Thimerosal inhibits Drosophila melanogaster tyrosine hydroxylase (DmTyrH) leading to changes in dopamine levels and impaired motor behavior: implications for neurotoxicity.

Thimerosal (THIM) is a well-established antifungal and antiseptic agent widely used as a preservative in vaccines. Recent studies identified the neurotoxic effects of THIM, including malfunction of the monoaminergic system. However, the underlying cytotoxic mechanisms are not well understood. Here we used the fruit fly Drosophila melanogaster to investigate the mechanisms of THIM-induced neurotoxicity. We focused on the dopaminergic system, and the rate-limiting enzyme tyrosine hydroxylase (DmTyrH), to test the hypothesis that THIM can impair dopamine (DA) homeostasis and subsequently cause dysfunction. We studied the effect of THIM by feeding 1-2 day old flies (both sexes) food supplemented with 25 µM THIM for 4 days and determined THIM-induced effects on survival, oxidative stress, and metabolic activity based on MTT assay and acetylcholinesterase (AChE) activity. Our results demonstrate that D. melanogaster exposed to THIM present changes in DmTyrH expression and activity, together with altered DA levels that led to impaired motor behavior. These phenotypes were accompanied by an increase in oxidative stress, with a decrease in MTT reduction, in AChE activity, and also in survival rate. These findings suggest an initiating and primary role for THIM-mediated DmTyrH dysfunction that leads to impaired DA function and behavioral abnormalities, ultimately causing oxidative stress-related neurotoxicity.

Improved immune response to an attenuated pseudorabies virus vaccine by ginseng stem-leaf saponins (GSLS) in combination with thimerosal (TS).

Vaccination using attenuated vaccines remains an important method to control animal infectious diseases. The present study evaluated ginseng stem-leaf saponins (GSLS) and thimerosal (TS) for their adjuvant effect on an attenuated pseudorabies virus (aPrV) vaccine in mice. Compared to the group immunized with aPrV alone, the co-inoculation of GSLS and/or TS induced a higher antibody response. Particularly, when administered together with GSLS-TS, the aPrV vaccine provoked a higher serum gB-specific antibody, IgG1 and IgG2a levels, lymphocyte proliferative responses, as well as production of cytokines (IFN-γ, IL-12, IL-5 and IL-10) from lymphocytes, and more importantly provided an enhanced cytotoxicity of NK cells and protection against virulent field pseudorabies virus challenge. Additionally, the increased expression of miR-132, miR-146a, miR-147 and miR-155 was found in murine macrophages cultured with GSLS and/or TS. These data suggest that GSLS-TS as adjuvant improve the efficacy of aPrV vaccine in mouse model and have potential for the development of attenuated viral vaccines.

Contributions of extracellular and intracellular Ca2+ to regulation of sperm motility: Release of intracellular stores can hyperactivate CatSper1 and CatSper2 null sperm.

In order to fertilize, mammalian sperm must hyperactivate. Hyperactivation is triggered by increased flagellar Ca(2+), which switches flagellar beating from a symmetrical to an asymmetrical pattern by increasing bending to one side. Thimerosal, which releases Ca(2+) from internal stores, induced hyperactivation in mouse sperm within seconds, even when extracellular Ca(2+) was buffered with BAPTA to approximately 30 nM. In sperm from CatSper1 or CatSper2 null mice, which lack functional flagellar alkaline-activated calcium currents, 50 microM thimerosal raised the flagellar bend amplitudes from abnormally low levels to normal pre-hyperactivated levels and, in 20-40% of sperm, induced hyperactivation. Addition of 1 mM Ni(2+) diminished the response. This suggests that intracellular Ca(2+) is abnormally low in the null sperm flagella. When intracellular Ca(2+) was reduced by BAPTA-AM in wild-type sperm, they exhibited flagellar beat patterns more closely resembling those of null sperm. Altogether, these results indicate that extracellular Ca(2+) is required to supplement store-released Ca(2+) to produce maximal and sustained hyperactivation and that CatSper1 and CatSper2 are key elements of the major Ca(2+) entry pathways that support not only hyperactivated motility but possibly also normal pre-hyperactivated motility.

In vitro uptake of glutamate in GLAST- and GLT-1-transfected mutant CHO-K1 cells is inhibited by the ethylmercury-containing preservative thimerosal.

Thimerosal, also known as thimersal, Merthrolate, or sodiumethyl-mercurithiosalicylate, is an organic mercurial compound that is used in a variety of commercial as well as biomedical applications. As a preservative, it is used in a number of vaccines and pharmaceutical products. Its active ingredient is ethylmercury. Both inorganic and organic mercurials are known to interfere with glutamate homeostasis. Brain glutamate is removed mainly by astrocytes from the extracellular fluid via high-affinity astroglial Na+-dependent excitatory amino acid transporters, glutamate/ aspartate transporter (GLAST) and glutamate transporter-1 (GLT-1). The effects of thimerosal on glutamate homeostasis have yet to be determined. As a first step in this process, we examined the effects of thimerosal on the transport of [3H]-d-aspartate, a nonmetabolizable glutamate analog, in Chinese hamster ovary (CHO) cells transfected with two glutamate transporter subtypes, GLAST (EAAT1) and GLT-1 (EAAT2). Additionally, studies were undertaken to determine the effects of thimerosal on mRNA and protein levels of these transporters. The results indicate that thimerosal treatment caused significant but selective changes in both glutamate transporter mRNA and protein expression in CHO cells. Thimerosal-mediated inhibition of glutamate transport in the CHO-K1 cell line DdB7 was more pronounced in the GLT-1-transfected cells compared with the GLAST- transfected cells. These studies suggest that thimerosal accumulation in the central nervous system might contribute to dysregulation of glutamate homeostasis.

The role of Ca2+ in the generation of spontaneous astrocytic Ca2+ oscillations.

Astrocytes in the rat thalamus display spontaneous [Ca(2+)](i) oscillations that are due to intracellular release, but are not dependent on neuronal activity. In this study we have investigated the mechanisms involved in these spontaneous [Ca(2+)](i) oscillations using slices loaded with Fluo-4 AM (5 microM) and confocal microscopy. Bafilomycin A1 incubation had no effect on the number of spontaneous [Ca(2+)](i) oscillations indicating that they were not dependent on vesicular neurotransmitter release. Oscillations were also unaffected by ryanodine. Phospholipase C (PLC) inhibition decreased the number of astrocytes responding to metabotropic glutamate receptor (mGluR) activation but did not reduce the number of spontaneously active astrocytes, indicating that [Ca(2+)](i) increases are not due to membrane-coupled PLC activation. Spontaneous [Ca(2+)](i) increases were abolished by an IP3 receptor antagonist, whilst the protein kinase C (PKC) inhibitor chelerythrine chloride prolonged their duration, indicating a role for PKC and inositol 1,4,5,-triphosphate receptor activation. BayK8644 increased the number of astrocytes exhibiting [Ca(2+)](i) oscillations, and prolonged the responses to mGluR activation, indicating a possible effect on store-operated Ca(2+) entry. Increasing [Ca(2+)](o) increased the number of spontaneously active astrocytes and the number of transients exhibited by each astrocyte. Inhibition of the endoplasmic reticulum Ca(2+) ATPase by cyclopiazonic acid also induced [Ca(2+)](i) transients in astrocytes indicating a role for cytoplasmic Ca(2+) in the induction of spontaneous oscillations. Incubation with 20 microM Fluo-4 reduced the number of astrocytes exhibiting spontaneous increases. This study indicates that Ca(2+) has a role in triggering Ca(2+) release from an inositol 1,4,5,-triphosphate sensitive store in astrocytes during the generation of spontaneous [Ca(2+)](i) oscillations.

Kinetics of merthiolate-induced aggregation of human platelets.

Incubation of human platelet-rich plasma (PRP) or washed platelets with merthiolate (MT; sodium ethylmercurithiosalicylate; an inhibitor of lysophosphatide: arachidonoyl transferase) leads to irreversible platelet aggregation which is parallelled by an increase in thromboxane A2 synthesis. MT-induced aggregation is preceded by a pronounced lag-period (0.5-10 min). Duration of the latter is inversely related to the concentration of MT ([MT]). Platelet responses to MT are similar to those triggered by arachidonate (AA) in that the relationships of the aggregation rates both to [MT] and [AA] are threshold and exhibit characteristic super-high values of the apparent Hill coefficients (h > 30). A typical MT-induced response can be subdivided in two sequential phases: i) cyclooxygenase-independent slow aggregation, and ii) indomethacin-abrogated rapid aggregation. MT-induced responses are blocked by PGE1 or ajoene (which inhibits binding of fibrinogen to its cell surface receptor, GPIIb/IIIa). The obtained data are interpreted both quantitatively and qualitatively in terms of a model assuming the existence of: i) a relationship between the rate of MT-inhibitable AA incorporation into phospholipids and the concentration of intracellular free AA, [AA]i; ii) a certain threshold value of [AA]i essential for triggering the second phase of the aggregation.

[Kinetics of merthiolate-induced aggregation of human platelets]. / Kinetika mertioliat-indutsirovannoi agregatsii trombotsitov cheloveka.

Incubation of human platelets (in the form of platelet rich plasma or washed platelet suspension) with sodium merthiolate (ethyl mercuric salicylate inhibiting the arachidonic acid incorporation into phospholipids) induces their irreversible aggregation, which is accompanied by TxB2 synthesis. The merthiolate-induced aggregation has a lag-period of 0.5-10 min, whose magnitude is inversely correlated with the merthiolate concentration. The concentration dependencies of the rate of the merthiolate-induced and arachidonate-induced aggregation are threshold ones; the Hill coefficients are more than 30. The merthiolate-induced aggregation occurs in two phases: a slow phase which is independent of the arachidonic acid cyclooxygenase metabolism and a fast phase which is fully blocked by indomethacin. This aggregation is inhibited by PGE1 and ajoene (an inhibitor of the fibrinogen interaction with the fibrinogen receptor, GPIIb/IIIa). Quantitative and qualitative analyses of the experimental data were performed, using a model which took account of: (a) increase in the concentration of free endogenous arachidonic acid resulting from the inhibition by merthiolate of the arachidonic acid re-incorporation into phospholipids, and (b) existence of a threshold intracellular arachidonic acid concentration needed for the irreversible aggregation of platelets.

Antimicrobial activity of seven metallic compounds against penicillinase producing and non-penicillinase producing strains of Neisseria gonorrhoeae.

The in vitro activity of seven metallic compounds was tested against penicillinase (beta lactamase) producing strains of Neisseria gonorrhoeae (PPNG) and non-PPNG strains. On a weight basis, the mercurials showed the greatest in vitro activity. Phenylmercuric borate, thiomersal, and mercuric chloride inhibited 90% of all strains at concentrations of 5 mg/l, 5 mg/l, and 20 mg/l respectively. Silver nitrate inhibited 90% of the strains at 80 mg/l and the MIC90 for mild silver protein was 200 mg/l. Copper and selenium salts had lower in vitro activities, inhibiting 90% of all the strains at 320 mg/l and 640 mg/l respectively. Silver nitrate and the six other compounds tested showed equal activities against PPNG and non-PPNG strains. This finding supports the recommendation for prophylaxis of gonococcal conjunctivitis of the newborn with 1% silver nitrate eye drops.

The effects of topical drugs and preservatives on the tears and corneal epithelium in dry eye.

Medications used in 'Dry Eye' patients are reviewed for their effects on the corneal surface including the overlying tear film. Preservatives are discussed, since they affect the properties of commercial preparations which may be instilled frequently as a substitute for normal tears. The major beneficial effect which a topically applied agent can have on epithelium is to supplement or stabilise the tear film. Thimerosal sometimes triggers a sensitivity reaction, and other mercurial compounds are unstable. Benzalkonium chloride compromises both corneal epithelium and tear film. Some cationic detergents, including chlorhexidine digluconate and polyquat, cause less disruption at prophylactic concentrations. The use of a small drop size is helpful in preventing toxic effects of preservatives. All preservatives should be avoided when unit doses of a sterile tear replacement, such as saline, can be made available. Topical antibiotics should be used only to control known bacterial infections, avoiding high concentrations of bacitracin, gentamicin, and neomycin. Steroids and antibiotic/steroid combinations must be used with great caution, and only when uncontrolled ocular inflammation justifies the risk of possible corneal ulceration.

Analysis of the non-immunological activity of allergen extracts in cutaneous tests.

The technique proposed by the National Institute for Biological Standards and Control, London (NIBSC, 1977) for the control of allergenic extracts for non-immunological activity in skin tests has proved to be both sensitive and useful. We have observed 'false positive' results to substances such as merthiolate or glycerine and also to lyophilised preparations with sugar, notably glucose, as the carrier substance. Other factors studied in 'false positive' reactions to a given extract were pH, osmotic pressure and the presence of traces of endotoxins or histamine. Individually none of these provided satisfactory explanations for the false positive reactions and the use of antagonists or inhibitors of the release of chemical mediators only confirmed the complexity of the non-immunological reaction and the participation of factors other than histamine.

Human platelet aggregation by thimerosal. Functional and ultrastructural studies.

Thimerosal, a sulfhydryl group inhibitor, produces in an aggregometer a decrease in optical density of normal platelet-rich plasma over a wide range of concentrations. Ultrastructural study shows that the decrease of optical density produced by thimerosal at low doses is due to a true platelet aggregation preceded by a release reaction, whereas the aggregometric curves recorded after addition of thimerosal at high doses can be attributed to marked alterations of platelet morphology. Electron microscopic study shows the presence of electron-dense material between plasma membranes after addition of a low dose, and the early rupture of membranes after a high dose. These findings support previous conclusions that thimerosal binds to plasma membranes. Thimerosal induces a release reaction, seen in ultrastructural study and revealed by measurement of 14C-serotonin release. Moreover, thimerosal-induced aggregation is independent of released ADP and of formation of intermediates of the arachidonate pathway. Thimerosal-induced platelet aggregation is inhibited neither by ADP removal nor by aspirin addition.