Errata: Effect of Thimerosal on Arrhythmia Induced by Coronary Ligation: The Involvement of ATP-dependent Potassium Channels.

Several errors (shown with underlines) in the following list appeared in the article "Effect of Thimerosal on Arrhythmia Induced by Coronary Ligation: The Involvement of ATP-dependent Potassium Channels" by Ömer Bozdogan, Ersöz Gonca, Melih Nebigil, Eylem Suveren Tiryaki (Vol. 46 No.4, 711-721, 2005).

Exposure of human glioblastoma cells to thimerosal inhibits the thioredoxin system and decreases tumor growth-related factors.

Glioblastoma multiforme (GBM) is the most common, aggressive, and fatal primary malignant brain tumor in adults. The therapeutic efficacy of temozolomide (TMZ) is limited owing to frequent treatment resistance. The latter is in part related to the overexpression of redox systems such as the thioredoxin system. This system is fundamental for cell survival and proliferation, regulating hypoxia inducible factor-1alpha (HIF-1α) activity, in turn controlling vascular endothelial growth factor (VEGF), which is indispensable for tumor invasiveness, angiogenesis and microenvironment maintenance. HIF-1α can also be regulated by the signal transducer and activator of transcription 3 (STAT3), an oncogene stimulated by pro-inflammatory cytokines and growth factors. The thioredoxin system has several known inhibitors including mercury compounds such as Thimerosal (TmHg) which readily crosses the blood-brain barrier (BBB) and accumulates in the brain. Though previously used in various applications epidemiological evidence on TmHg's neurotoxicity is lacking. The objective of this study was to verify whether thimerosal is a suitable candidate for hard repurposing to control glioblastoma; therefore, the effects of this molecule were evaluated in human GBM (U87) cells. Our novel results show that TmHg decreased cellular viability (>50%) and migration (up to 90% decrease in wound closure), reduced thioredoxin reductase (TrxR/TXNRD1) and thioredoxin (Trx) activity, and increased reactive oxygen species (ROS) generation. Moreover, TmHg reduced HIF-1α expression (35%) as observed by immunofluorescence. Co-exposure of U87 cells to TmHg and TMZ reduced HIF-1α, VEGF, and phosphorylated STAT3. Consequently, TmHg alone or combined with chemotherapeutic drugs can reduce neoangiogenesis and ameliorate glioblastoma progression and treatment.

The emerging role of α7nAChRs/caspase-3/Nrf-2 signaling pathway in citicoline improved autistic behavior induced by thimerosal in mice.

AIMS: Autism spectrum disorder (ASD) is a global concern,affecting around 75 million individuals.Various factors contribute to ASD,including mercury-containing preservatives like thimerosal (Thim) found in some vaccines.This study explored whether citicoline could be a therapeutic option for Thim-induced neuronal damage in a mouse model of ASD.Additionally,the study investigated the effects of citicoline on the α7nAChRs/Akt/Nrf2/caspase-3 pathway,which may be involved in the development of ASD. MATERIALS AND METHODS: The study separated newborn mice into four groups.The control group received saline injections,while the Thim group received intramuscular injections of 3000 µg Hg/kg Thim on days 7,9,11,and 15 after birth.The two citicoline groups were administered Thim followed by intraperitoneal injections of 250 mg/kg or 500 mg/kg citicoline for three weeks.Afterward,various parameters were assessed, including growth,behavior,brain histopathology,oxidative stress,apoptotic,and inflammatory markers. KEY FINDINGS: Untreated Thim-exposed mice exhibited significant brain damage,which was substantially alleviated by citicoline treatment.This beneficial effect was associated with increased expressions and concentrations of brain α7nAChRs and Akt, increased brain content of Nrf2, and the hippocampus contents of acetylcholine. Citicoline treatment decreased the brain levels of oxidative stress markers (MDA and NO),the apoptotic marker caspase-3,and pro-inflammatory markers (NF-κB,TNF-α,and IL-1ß). The drug also increased the brain GPx activity. SIGNIFICANCE: Based on the results of this study,the α7nAChRs pathway appears to be essential for the therapeutic effectiveness of citicoline in treating Thim-induced ASD in mice.

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

BACKGROUND: 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. METHOD: 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. RESULTS: 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%). CONCLUSION: 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.

Assessment of thimerosal effects in sublethal concentrations on zebrafish (Danio rerio) embryos exploring NMR-based metabolomics profile.

Thimerosal, a preservative commonly used in the pharmaceutical and cosmetic industry, has raised concerns regarding its potentially toxic effects as an organic mercury compound. Within this context, using an NMR-based metabolomics profile and chemometric analysis, zebrafish embryos were used as an in vivo model to study the effects of thimerosal in metabolic profiles after exposure to sublethal concentrations of the mercury compound. The thimerosal concentrations of 40 and 80 nM were employed, corresponding to 40% and 80% of the LC50, respectively, for zebrafish embryos. The most significant alterations in the metabolic profile included changes in carbohydrates, amino acids, nucleotides, trimethylamine-N-oxide, ethanolamine, betaine, and ethanol. Furthermore, thimerosal exposure affects various metabolic pathways, impairing the nervous system, disrupting protein metabolism, and potentially causing oxidative damage. Therefore, adopting a metabolomics approach in this investigation provided insights into the potentially implicated metabolic pathways contributing to the deleterious effects of thimerosal in biological systems.

Quantitative Investigation on Exposure to Potentially Harmful Excipients by Injection Drug Administration in Children Under 2 Years of Age and Analysis of Association with Adverse Events: A Single-Center, Retrospective Observational Study.

INTRODUCTION: Potentially harmful excipients (PHEs) for children have been reported and the need for information collection has been advocated. However, studies on the actual occurrence of adverse events are limited. This study investigated the quantitative exposure of PHEs via injection and their association with adverse events in children under 2 years of age. MATERIALS AND METHODS: As a single-center observational study, children aged 0-23 months received injectable drugs from April 1, 2018, to March 31, 2023 were included. Information on PHE exposure and adverse events after administration were extracted from medical records. Sodium benzoate, benzyl alcohol, ethanol, glycerol, lactose, polyethylene glycol paraben, polysorbate, propylene glycol, sorbitol, sucrose, sulfite, and thimerosal were selected as PHEs. RESULTS AND DISCUSSION: 6265 cases, 333,694 prescriptions, and 368 drugs (264 ingredients) were analyzed. The median age was 0.63 years (interquartile range [IQR] 0.1-1.1). 72,133 prescriptions, 132 drugs and 99 ingredients contained PHE; 2,961 cases exposed to PHE and 1825 cases exceeding permitted daily exposure. The drug with the highest number of exposure cases was hydroxyzine, and the highest number of prescriptions was heparin (both drugs contain benzyl alcohol). In association between adverse events and PHE exposure, higher doses in cases of adverse event occurrence were found in benzyl alcohol, glycerol, polyethylene glycol, and polysorbate exposed cases. Among thimerosal-exposed cases, "developmental delay" was more frequent in exposed cases, but the causal relationship was unknown. Further investigation is needed to clarify the relationship between adverse events and PHE exposure. Additionally, more precise information on PDE for pediatrics including neonates is necessary.

The association of cysteine to thiomersal attenuates its apoptosis-mediated cytotoxicity in zebrafish.

Thiomersal (TM) is an excellent preservative that is used in a wide variety of products, like pharmaceuticals, cosmetics, and vaccines, etc. Its usage has been in decline because of safety concerns. Since vaccine production is on the rise, its use may increase further in low-income and developing countries, as a cost-effective vaccine preservative. Further, Thiomersal is still being used as an essential component in various pharmaceutical preparations. In this light, the present study addresses its mechanism of toxicity in zebrafish and unveils a novel strategy for lessening its negative effects by conjugating cysteine to it, while retaining its antibacterial efficacy. We show that the mitochondrial membrane potential is destabilised by TM, leading to the induction of apoptosis. Interestingly, TM-cysteine conjugate (at a ratio of 1:1) showed no toxicity in zebrafish, whereas TM alone was highly toxic. Importantly, assaying for the bactericidal activity, tested using Escherichia coli (E. coli) and Methicillin-resistant Staphylococcus aureus (MRSA), revealed that the conjugate retains the antibacterial activity, demonstrating that the TM-cysteine conjugate is a safer alternative to TM as a vaccine preservative, and in all the other products that still use TM.

Sperm induce a secondary increase in ATP levels in mouse eggs that is independent of Ca2+ oscillations.

Egg activation at fertilization in mouse eggs is caused by a series of cytosolic Ca2+ oscillations that are associated with an increase in ATP concentrations driven by increased mitochondrial activity. We have investigated the role of Ca2+ oscillations in these changes in ATP at fertilization by measuring the dynamics of ATP and Ca2+ in mouse eggs. An initial ATP increase started with the first Ca2+ transient at fertilization and then a secondary increase in ATP occurred ∼1 h later and this preceded a small and temporary increase in the frequency of Ca2+ oscillations. Other stimuli that caused Ca2+ oscillations such as PLCz1 or thimerosal, caused smaller or slower changes in ATP that failed to show the distinct secondary rise. Sperm-induced Ca2+ oscillations in the egg also triggered changes in the fluorescence of NADH which followed the pattern of Ca2+ spikes in a similar pattern to oscillations triggered by PLCz1 or thimerosal. When eggs were loaded with low concentrations of the Ca2+ chelator BAPTA, sperm triggered one small Ca2+ increase, but there were still extra phases of ATP increase that were similar to control fertilized eggs. Singular Ca2+ increases caused by thapsigargin were much less effective in elevating ATP levels. Together these data suggest that the secondary ATP increase at fertilization in mouse eggs is not caused by increases in cytosolic Ca2+. The fertilizing sperm may stimulate ATP production in eggs via both Ca2+ and by another mechanism that is independent of PLCz1 or Ca2+ oscillations.

Comparative characteristics between calyculin A-induced and thimerosal-induced hyperactivation of cryopreserved bovine spermatozoa.

This study aimed to characterize calyculin A (CL-A)-induced and thimerosal-induced hyperactivation of cryopreserved bovine spermatozoa. Hyperactivation was effectively induced by treating with 10 nM CL-A for 60 min in the presence of cyclic AMP analogs, extracellular Ca2+, and albumin or with 12.5 µM thimerosal briefly in the absence of these capacitation-supporting factors. Majority of the spermatozoa exhibiting CL-A-induced hyperactivation were characterized by the 3-dimensional helical movement with head rotation, higher degree of flagellar curvature, and faster beating of the flagella than those exhibiting thimerosal-induced hyperactivation of the 2-dimensional planar movement without head rotation. The CL-A-induced hyperactivation was linked to the activation of cAMP/protein phosphorylation-dependent signaling cascades and to the decreased activity of glycogen synthase kinase-3α (GSK-3α). In contrast, the thimerosal-induced hyperactivation was suppressed by pretreatment with CL-A and cyclic AMP analogs in the absence of CaCl2 to activate cAMP/protein phosphorylation-dependent signaling cascades. Additionally, the intracellular Ca2+ level in live sperm flagella was significantly higher in the CL-A-treated samples than in the thimerosal-treated samples. These results indicate that CL-A-induced hyperactivation of cryopreserved bovine spermatozoa is an extracellular Ca2+-dependent type with the 3-dimensional helical movement, which can be regulated not only by the activation of cAMP/protein phosphorylation-dependent signaling cascades, leading to a large enhancement of the intracellular Ca2+ level, but also by the reduction in GSK-3α activity. Considering the different characteristics of thimerosal-induced hyperactivation, our results suggest that the diversity of sperm hyperactivation arises from different combinations of flagellar bending and head rotation.

Analysis of patch testing results in patients with contact dermatitis in Istanbul, Turkey, from 2012 to 2022.

BACKGROUND: Allergens responsible for allergic contact dermatitis (ACD) differ between populations. They can even change over the years with the effect of environmental factors. AIMS: To evaluate the results of patch testing performed in our center. METHODS: In this study, the thin-layer rapid-use epicutaneous (T.R.U.E.) test results of patients with a diagnosis of ACD between 2012 and 2022 were retrospectively evaluated. RESULTS: In 431 (42.5%) of the total 1012 patients, a positive reaction to at least one allergen was detected in the patch test. Allergen positivity was most detected for nickel sulphate (16.8%), gold sodium thiosulfate (GST) (6.9%), thimerosal (4.2%), fragrance mix (3.4%), carba mix (3.2%), and cobalt dichloride (2.9%). Nickel sulfate and GST sensitivity was found to be significantly higher in women, fragrance mix sensitivity in men, thimerosal sensitivity in individuals aged under 40 years, colophony and balsam of Peru sensitivity in head and neck dermatitis, and carba mix and thiuram mix sensitivity in atopic individuals. CONCLUSIONS: This study presents comprehensive data from Turkey concerning the sensitivity frequencies for allergens included in the T.R.U.E. test.

Droplet microfluidic chip-ICP-MS-based single-cell analysis for study of cellular behavior of macrophages to thimerosal.

Thimerosal (THI) is widely used as an antimicrobial preservative, but can hydrolyze to ethylmercury, causing potentially neurotoxicity. In this work, a THP-1 cell line was used to investigate the biological behavior of THI. An on-line droplet microfluidic chip system combined with time-resolved inductively coupled plasma mass spectrometry was used to quantify Hg in single THP-1 cells. The cellular uptake and elimination behaviors of THI were studied, and the toxicity of THI in terms of redox balance was discussed. The results showed that a small number of cells (<5%) exhibited a high uptake content (>200 fg/cell) for THI, and most of the cells (68.8-85.8% for different exposure groups at 25 h) exhibited a relatively low uptake content (<20 fg/cell). After stopping exposure to THI, the cells showed an elimination process for Hg, which was rapid in the first several hours and gradually slowed down. When the elimination time was 25 h, 7.4-26.3% of the cells in different exposure groups still contained a detectable amount of Hg (>2 fg/cell), indicating Hg could not be eliminated completely, which may cause cumulative toxicity to macrophages. Moreover, it was found that exposure to THI even at 50 ng/mL can cause cellular oxidative stress behavior, leading to an increase in reactive oxygen species level and a decrease in glutathione level. This trend would continue for a period of time after stopping THI exposure. With the elimination of Hg, the redox balance of cells showed a tendency to stabilize and restore, but cannot be restored to normal status, indicating a long-term chronic toxicity of THI to THP-1 cells.

Thimerosal, a competitive thioredoxin reductase 1 (TrxR1) inhibitor discovered via high-throughput screening.

Thioredoxin reductase 1 (TrxR1) is considered as an important anti-cancer drug target, inhibition of which can induce reactive oxygen species (ROS)-mediated apoptosis of human cancer cells. Here, we developed and optimized a high-throughput screening (HTS) assay based on enzyme kinetics for the discovery of TrxR1 inhibitors. By utilizing this assay, we performed a HTS for 2500 compounds from an in-house library against TrxR1. We found that a vaccine preservative, thimerosal, strongly inhibited TrxR1 in a competitive and reversible manner with an IC50 of 24.08 ± 0.86 nM. In addition, we determined that thiomersal has an inhibitory effect on the proliferation of A549 lung cancer cell line, with a GI50 of 6.81 ± 0.09 µM, slightly more potent than auranofin (GI50 = 11.85 ± 0.56 µM). Furthermore, we showed by flow cytometer that thimerosal effectively increased the content of ROS in A549 cells. Therefore, our work provided a high-throughput screening assay to quickly and effectively discover TrxR1 inhibitors, identifying thiomersal as a novel TrxR1 inhibitor and chemical probe.

In vitro assessment of Thimerosal cytotoxicity and antimicrobial activity.

BACKGROUND: Thimerosal (Merthiolate) is a well-known preservative used in pharmaceutical products, the safety of which was a matter of controversy for decades. Thimerosal is a mercury compound, and there is a debate as to whether Thimerosal exposure from vaccination can contribute to the incidence of mercury-driven disorders. To date, there is no consensus on Thimerosal safety in Vaccines. In 1977, a maximum safe dose of 200 µg/ml (0.5 mM) was recommended for Thimerosal by the WHO experts committee on biological standardization. Up-to-date guidelines, however, urge national control authorities to establish their own standards for the concentration of vaccine preservatives. We believe such safety limits must be studied at the cellular level first. The present study seeks a safe yet efficient dose of Thimerosal exposure for human and animal cells and control microorganism strains. METHODS: The safety of Thimerosal exposure on cells was analyzed through an MTT cell toxicity assay. The viability of four cell types, including HepG2, C2C12, Vero Cells, and Peripheral blood mononuclear cells (PBMCs), was examined in the presence of different Thimerosal concentrations and the maximum tolerable dose (MTD) and the half maximal inhibitory concentration (IC50) values for each cell line were determined. The antimicrobial effectiveness of Thimerosal was evaluated on four control strains, including Pseudomonas aeruginosa, Staphylococcus aureus, Candida albicans, and Aspergillus brasiliensis, to obtain the minimum inhibitory concentration (MIC) of Thimerosal. The MIC test was performed in culture media and under optimal growth conditions of microorganisms in the presence of different Thimerosal concentrations. RESULTS: The viability of all examined cell lines was suppressed entirely in the presence of 4.6 µg/ml (12.5 µM) of Thimerosal. The MTD for HepG2, C2C12, PBMC, and Vero cells was 2, 1.6, 1, and 0.29 µg/ml (5.5, 4.3, 2.7 and 0.8 µM), respectively. The IC50 of Thimerosal exposure for HepG2, C2C12, PBMC, and Vero cells was 2.62, 3.17, 1.27, and 0.86 µg/ml (7.1, 8.5, 3.5 and 2.4 µM), respectively. As for antimicrobial effectiveness, the growth capability of Candida albicans and Staphylococcus aureus was suppressed entirely in the presence of 6.25 µg/ml (17 µM) Thimerosal. The complete growth inhibition of Pseudomonas aeruginosa in culture media was achieved in 100 µg/ml (250 µM) Thimerosal concentration. This value was 12.5 µg/ml (30 µM) for Aspergillus brasiliensis. CONCLUSION: According to our results Thimerosal should be present in culture media at 100 µg/ml (250 µM) concentration to achieve an effective antimicrobial activity. We showed that this amount of Thimerosal is toxic for human and animal cells in vitro since the viability of all examined cell lines was suppressed in the presence of less than 5 µg/ml (12.5 µM) of Thimerosal. Overall, our study revealed Thimerosal was 333-fold more cytotoxic to human and animal cells as compared to bacterial and fungal cells. Our results promote more study on Thimerosal toxicity and its antimicrobial effectiveness to obtain more safe concentrations in biopharmaceuticals.

Evidence on Neurotoxicity after Intrauterine and Childhood Exposure to Organomercurials.

Although the molecular mechanisms underlying methylmercury toxicity are not entirely understood, the observed neurotoxicity in early-life is attributed to the covalent binding of methylmercury to sulfhydryl (thiol) groups of proteins and other molecules being able to affect protein post-translational modifications from numerous molecular pathways, such as glutamate signaling, heat-shock chaperones and the antioxidant glutaredoxin/glutathione system. However, for other organomercurials such as ethylmercury or thimerosal, there is not much information available. Therefore, this review critically discusses current knowledge about organomercurials neurotoxicity-both methylmercury and ethylmercury-following intrauterine and childhood exposure, as well as the prospects and future needs for research in this area. Contrasting with the amount of epidemiological evidence available for methylmercury, there are only a few in vivo studies reporting neurotoxic outcomes and mechanisms of toxicity for ethylmercury or thimerosal. There is also a lack of studies on mechanistic approaches to better investigate the pathways involved in the potential neurotoxicity caused by both organomercurials. More impactful follow-up studies, especially following intrauterine and childhood exposure to ethylmercury, are necessary. Childhood vaccination is critically important for controlling infectious diseases; however, the safety of mercury-containing thimerosal and, notably, its effectiveness as preservative in vaccines are still under debate regarding its potential dose-response effects to the central nervous system.

Chronic actinic dermatitis: A 5-year clinical analysis of 488 patients in China.

BACKGROUND/PURPOSE: Chronic actinic dermatitis (CAD) is a spectrum of diseases with chronic photosensitivity occurring mostly among middle-aged and older men. We seek to explore the characteristics and pathogenesis of CAD among the Chinese population. METHODS: The medical records of 488 CAD cases diagnosed by phototesting at Huashan Hospital, Fudan University from January 2014 to December 2018 were analyzed retrospectively. RESULTS: Among the 488 patients, 344 were male and 144 were female. 84.8% of the cases were over 40 years old at the age of onset, while the remaining with an early age of onset had a prevalence of atopic history of 21.6%. Up to 45.0% of the patients reported excessive sun exposure and outdoor activities before the initiation of symptoms. The typical skin lesions were erythema, papules and plaques laid predominantly in sun-exposed areas. 42.8% of the cases showed sensitivity to UVB only, 20.7% were both sensitive to UVA and UVB, and 18.2% had UVA sensitivity only. The most predominant photoallergens were chlorpromazine (80.1%), thimerosal (17.2%), potassium dichromate (12.7%), etc. The most prevalent patch test allergens were potassium dichromate (24.4%), thimerosal (20.5%), formaldehyde (16.8%), etc. CONCLUSIONS: CAD was more commonly seen in males over 40 years old. The action spectrum of Chinese patients is primarily in the UVB range. Exposure to excessive sunlight or contact allergens and photoallergens are important risk factors. Photobiology tests are essential in detecting photosensitivity and recognizing potential photosensitizers. Early avoidance of confirmed photoallergens and sun exposure may prevent photosensitive reactions from progressing into persistent photosensitivity.

Toxicological effects of thimerosal on rat kidney: a histological and biochemical study / Efeitos toxicológicos do timerosal no rim de rato: um estudo histológico e bioquímico

Thimerosal is an organomercurial compound, which is used in the preparation of intramuscular immunoglobulin, antivenoms, tattoo inks, skin test antigens, nasal products, ophthalmic drops, and vaccines as a preservative. In most of animal species and humans, the kidney is one of the main sites for mercurial compounds deposition and target organs for toxicity. So, the current research was intended to assess the thimerosal induced nephrotoxicity in male rats. Twenty-four adult male albino rats were categorized into four groups. The first group was a control group. Rats of Group-II, Group-III, and Group-IV were administered with 0.5µg/kg, 10µg/kg, and 50µg/kg of thimerosal once a day, respectively. Thimerosal administration significantly decreased the activities of catalase (CAT), superoxide dismutase (SOD), peroxidase (POD), glutathione reductase (GR), glutathione (GSH), and protein content while increased the thiobarbituric acid reactive substances (TBARS) and hydrogen peroxide (H2O2) levels dose-dependently. Blood urea nitrogen (BUN), creatinine, urobilinogen, urinary proteins, kidney injury molecule-1 (KIM-1), and neutrophil gelatinase-associated lipocalin (NGAL) levels were substantially increased. In contrast, urinary albumin and creatinine clearance was reduced dose-dependently in thimerosal treated groups. The results demonstrated that thimerosal significantly increased the inflammation indicators including nuclear factor kappaB (NF-κB), tumor necrosis factor-α (TNF-α), Interleukin-1β (IL-1β), Interleukin-6 (IL-6) levels and cyclooxygenase-2 (COX-2) activities, DNA and histopathological damages dose-dependently. So, the present findings ascertained that thimerosal exerted nephrotoxicity in male albino rats.

O timerosal é um composto organomercurial, utilizado na preparação de imunoglobulina intramuscular, antivenenos, tintas de tatuagem, antígenos de teste cutâneo, produtos nasais, gotas oftálmicas e vacinas como conservante. Na maioria das espécies animais e nos humanos, o rim é um dos principais locais de deposição de compostos de mercúrio e órgãos-alvo de toxicidade. Assim, a presente pesquisa teve como objetivo avaliar a nefrotoxicidade induzida pelo timerosal em ratos machos. Vinte e quatro ratos albinos machos adultos foram categorizados em quatro grupos. O primeiro grupo era um grupo de controle. Ratos do Grupo II, Grupo III e Grupo IV receberam 0,5µg / kg, 10µg / kg e 50µg / kg de timerosal uma vez ao dia, respectivamente. A administração de timerosal diminuiu significativamente as atividades de catalase (CAT), superóxido dismutase (SOD), peroxidase (POD), glutationa redutase (GR), glutationa (GSH) e conteúdo de proteína, enquanto aumentou as substâncias reativas ao ácido tiobarbitúrico (TBARS) e peróxido de hidrogênio (H2O2) níveis dependentes da dose. Os níveis de nitrogênio ureico no sangue (BUN), creatinina, urobilinogênio, proteínas urinárias, molécula de lesão renal-1 (KIM-1) e lipocalina associada à gelatinase de neutrófilos (NGAL) aumentaram substancialmente. Em contraste, a albumina urinária e a depuração da creatinina foram reduzidas de forma dependente da dose nos grupos tratados com timerosal. Os resultados demonstraram que o timerosal aumentou significativamente os indicadores de inflamação, incluindo fator nuclear kappaB (NF-κB), fator de necrose tumoral-α (TNF-α), interleucina-1β (IL-1β), níveis de interleucina-6 (IL-6) e atividades da ciclooxigenase-2 (COX-2), DNA e danos histopatológicos dependentes da dose. Portanto, os presentes achados verificaram que o timerosal exerceu nefrotoxicidade em ratos albinos machos.

[Effects of Thiomersal on Apoptosis and Autophagy of Leukemia Cell Lines].

OBJECTIVE: To investigate the effects of different concentrations of thiomersal on apoptosis and autophagy regulation of human leukemia cell lines U937, CEM-C1 and BALL-1. METHODS: The inhibitory effect of thiomersal on the proliferation of U937, CEM-C1 and BALL-1 cells was detected by CCK-8 assay. Annexin V-FITC/PI double staining flow cytometry was used to detect the apoptosis rate. Western blot was used to detect the effects of thiomersal on autophagy signaling pathway and the expression of PI3K, Akt, mTOR, p-mTOR, caspase-3 and LC3-II proteins. RESULTS: Within 24 and 48 hours, thiomersal inhibited the proliferation of U937, CEM-C1 and BALL-1 cell lines in a time and dose-dependent manner (r24 h=0.295, r24 h=0.452, r24 h=0.103; r48 h=0.821, r48 h=0.665, r48 h=0.821), but no significant time and dose-dependent effect was observed at 72 hours. After 48 hours treatment of thiomersal, the apoptosis rate of U937, CEM-C1 and BALL-1 cells increased in a dose-dependent manner (r=0.819, r=0.763, r=0.835). After 48 hours treatment of thiomersal, the expression levels of PI3K, Akt, mTOR and p-mTOR protein in U937, CEM-C1 and BALL-1 cells decreased in a concentration-dependent manner, the R value of U937 cells was -0.975, -0.899, -0.925 and -0.915, respectively, that of CEM-C1 cells was -0.960, -0.920, -0.861 and -0.927, and that of BALL-1 cells was -0.939, -0.911, -0.896 and -0.926,. which suggested that thiomersal-induced apoptosis of U937, CEM-C1 and BALL-1 cells might be due to the inhibition of PI3K/Akt/mTOR pathway. Thiomersal promoted the apoptosis of U937, CEM-C1 and BALL-1 cells via caspase-3 pathway, and the expressions of caspase-3 and LC3-II were up-regulated in a dose-dependent manner (r=0.976, r=0.914; r=0.976, r=0.986; r=0.961, r=0.974). CONCLUSIONS: Thiomersal can inhibit the proliferation and promote the apoptosis of U937, CEM-C1 and BALL-1 cells. A certain concentration of thiomersal can down-regulate the expression of PI3K/Akt/mTOR pathway related proteins PI3K, Akt, mTOR and p-mTOR in U937, CEM-C1 and BALL-1 cells, and activate autophagy and apoptosis by down-regulation of PI3K/Akt/mTOR pathway.

Evaluation of the toxic effects of thimerosal and/or aluminum hydroxide in SH-SY5Y cell line.

In this study, we aimed to evaluate possible toxic effects of thimerosal, aluminum and combination of thimerosal and aluminum in SH-SY5Y cells. Inhibitory concentrations were determined by MTT assay; reactive oxygen species (ROS) were determined by a fluorometric kit and antioxidant/oxidant parameters were measured by spectrophotometric kits. Nuclear factor erythroid 2-associated factor 2 (Nrf2), norepinephrine (NE), dopamine transporter (DAT) and dopamine beta ß-hydroxylase (DBH) levels were measured by sandwich ELISA kits while 8-hydroxy deoxyguanosine (8-OHdG) and dopamine levels were determined by competitive ELISA kits. Thimerosal (1.15 µM) and aluminum (362 µM) were applied to cells at inhibitory concentrations 20 (IC20s) for 24 h. ROS increased significantly in cells aluminum- and aluminum+thimerosal-treated cells. Glutathione levels decreased in aluminum group while total antioxidant capacity and protein oxidation levels increased significantly in aluminum and aluminum+thimerosal groups. Lipid peroxidation increased significantly in groups treated with aluminum and aluminum+thimerosal. Nrf2 levels and DNA damage were significantly higher in all groups while dopamine levels significantly increased in cells treated with thimerosal and aluminum+thimerosal, DAT levels were found to be higher in all experimental groups compared to the control. These findings showed that both thimerosal and aluminum can change oxidant/antioxidant status, cause DNA damage, alter dopamine and DAT levels. Changes seen in cells treated with combined exposure to aluminum and thimerosal are more pronounced. Special care should be taken while vaccinating sensitive populations and safer alternatives for aluminum and thimerosal should used.

Assessing Als3 Peptide-Binding Cavity and Amyloid-Forming Region Contributions to Candida albicans Invasion of Human Oropharyngeal Epithelial Cells.

Although it is widely recognized that disruption of ALS3 reduces the invasion of Candida albicans germ tubes into mammalian oral epithelial cells, the mechanism of this interaction was unexplored. C. albicans strains with structurally informed mutations to remove adhesive activity of the peptide-binding cavity (PBC) or aggregative activity mediated by the amyloid-forming region (AFR) were assessed for their ability to invade cultured human oropharyngeal epithelial cells. Initial assays utilized untreated fungal and epithelial cells. Subsequent work used epithelial cells treated with cytochalasin D and C. albicans cells treated with thimerosal to investigate invasion mediated by active penetration of germ tubes and epithelial cell induced endocytosis, respectively. Results demonstrated the importance of the PBC for the invasion process: loss of PBC function resulted in the same reduced-invasion phenotype as a C. albicans strain that did not produce Als3 on its surface. Invasion via active penetration was particularly compromised without PBC function. Loss of AFR function produced a wild-type phenotype in the untreated and thimerosal-treated invasion assays but increased invasion in cytochalasin D-treated epithelial cells. In previous work, reduced AFR-mediated Als3 aggregation increased C. albicans adhesion to cultured epithelial cell monolayers, presumably via increased PBC accessibility for ligand binding. Collectively, results presented here demonstrate that Als3 PBC-mediated adhesion is integral to its invasive function. These new data add to the mechanistic understanding of the role of Als3 in C. albicans invasion into mammalian oral epithelial cells.

Patch testing with the European baseline series and 10 added allergens: Single-centre study of 748 patients.

BACKGROUND: The European baseline series (EBS) of contact allergens is subject to change. An allergen is considered for inclusion when routine patch testing of patients with suspected contact dermatitis results in ≥0.5% prevalence rate. OBJECTIVES: We aimed to determine the frequency of sensitizations to 30 EBS allergens and 10 locally added allergens. Additionally, we assessed the strength and evolution of reactions to all tested allergens and co-reactivity of additional allergens. METHODS: Patch testing with our baseline series of 40 allergens was done in 748 consecutive adults. Tests were applied to the upper back and removed by patients after 48 h. Readings were done on Day 3 (D3) and D6 or D7 (D6/7). Positive reactions fulfilled the criteria of at least one plus (+) reaction. A retrospective analysis was done. RESULTS: Eight allergens not listed in the EBS had ≥0.5% prevalence rate (i.e., cocamidopropyl betaine, thiomersal, disperse blue mix 106/124, 2-bromo-2-nitropropane-1,3-diol, diazolidinyl urea, propylene glycol, Compositae mix II and dexamethasone-21-phosphate), and 16.6% of positive reactions would have been missed without D6/7 readings. CONCLUSION: We propose further studies to evaluate whether cocamidopropyl betaine, disperse blue mix 106/124, 2-bromo-2-nitropropane-1,3-diol, diazolidinyl urea and Compositae mix II need to be added to the EBS.