| Candidate ID: | R1096 |
| Source ID: | DB06778 |
| Source Type: | approved |
| Compound Type: |
small molecule
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| Compound Name: |
Cupric sulfate
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| Synonyms: |
Copper monosulfate; Copper monosulphate; Copper sulfate; Copper sulfate (1:1); Copper sulphate; Copper(2+) sulfate; Copper(II) sulphate; Cupric sulfate anhydrous; Cupric sulfate, anhydrous; Cupric sulphate anhydrous; Cupric sulphate, anhydrous
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| Molecular Formula: |
CuO4S
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| SMILES: |
[Cu++].[O-]S([O-])(=O)=O
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| Structure: |
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| DrugBank Description: |
Cupric sulfate is a salt created by treating cupric oxide with sulfuric acid. This forms as large, bright blue crystals containing five molecules of water (CuSO4∙5H2O) and is also known as _blue vitriol_. The anhydrous salt is created by heating the hydrate to 150 °C (300 °F). Cupric sulfate is used primarily for agricultural purposes, as a pesticide, germicide, feed additive, and soil additive. Some of its secondary uses are as a raw material in the preparation of other copper compounds, as a reagent in analytic chemistry, as an electrolyte for batteries and electroplating baths, and in medical practice as a locally applied fungicide, bactericide, and astringent .
Copper is an essential trace element and an important catalyst for heme synthesis and iron absorption. After zinc and iron, copper is the third most abundant trace element found in the human body. Copper is a noble metal and its properties include high thermal and electrical conductivity, low corrosion, alloying ability, and malleability. Copper is a component of intrauterine contraceptive devices (IUD) and the release of copper is necessary for their important contraceptive effects. The average daily intake of copper in the USA is approximately 1 mg Cu with the diet being a primary source .
Interestingly, the dysregulation of copper has been studied with a focus on neurodegenerative diseases, such as Wilson’s disease, Alzheimer’s disease, and Parkinson’s disease. Data from clinical observations of the neurotoxic effects of copper may provide the basis for future treatments affecting copper and its homeostasis .
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| CAS Number: |
7758-98-7
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| Molecular Weight: |
159.609
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| DrugBank Indication: |
Elemental use in copper deficiency
Copper and copper containing compounds are broadly used in medical practice. Metallic copper is used already for many years in dental fillings and in copper intrauterine devices (IUD) for reversible contraception. Ointments containing copper, which release copper ions that are absorbed by the skin in the management of cramps, disturbances of renal function, peripheral, venous hypostatic circulatory disturbances, rheumatic disease and swelling associated with trauma. There are also cosmetic facial creams containing copper as their main active ingredient .
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| DrugBank Pharmacology: |
Copper is an essential mineral that plays a key role in many physiological processes, including angiogenesis, skin generation and expression and stabilization of skin proteins. Copper is found naturally in many food sources including meats, vegetables, and grains. Copper has potent biocidal properties and is used to eliminate bacteria, viruses and parasites , .
Copper is one of the nine essential minerals for humans, as it plays an imperative role in various physiological pathways in basically all human tissue, as well as in the health of the dermis and epidermis .
In addition to the above, copper is essential in wound healing, as it promotes angiogenesis and skin extracellular matrix formation and stabilization .
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| DrugBank MoA: |
This drug is an essential trace element for the functioning of many metalloenzymes including ceruloplasmin, ferroxidase II, lysyl oxidase, monoamine oxidase, Zn-copper superoxide dismutase, tyrosinase, dopamine-β-hydroxylase, and cytochrome-c-oxidase.
It is involved in erythropoiesis & leukopoiesis, bone mineralization, elastin and collagen cross-linking, oxidative phosphorylation, catecholamine metabolism, melanin formation & antioxidant protection of cells .
Cupric sulfate may also have a role in iron turnover, ascorbic acid metabolism, phospholipid metabolism, myelin formation, glucose homeostasis, and cellular immune defense .
After the metal passes through the basolateral membrane it is transported to the liver, attached to serum albumin. The liver is the critical organ for the homeostasis of copper. The copper is then prepared for excretion through the bile or incorporation into various proteins. The transport of copper to the peripheral tissues is accomplished through the plasma attached to serum albumin, ceruloplasmin or low-molecular-weight complexes .
In the dermis, copper promotes dermal fibroblasts proliferation, upregulates collagen (types I, II, and V) and elastin fiber components (elastin, fibrillins) production by fibroblasts, through the induction of TGF-β, promotes heat shock protein-47, important for collagen fibril formation, serves as a cofactor of LOX enzyme required for extracellular matrix protein cross-linking, stabilizes the skin ECM once formed, as increased crosslinking of collagen and elastin matrices occurs in a copper dose dependant manner, serves as a cofactor of superoxide dismutase, an antioxidant enzyme in the skin, essential for protection against free radicals, inhibits cellular oxidative effects such as membrane damage and lipid peroxidation, acts as a cofactor of tyrosinase, a melanin biosynthesis essential enzyme responsible for skin and hair pigmentation .
In reference to its role as a biocide, copper is an essential nutrient for many organisms. It acts as a cofactor in respiration, and therefore copper is required for aerobic metabolism. Accumulation of copper ions or intracellular release of free copper ions from proteins lead to cell damage. Copper catalyzes reactions that result in the production of hydroxyl radicals through the Fenton and Haber-Weiss reactions. The highly reactive oxygen intermediates lead to lipid peroxidation and oxidation of proteins. Free copper ions oxidize sulfhydryl groups, such as cysteine, in proteins or the cellular redox buffer glutathione. In particular, copper ions inactivate proteins by damaging Fe-S clusters in cytoplasmic hydratases .
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| Targets: |
--
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| Inclusion Criteria: |
Therapeutic strategy associated
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