OXIDATIVE STRESS IN HUMAN THYROID GLAND UNDER IODINE DEFICIENCY NODULAR GOITER: FROM HARMLESSNESS TO HAZARD DEPENDING ON COPPER AND IODINE SUBCELLULAR DISTRIBUTION
Наукові журнали Тернопільського державного медичного університету імені І.Я.Горбачевського
Переглянути архів ІнформаціяПоле | Співвідношення | |
Title |
OXIDATIVE STRESS IN HUMAN THYROID GLAND UNDER IODINE DEFICIENCY NODULAR GOITER: FROM HARMLESSNESS TO HAZARD DEPENDING ON COPPER AND IODINE SUBCELLULAR DISTRIBUTION
|
|
Creator |
Falfushynska, H.; I.Ya. Horbachevski Ternopil State Medical University
Gnatyshyna, L.; I.Ya. Horbachevski Ternopil State Medical University Shulgai, A.; I.Ya. Horbachevski Ternopil State Medical University Shidlovski, V.; I.Ya. Horbachevski Ternopil State Medical University Stoliar, O.; Ternopil V. Hnatiuk National Pedagogical University |
|
Description |
Background. Thyroid disorders are the second most common endocrinopathies found in humans and animals. Determination of their key molecular markers presents a special interest.Objective. We studied iodine and copper accumulation in nodular, paranodular and contralateral (not affected tissue by node) tissues of human thyroid gland in relation to the level of metal-binding proteins, potential antioxidants, and oxidative changes in tissue for this goal. Lower level of organificated iodine and higher level and mass fraction of inorganic iodine and copper in the nodular and paranodular tissue versus contralateral part of thyroid gland was established.Results. The level of both metal-binding and apo-form of metallothioneins was higher. Content of reduced glutathione was lower in node-affected tissue compared to the contralateral part. Signs of oxidative stress (higher activity of superoxide dismutase, catalase, glutathione-transferase and level of oxyradicals) and cytotoxicity (higher cathepsin D activity, higher level of DNA strand breaks and glycolysis activation) in affected tissue were observed. The range of indice variability in paranodular tissue was smaller than in nodule compared to the parenchyma of contralateral part.Conclusions. Excess of copper unbound to metallothionein in goitrous-changed tissue and high level of inorganic iodine could be the reason for elevated DNA fragmentation and increased lysosomal membrane permeability and activation of antioxidant defense. The main criterions of goiter formation were represented by low level of organificated iodine and high level of DNA damage in thyroid gland.KEY WORDS: iodine deficiency nodular colloidal goiter, iodine, copper, metallothioneins, oxidative stress, cytotoxicity
|
|
Publisher |
Ternopil State Medical University
|
|
Contributor |
—
|
|
Date |
2014-12-25
|
|
Type |
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion — |
|
Format |
application/pdf
|
|
Identifier |
http://ojs.tdmu.edu.ua/index.php/ijmr/article/view/2822
10.11603/ijmmr.2413-6077.2015.1.2822 |
|
Source |
International Journal of Medicine and Medical Research; Том 1, № 1 (2015): Issue No 1
International Jornal of Medicine and Medical Research; Том 1, № 1 (2015): Issue No 1 International Journal of Medicine and Medical Research; Том 1, № 1 (2015): Issue No 1 2413-6077 10.11603/ijmmr.2413-6077.2015.1 |
|
Language |
eng
|
|
Relation |
http://ojs.tdmu.edu.ua/index.php/ijmr/article/view/2822/3185
http://ojs.tdmu.edu.ua/index.php/ijmr/article/downloadSuppFile/2822/34 http://ojs.tdmu.edu.ua/index.php/ijmr/article/downloadSuppFile/2822/35 http://ojs.tdmu.edu.ua/index.php/ijmr/article/downloadSuppFile/2822/36 |
|
Rights |
##submission.copyrightStatement##
|
|