nutrients are secreted by epithelial cells in the alveoli of the mammary gland by several complex and highly coordinated systems. Many of these nutrients are transported from the blood to the milk via transcellular pathways that involve the concerted activity of transport proteins on the apical and basolateral membranes of mammary epithelial cells. In this review, we focus on transport mechanisms that contribute to the secretion of calcium, trace minerals and water soluble vitamins into milk with particular focus on the role of transporters of the SLC series as well as calcium transport proteins (ion channels and pumps). Numerous members of the SLC family are involved in the regulation of essential nutrients in the milk, such as the divalent metal transporter-1 (SLC11A2), ferroportin-1 (SLC40A1) and the copper transporter CTR1 (SLC31A1). A deeper understanding of the physiology and pathophysiology of these transporters will be of great value for drug discovery and treatment of breast diseases.

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Section: Copper Transport In the Mammary Glandmentioning

confidence: 99%

Nutrient Transport in the Mammary Gland: Calcium, Trace Minerals and Water Soluble Vitamins

Montalbetti

Dalghi

Albrecht

et al. 2014

J Mammary Gland Biol Neoplasia

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“…Hypocupremia is encountered in Menkes's disease and in the early stages of Wilson's disease, two rare inherited disorders affecting copper metabolism. Copper deficiency due to particularly high needs [prematurity (7,8) and recovery from severe PEM (9)(10)(11)(12)] or to very low intakes [non-copper-supplemented longterm total parenteral nutrition (13,14) and exclusive feeding with milk or milk-based formulas poor in copper (9,10,(14)(15)(16)(17)] has been documented. Finally, a few cases of hypocupremia have been reported in subjects with malabsorption due to long-lasting enteropathies (18)(19)(20).…”

Section: Discussionmentioning

confidence: 99%

“…The peripheral blood neutrophil count was the most sensitive parameter of copper depletion (15,(25)(26)(27). The initial absence of neutropenia in patient 1 could have been due to infection .…”

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confidence: 95%

Copper Deficiency in Infants with Active Celiac Disease

Goyens,

Brasseur,

Cadranel

1985

J. pediatr. gastroenterol. nutr.

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SummaryCeliac disease was diagnosed in two unrelated infants aged 7 and 7.5 months with severe malnutrition. They showed typical clinical, biological, and histological signs of the disease. Moreover, accompanying copper deficiency was suggested by severe hypocupremia and persistent neutropenia; bone radiographs were also compatible with this diagnosis. Rapid and complete correction of these anomalies could only be obtained after addition of oral copper sulfate to the gluten free diet. Mechanisms possibly involved in the development of copper deficiency in young infants with celiac disease are: (a) chronic malabsorption; (b) high copper needs in rapidly growing infants; and (c) possibly increased biliary and digestive losses. It is therefore suggested that young children with severe celiac disease should be monitored for their copper status.

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“…The recommended daily dietary requirement of copper for a healthy adult is 0.9 mg. Copper is absorbed mainly through the small intestine, enters the liver through the portal vein and is partially excreted through the bile and mostly transported to different tissues and organs by binding to albumin and ceruloplasmin in the blood ( 3 ). In the 1950s, researchers found that copper deficiency causes hypocopperemia, hypoceruloplasminemia and neutropenia in infants ( 4 , 6 , 46 – 48 ) ( Figure 1 ). Following this, it was found that copper deficiency leads to impaired superoxide anion production by neutrophils, which kills bacteria ( 5 ).…”

Section: Relationship Between Copper and Immunitymentioning

confidence: 99%

Relationship between copper and immunity: The potential role of copper in tumor immunity

Fang

Geng

et al. 2022

Front. Oncol.

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Copper is an essential trace element in an organism, and changes in copper levels in vivo often indicate a diseased state. Copper and immunity have been discussed since the last century, with copper deficiency significantly affecting the development and function of the immune system, such as increased host susceptibility to various pathogens, decreased number and impaired function of neutrophils, reduced antibacterial activity of macrophages, decreased proliferation of splenocytes, impaired B cell ability to produce antibodies and impaired function of cytotoxic T lymphocyte and helper T cells. In the past 20 years, some studies have shown that copper ions are related to the development of many tumors, including lung cancer, acute lymphoid leukaemia, multiple myeloma and other tumors, wherein copper ion levels were significantly elevated, and current studies reveal that copper ions are involved in the development, growth and metastasis of tumors through various pathways. Moreover, recent studies have shown that copper ions can regulate the expression of PD-L1, thus, attention should be paid to the important role of copper in tumor immunity. By exploring and studying copper ions and tumor immunity, new insights into tumor immunity could be generated and novel therapeutic approaches to improve the clinical prognosis of patients can be provided.

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The Syndrome of Neonatal Copper Deficiency

Cited by 164 publications

References 0 publications

Nutrient Transport in the Mammary Gland: Calcium, Trace Minerals and Water Soluble Vitamins

Nutrient Transport in the Mammary Gland: Calcium, Trace Minerals and Water Soluble Vitamins

Copper Deficiency in Infants with Active Celiac Disease

Relationship between copper and immunity: The potential role of copper in tumor immunity

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