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Dynamic Thiol-Disulfide Homeostasis in Children With β-Thalassemia Trait.

Burçak KurucuAli FettahEmre ÇapkınoğluGürses ŞahinFunda ErenOzcan ErelSüleyman YeşilGurses Sahin
Published in: Hemoglobin (2022)
In children with β-thalassemia (β-thal) trait, tissue damage occurs with oxidative stress due to oxygen free radicals and reactive oxygen species (ROS) production. Dynamic thiol-disulfide homeostasis (DTDH) is one of the most important indicators showing the pro-oxidant/antioxidant status in the body. In this study, we aimed to examine the status of DTDH by measuring native thiol, disulfide, and total thiol levels in children with β-thal trait. The study included 40 children with β-thal trait and 30 healthy controls (matched by age and gender). The DTDH parameters were measured by an automated method and results were compared between the groups. The levels of native thiol, total thiol, and disulfide in children with β-thal trait group were statistically significantly higher than the control group ( p  < 0.001). There was no significant difference in disulfide/native thiol, disulfide/total thiol, and native thiol/total thiol levels between the groups. In addition, there was no correlation between hemoglobin (Hb) and serum ferritin levels with the markers of DTDH in children with β-thal trait. In our study, a significant increase was found in native thiol, total thiol, and disulfide levels in response to oxidative stress in children with β-thal trait compared to the healthy control group. Disulfide levels of the children with β-thal trait were higher than the control group, showing oxidative stress is high in β-thal trait. Accordingly, it increases the native thiol and total thiol capacity as compensation.
Keyphrases
  • oxidative stress
  • young adults
  • genome wide
  • reactive oxygen species
  • dna damage
  • dna methylation
  • gene expression
  • signaling pathway
  • diabetic rats
  • sickle cell disease
  • endoplasmic reticulum stress