Pregledni rad
https://doi.org/10.15255/KUI.2017.023
Inorganic Sulphur Compounds in the Human Body. II. Thiocyanates.
Sanja Stanković
; Veleučilište u Bjelovaru, Trg Eugena Kvaternika 4, 43 000 Bjelovar, Hrvatska
Rudolf Kiralj
; Veleučilište u Bjelovaru, Trg Eugena Kvaternika 4, 43 000 Bjelovar, Hrvatska
Sažetak
Sulphur is the most abundant microelement in the human body, in the form not only of many organic but also of many inorganic compounds with diverse roles. This review presents inorganic sulphur compounds from the class of endogenous thiocyanate compounds present in the human body. The class is primarily produced from the thiocyanate anion SCN– in enzymatic and non-enzymatic reactions in cells or in extracellular matrix. SCN– is formed by detoxication of endogenous or exogenous cyanides, by action of the endogenous bacterial flora, in the metabolism of cyanogenic food, and during industrial intoxication. Molecular and ionic compounds are: thiocyanic, isothiocyanic, hypothiocyanic, (cyanido-C)sulphinic and (cyanido-C)sulphonic acid; salts of these acids and the anion 1,2,3-tricyanotrisulfide(1–) with the most abundant cations in the organism (Na+, K+, Ca2+ and Mg2+); cyano thiocyanate and bis[(cyanido-C)sulphur](S-S) (thiocyanogen). The anions and molecules are endogenous reactive sulphur species with pseudohalogen properties. They exist in significant concentrations in body fluids, in which they have protective roles – detoxication (removal of cyanide) and antimicrobial functions (microbicidal and microbiostatic effect on various bacteria, some viruses, fungi and parasites). They are metabolically coupled with endogenous oxo-sulphur compounds in the human body. It is to be expected that investigations on the described class of sulphur compounds in the near future will explain molecular mechanisms of their action in the human body.
This work is licensed under a Creative Commons Attribution 4.0 International License.
Ključne riječi
thiocyanates; hypothiocyanates; cyano thiocyanate; thiocyanogen; trithiocyanates; intermediates of hypothiocyanate decomposition
Hrčak ID:
200378
URI
Datum izdavanja:
5.6.2018.
Posjeta: 2.387 *