Details

Autor(en) / Beteiligte

• Sales, Marcos V.S.
• Barros, Ellen dos Santos Silva
• Azevedo, Rafael D.S.
• Cunha, Francisco A.S.
• Santos, Josué Carinhanha C.
• Leite, Ana C.R.

Titel

Does acute exposure to thimerosal, an organic mercury compound, affect the mitochondrial function of an infant model?

Ist Teil von

• Journal of trace elements in medicine and biology, 2024-05, Vol.83, p.127399-127399, Article 127399

Ort / Verlag

Germany: Elsevier GmbH

Erscheinungsjahr

2024

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Thimerosal (TM) is a toxic, organometallic mercury compound (which releases ethyl-mercury-containing compounds in aqueous solutions) used as a preservative in vaccines. Mitochondria are organelle which are highly vulnerable to many chemical compounds, including mercury (Hg) and its derivatives. Wistar rats (at 21 days of age) were used to model a child’s TM exposure following childhood vaccination, divided in two groups: TM exposed (20 μg/kg/day) and unexposed controls (saline solution), both for 24 h. Atomic Fluorescence Spectrometry was used to quantify the amounts of mercury in tissues. The electron transport chain (ETC) from isolated mitochondria was evaluated using an oxygen electrode. The mitochondrial membrane potential and H2O2 production were analyzed using selective fluorescence probes. The activity of some enzymes (SOD, CAT, GPx, and AChE) and secondary markers of oxidative stress (GSH, GSSG, total free thiol) were also examined in tissues. Hg accumulation in the brain and liver was higher in exposed animals when compared to the control. Liver-isolated mitochondria showed that TM improved respiratory control by 23%; however, states 3 and 4 of the ETC presented a decrease of 16% and 37%, respectively. Furthermore, brain-isolated mitochondria presented an improvement of 61% in respiratory control. Brain enzyme activities were significantly impacted in TM-exposed rats compared to unexposed rats as follows: decreases in SOD (32%) and AChE (42%) and increases in GPx (79%) and CAT (100%). GPx enzyme activity in the liver was significantly increased (37%). Among secondary oxidative stress markers, the brain’s total reduced thiol (SH) concentration was significantly increased (41%). Acute TM treatment exposure in a Wistar rat model mimicking TM exposure in an infant following childhood vaccination significantly damaged brain bioenergetic pathways. This study supports the ability of TM exposure to preferentially damage the nervous system. [Display omitted] •Thimerosal (TM) significantly affects mitochondrial bioenergetics in the brain.•Mitochondrial integrity (membrane potential) was maintained after acute TM treatment.•Ethylmercury released after the breakdown of TM compromised the cholinergic system.•The brain is more sensitive to oxidative stress induced by TM compared to the liver.