Melatonin mitigates neomycin-induced hair cell injury in zebrafish.

CONTEXT: Ototoxicity due to medications, such as aminoglycosides, is irreversible, and free radicals in the inner ear are assumed to play a major role. Because melatonin has an antioxidant property, we hypothesize that it might mitigate hair cell injury by aminoglycosides. OBJECTIVE: The objective of this study was to evaluate whether melatonin has an alleviative effect on neomycin-induced hair cell injury in zebrafish (Danio rerio). METHODS: Various concentrations of melatonin were administered to 5-day post-fertilization zebrafish treated with 125 µM neomycin for 1 h. Surviving hair cells within four neuromasts were compared with that of a control group. Apoptosis was assessed via terminal deoxynucleotidyl transferase dUTP nick-end labeling assay. The changes of ultrastructure were confirmed using a scanning electron microscope. RESULTS: Melatonin alleviated neomycin-induced hair cell injury in neuromasts (neomycin + melatonin 100 µM: 13.88 ± 0.91 cells, neomycin only: 7.85 ± 0.90 cells; n = 10, p < 0.05) and reduced neomycin-induced apoptosis in the TUNEL assay. In ultrastructural analysis, hair cells within the neuromasts in zebrafish were preserved exposed to 125 µM neomycin and 100 µM melatonin for 1 h in SEM findings. CONCLUSION: Melatonin is effective in alleviating aminoglycoside-induced hair cell injury in zebrafish. The results of this study demonstrated that melatonin has the potential to reduce apoptosis induced by aminoglycosides in zebrafish.

"In-bone" utricle cultures--a simplified, atraumatic technique for in situ cultures of the adult mouse (Mus musculus) utricle.

HYPOTHESIS: The "in-bone" method of culturing utricles described here is a reliable and atraumatic technique for culturing mature mouse hair cells and studying hair cell death and protection. BACKGROUND: The current in vitro technique for studying hair cells of the mature mouse utricle involves removal from the temporal bone and free floating culture in media. This technique can be problematic because of variability in the preservation of the sensory epithelium and a steep learning curve that results in injury of the sensory epithelium in less experienced hands. We present a new atraumatic technique of culturing the utricle in situ within the temporal bone. METHODS: Leaving the temporal bone largely intact, a window is opened in the bony vestibule overlying the mouse utricle. The entire temporal bone is then placed into culture media. Utricles were cultured in situ for several days with minimal damage to the epithelium. The utricles are then fixed in situ, removed from the temporal bone, and processed. A standardized aminoglycoside-induced hair cell damage protocol was developed. RESULTS: Mature mouse utricles maintained hair cell numbers for 3 days in culture. Exposure to neomycin resulted in significant dose-dependent hair cell toxicity (p < 0.0001, 1-way analysis of variance). Exposure to the protective drug tacrine resulted in significant protection against neomycin (p < 0.05, 3-way analysis of variance). CONCLUSION: The "in-bone" technique is a reliable and atraumatic method for culturing mature mouse utricles and studying hair cell death and protection. It is easily mastered and can make in vitro study of hair cells accessible to more research groups.

Screen of FDA-approved drug library reveals compounds that protect hair cells from aminoglycosides and cisplatin.

Loss of mechanosensory hair cells in the inner ear accounts for many hearing loss and balance disorders. Several beneficial pharmaceutical drugs cause hair cell death as a side effect. These include aminoglycoside antibiotics, such as neomycin, kanamycin and gentamicin, and several cancer chemotherapy drugs, such as cisplatin. Discovering new compounds that protect mammalian hair cells from toxic insults is experimentally difficult because of the inaccessibility of the inner ear. We used the zebrafish lateral line sensory system as an in vivo screening platform to survey a library of FDA-approved pharmaceuticals for compounds that protect hair cells from neomycin, gentamicin, kanamycin and cisplatin. Ten compounds were identified that provide protection from at least two of the four toxins. The resulting compounds fall into several drug classes, including serotonin and dopamine-modulating drugs, adrenergic receptor ligands, and estrogen receptor modulators. The protective compounds show different effects against the different toxins, supporting the idea that each toxin causes hair cell death by distinct, but partially overlapping, mechanisms. Furthermore, some compounds from the same drug classes had different protective properties, suggesting that they might not prevent hair cell death by their known target mechanisms. Some protective compounds blocked gentamicin uptake into hair cells, suggesting that they may block mechanotransduction or other routes of entry. The protective compounds identified in our screen will provide a starting point for studies in mammals as well as further research discovering the cellular signaling pathways that trigger hair cell death.

Response of mechanosensory hair cells of the zebrafish lateral line to aminoglycosides reveals distinct cell death pathways.

We report a series of experiments investigating the kinetics of hair cell loss in lateral line neuromasts of zebrafish larvae following exposure to aminoglycoside antibiotics. Comparisons of the rate of hair cell loss and the differential effects of acute versus chronic exposure to gentamicin and neomycin revealed markedly different results. Neomycin induced rapid and dramatic concentration-dependent hair cell loss that is essentially complete within 90 min, regardless of concentration or exposure time. Gentamicin-induced loss of half of the hair cells within 90 min and substantial additional loss, which was prolonged and cumulative over exposure times up to at least 24h. Small molecules and genetic mutations that inhibit neomycin-induced hair cell loss were ineffective against prolonged gentamicin exposure supporting the hypothesis that these two drugs are revealing at least two cellular pathways. The mechanosensory channel blocker amiloride blocked both neomycin and gentamicin-induced hair cell death acutely and chronically indicating that these aminoglycosides share a common entry route. Further tests with additional aminoglycosides revealed a spectrum of differential responses to acute and chronic exposure. The distinctions between the times of action of these aminoglycosides indicate that these drugs induce multiple cell death pathways.

Extracellular divalent cations modulate aminoglycoside-induced hair cell death in the zebrafish lateral line.

Aminoglycoside antibiotics cause death of sensory hair cells. Research over the past decade has identified several key players in the intracellular cascade. However, the role of the extracellular environment in aminoglycoside ototoxicity has received comparatively little attention. The present study uses the zebrafish lateral line to demonstrate that extracellular calcium and magnesium ions modulate hair cell death from neomycin and gentamicin in vivo, with high levels of either divalent cation providing significant protection. Imaging experiments with fluorescently-tagged gentamicin show that drug uptake is reduced under high calcium conditions. Treating fish with the hair cell transduction blocker amiloride also reduces aminoglycoside uptake, preventing the toxicity, and experiments with variable calcium and amiloride concentrations suggest complementary effects between the two protectants. Elevated magnesium, in contrast, does not appear to significantly attenuate drug uptake, suggesting that the two divalent cations may protect hair cells from aminoglycoside damage through different mechanisms. These results provide additional evidence for calcium- and transduction-dependent aminoglycoside uptake. Divalent cations provided differential protection from neomycin and gentamicin, with high cation concentrations almost completely protecting hair cells from neomycin and acute gentamicin toxicity, but offering reduced protection from continuous (6 h) gentamicin exposure. These experiments lend further support to the hypothesis that aminoglycoside toxicity occurs via multiple pathways in a both a drug and time course-specific manner.

Identification of genetic and chemical modulators of zebrafish mechanosensory hair cell death.

Inner ear sensory hair cell death is observed in the majority of hearing and balance disorders, affecting the health of more than 600 million people worldwide. While normal aging is the single greatest contributor, exposure to environmental toxins and therapeutic drugs such as aminoglycoside antibiotics and antineoplastic agents are significant contributors. Genetic variation contributes markedly to differences in normal disease progression during aging and in susceptibility to ototoxic agents. Using the lateral line system of larval zebrafish, we developed an in vivo drug toxicity interaction screen to uncover genetic modulators of antibiotic-induced hair cell death and to identify compounds that confer protection. We have identified 5 mutations that modulate aminoglycoside susceptibility. Further characterization and identification of one protective mutant, sentinel (snl), revealed a novel conserved vertebrate gene. A similar screen identified a new class of drug-like small molecules, benzothiophene carboxamides, that prevent aminoglycoside-induced hair cell death in zebrafish and in mammals. Testing for interaction with the sentinel mutation suggests that the gene and compounds may operate in different pathways. The combination of chemical screening with traditional genetic approaches is a new strategy for identifying drugs and drug targets to attenuate hearing and balance disorders.

Prevention of neomycin-induced nephrotoxic event in pig proximal tubular epithelial cell line by apolipoprotein E3.

Nephrotoxicity is one of critical problems of aminoglycoside antibiotics. We examined the protective effect of apolipoprotein E3 (apoE3), one of ligands for megalin, on neomycin-induced extracellular release of lactate dehydrogenase, a marker of cell necrosis using pig proximal tubular LLC-PK1 cells. Neomycin significantly induced the extracellular release of lactate dehydrogenase, but apoE3 successfully suppressed it. This result indicated that apoE3 protects the proximal tubular cells from the eventual cell death induced by nephrotoxic aminoglycosides.

Heterotrimeric G-protein and signal transduction in the nematode-trapping fungus Arthrobotrys dactyloides.

The fungus Arthrobotrys dactyloides produces specialized constricting rings to trap and then consume nematodes. The signal transduction pathway involved in the nematode-trapping process was examined. Mastoparan, an activator of G-protein, had a stimulatory effect on the inflation of ring cells, whereas a G-protein inhibitor, pertussis toxin, prevented ring-cell expansion. The 40-kDa G alpha of heterotrimeric G-proteins was specifically ADP-ribosylated by pertussis toxin. Using an antibody specific to the 35-kDa subunit G beta, we showed that immunogold-labeled G beta was more concentrated in ring cells than in the hyphae. In the absence of nematodes, the rings could be inflated by either pressurizing the culture in a syringe, raising intracellular Ca2+ concentrations, or adding warm water. We used these methods to reveal differences in responses to antagonists. The results support a model in which the pressure exerted by a nematode on the ring activates G-proteins in the ring cells. The activation leads to an increase in cytoplasmic Ca2+, activation of calmodulin, and finally the opening of water channels. The ring cells expand to constrict the ring and thus immobilize the nematode.

Enhancer-blocking activity within the DNase I hypersensitive site 2 to 6 region between the TCR alpha and Dad1 genes.

Although tightly linked, the TCR alpha and delta genes are expressed specifically in T lymphocytes, whereas the Dad1 gene is ubiquitously expressed. Between TCR alpha and Dad1 are eight DNase I hypersensitive sites (HS). HS1 colocalizes with the TCR alpha enhancer (Ealpha) and is T cell-specific; HS2, -3, -4, -5, and -6 map downstream of HS1 and are tissue-nonspecific. The region spanning HS2-6 was reported to display chromatin-opening activity and to confer copy number-dependent and integration site-independent transgene expression in transgenic mice. Here, we demonstrate that HS2-6 also displays enhancer-blocking activity, as it can block an enhancer from activating a promoter when located between the two in a chromatin-integrated context, and can do so without repressing either the enhancer or the promoter. Multiple enhancer-blocking elements are arrayed across HS2-6. We show that HS2-6 by itself does not activate transcription in chromatin context, but can synergize with an enhancer when located upstream of an enhancer and promoter. We propose that HS2-6 primarily functions as an insulator or boundary element that may be critical for the autonomous regulation of the TCR alpha and Dad1 genes.

Transforming growth factor alpha treatment alters intracellular calcium levels in hair cells and protects them from ototoxic damage in vitro.

To determine if transforming growth factor alpha (TGF alpha) pretreatment protects hair cells from aminoglycoside induced injury by modifying their intracellular calcium concentration, we assayed hair cell calcium levels in organ of Corti explants both before and after aminoglycoside (i.e. neomycin, 10(-3) M) exposure either with or without growth factor pretreatment. After TGF alpha (500 ng/ml) treatment, the intracellular calcium level of hair cells showed a five-fold increase as compared to the levels observed in the hair cells of control cultures. After ototoxin exposure, calcium levels in hair cells of control explants showed an increase relative to their baseline levels, while in the presence of growth factors pretreatment, hair cells showed a relative reduction in calcium levels. Pretreatment of organ of Corti explants afforded significant protection of hair cell stereocilia bundle morphology from ototoxic damage when compared to explants exposed to ototoxin alone. This study correlates a rise in hair cell calcium levels with the otoprotection of hair cells by TGF alpha in organ of Corti explants.

Retroviral-mediated transduction of endothelial cells with the lac Z gene impairs cellular proliferation in vitro and graft endothelialization in vivo.

PURPOSE: An endothelialized lumen within a synthetic graft that expresses recombinant proteins with anticoagulant or antiproliferative activity has the potential to improve graft function. However, preliminary data suggest that genetic modification of endothelial cells (ECs) impairs their proliferation. The purpose of this investigation was to test the hypothesis that retroviral transduction of cultured ECs with the lac Z gene encoding for beta-galactosidase would decrease EC proliferation in vitro and graft endothelialization in vivo. METHODS: In vitro studies compared canine EC proliferation over a 14-day period among early-passage ECs (two and three) and late-passage ECs (six and nine) transduced with the BAG vector (containing the lac Z gene and the neomycin resistance gene), ECs transduced with the neomycin resistance gene only, the nontransduced ECs. In vivo canine studies assessed endothelialization of expanded polytetrafluoroethylene thoracoabdominal grafts seeded with autologous lac Z-transduced ECs (n = 7) or nontransduced ECs (n = 3) compared with that of nonseeded grafts (n = 3). Histochemical staining and DNA polymerase chain reaction was used 6 weeks after implantation to detect the presence of the lac Z gene in the grafts' cellular linings and perigraft tissues. Endothelialization was assessed by light microscopy and electron microscopy. RESULTS: Proliferation of late-passage lac Z-transduced ECs in vitro was significantly decreased compared with neomycin resistance-transduced ECs or nontransduced ECs. Among early-passage ECs smaller but significant decreases in proliferation were noted among lac Z-transduced cells compared with nontransduced cells. Six of seven expanded polytetrafluoroethylene grafts seeded with transduced ECs showed lac Z gene expression. Lac Z gene expression was not found on grafts seeded with nontransduced ECs or nonseeded grafts. The endothelialized luminal surface area was significantly less in grafts seeded with lac Z-transduced ECs compared with grafts seeded with nontransduced ECs. CONCLUSIONS: Retroviral-mediated transduction of canine ECs with the lac Z gene encoding for beta-galactosidase impairs EC proliferation in vitro and the ability of transduced ECs to form a confluent EC monolayer on the luminal surface of synthetic grafts in vivo.

Neurochemical evidence that [Ca2+]o antagonizes the effect of neomycin on acetylcholine release from mouse hemidiaphragm preparation: an attempt to assess the margin to safety.

Although the neuromuscular junction is the most thoroughly studied synapse of any type and has become the model of our understanding of synaptic transmission, some questions remain unanswered; e.g. there has been no direct assessment of the size of margin of safety. In this study the [Ca2+]o-dependent, quantally released acetylcholine measured by a neurochemical method, and the contraction of the mouse hemidiaphragm in response to phrenic nerve stimulation were recorded, and the effect of neomycin was studied. It was found that a much higher concentration of neomycin was needed to depress contractions, than to reduce acetylcholine release to the same extent, and that there was an inverse correlation between [Ca2+]o and the inhibitory effect of neomycin on acetylcholine release. Ninety percent of the release of acetylcholine had to be reduced by neomycin before any reduction in muscle responses could be seen. This indicates that the margin of safety is about 10. In conclusion, at the neuromuscular junction any reduction in ACh release, whatever the mechanism, first produces a reduction in the margin of safety. The nondepolarizing neuromuscular blocking agents block primarily the nicotinic receptors located on the postjunctional site. Many receptors have to be blocked before a reduction of muscle response is observed. This is probably the reason why unexpected clinical problems (e.g. recurarization) have been described when a patients has been treated with antibiotics, even though the dose of muscle relaxant injected was relatively low.

Inhibition by lithium of neomycin-induced release of N-acetyl-beta-glucosaminidase in the rat heart.

The effects of neomycin, lithium and concurrent therapy of these drugs on subcellular distribution of lysosomal enzyme, N-acetyl-beta-glucosaminidase (NAG) in the heart was studied. Released activity of NAG was used as a marker for assessing myocardial lysosomal integrity. The activity of NAG was determined in non-sedimentable and sedimentable fractions after centrifugation of the tissue extracted for assessment of the subcellular distribution of the lysosomal enzyme. Daily intraperitoneal injection of 100 mg/kg/day of neomycin increased the ratio of the non-sedimentable activity (free) to the non-sedimentable plus sedimentable activities (total) of NAG. Daily intraperitoneal injection of lithium decreased the total activity of NAG but did not affect the ratio of free: total activities of the enzyme. Lithium in doses of 2 and 4 mM/kg/day one hour prior to neomycin reduced the neomycin-induced enhancement of the ratio of free: total activity of NAG. Neomycin like other aminoglycosides altered the acidic phospholipid metabolism in lysosomal membranes and/or impairment of some important lysosomal functions. In this regard, the protective effects of lithium may be due to interference of this ion with phosphoinositide cycle.

The influence of calcium on the ototoxicity of aminoglycosides.

Aminoglycosides in aquarium water produce a temporary impairment of sensitivity in the lateral line organ of fish. If Ca++ ions are supplied at the same time, the impairment in lateral line sensitivity can be alleviated in a dose-dependent manner. This mechanism appears to be based on competitive antagonism.

[The isolation and characteristics of the biological and genetic properties of neamin-resistant mutants of Salmonella abortus-ovis that are promising for vaccine creation]. / Poluchenie i kharakteristika biologicheskikh i geneticheskikh svoistv ustoichivykh k neaminu mutantov Salmonella abortusovis, perspektivnykh dlia sozdaniia vaktsin.

Neamine-resistant mutants were obtained from S. abortus ovis virulent strain. These mutants were divided into three classes according to their sensitivity to streptomycin: mutants completely retaining their sensitivity, mutants sensitive to moderate and high doses of the antibiotic. On the basis of genetic analysis carried out with the use of bacteriophage P22, the Near mutation of class Near 100 Strr 500 mutants was identified as nea B, and the Near mutation of class Near 100 Strs, as nea A. The study showed a decreased virulence of Salmonella transductants that acquired both neamine-resistant mutation of the two classes and streptomycin-resistant mutation. The streptomycin-resistant mutation produced no changes in the virulence of these bacteria. According to the results of experiments on mice, mutants of the two classes under study were found to possess protective activity.

High calcium solutions prevent the depressant effects of aminoglycoside antibiotics on central synaptic transmission in rat hippocampal slices.

1. The aminoglycoside antibiotics neomycin and streptomycin were tested on the synaptic activity of the CA1 pyramidal neuron-Schaffer collateral interconnections in rat hippocampal slices. 2. Neomycin (0.5 mM) decreased the magnitude and shifted to the right the stimulus-response curve of the somatic and dendritic excitatory postsynaptic potential (EPSP) and the somatic population spike (PS). 3. Streptomycin (1 mM) decreased the magnitude and shifted to the right the stimulus-response curve of the somatic and dendritic EPSP and the somatic PS. 4. High (+2 mM) calcium solutions were able to prevent the effects induced by the antibiotics and to shift to the left the stimulus-response curve of the 0.5 mM neomycin and 1 mM streptomycin treated hippocampal slices. 5. The data demonstrate an effect of aminoglycoside antibiotics on a central mammalian hippocampal synapses, that may depend on an interference of the drugs on calcium conductances.

Neomycin induces high-affinity agonist binding of G-protein-coupled receptors.

Neomycin, an inositol-phospholipid-binding aminoglycoside antibiotic, is known to interfere with signal transduction mechanisms involving phospholipase C as effector enzyme. In this study, we report that neomycin can also markedly influence agonist binding of G-protein-coupled receptors. In membranes of differentiated human leukemia cells (HL 60 cells), neomycin (0.1-10 mM) was found to induce high-affinity binding of the chemotactic tripeptide, N-formyl-methionylleucylphenylalanine (fMet-Leu-Phe), to its receptor sites in a manner similar to magnesium. Gentamycin and streptomycin, two other aminoglycoside antibiotics, were as potent and as effective as neomycin or magnesium in inducing high-affinity agonist receptor binding. Pretreatment of the cells with pertussis toxin reduced the effects of magnesium and neomycin on agonist receptor binding likewise. In contrast, magnesium but not neomycin largely enhanced the potency of guanine nucleotides, particularly of GTP and its analog, guanosine-5'-O-(3-thiotriphosphate), to reduce fMet-Leu-Phe receptor binding, while maximal inhibition of agonist receptor binding by guanine nucleotides was identical with magnesium and neomycin. Furthermore, neomycin could not replace magnesium in providing stimulation of HL 60 membrane high-affinity GTPase by fMet-Leu-Phe. In close agreement to these findings on the pertussis-toxin-sensitive Gi-protein-coupled formyl peptide receptors, neomycin in a manner similar to magnesium induced high-affinity agonist binding of Gs-protein-coupled beta-adrenoceptors. Similar to formyl peptide receptor binding, high-affinity binding of isoproterenol to beta-adrenoceptors in guinea pig lung membranes induced by magnesium and neomycin was inhibited by the GTP analog, guanosine-5'-O-(3-thiotriphosphate), to a similar maximal extent but with an about 100-fold higher potency in the presence of magnesium than in the presence of neomycin. The data presented thus indicate that neomycin and other aminoglycoside antibiotics can mimic the action of magnesium (or other divalent cations) in inducing high-affinity agonist binding of Gi- and Gs-protein-coupled receptors, but not in inducing subsequent G-protein activation by guanosine triphosphates. The data, furthermore, suggest that neomycin by this selective action will be a powerful tool to dissect the multiple sites of magnesium's action in the agonist receptor-G-protein interaction.

[Genetic characteristics and protective properties of neamin-resistant mutant Salmonella typhimurium and S. dublin of the Nea(r) Str(s) and Nea(r) Str(r) 500 classes]. / Geneticheskaia kharakteristika i protektivnye svoistva neaminrezistentnykh mutantov Salmonella typhimurium i S. dublin klassov Nea(r) Str(s) i Nea(r) Str(r) 500.

The genetic analysis of attenuated mutants, class Nea(r) Str(s), with the use of bacteriophage P 22 has shown that mutation rendering the mutants resistant to neamine is localized in gene nea A. In experiments with the intraperitoneal infection of mice, the appearance of this mutation in S. typhimurium and S. dublin virulent strains has been found to lead to the decrease of virulence in 100% of clones. On the basis of the data obtained in this investigation, region str-spc in S. typhimurium and S. dublin has been mapped. In contrast to mutation spc A, mutations nea A and str A have been shown to inhibit the action of amber suppressor. The investigation has confirmed the regularity, previously established for Shigella flexneri, concerning the relationship between the influence of mutations, occurring in the genes which determine resistance to neamine and streptomycin and control the synthesis of ribosomal proteins S4, S5, S12 and S17, on the virulence of S. typhimurium and S. dublin and the effect of these mutations on the accuracy of the translation of genetic information in the biosynthesis of protein: mutation spc A has been found to produce no changes in the virulence of salmonellae, while mutations nea A and str A cause its loss. Salmonella strains carrying mutations nea A and nea B have shown pronounced protective properties in experiments on mice.

[Isolation and characteristics of the biological and genetic properties of neamin-resistant mutants of Salmonella typhimurium and Salmonella dublin candidates for vaccine creation]. / Poluchenie i kharakteristika biologicheskikh i geneticheskikh svoistv ustoichivykh k neaminu mutantov Salmonella typhimurium i Salmonella dublin, perspektivnykh dlia sozdaniia vaktsin.

Mutants, resistant to neamine and spectinomycin, have been isolated from S. typhimurium and S. dublin highly virulent strains. The neamine-resistant mutants can be divided into 3 classes in accordance with their sensitivity to streptomycin: sensitive, resistant to low and high concentrations of this antibiotic. The transduction analysis with the use of bacteriophage P 22 has revealed that the spectinomycin-resistant mutations under study are spc A mutations, while the mutations leading to resistance to neamine in class Near Strr 500 are nea B mutations. The mutation leading to resistance to spectinomycin (spc A) has been found to produce no changes in the virulence of salmonellae in the intraperitoneal infection of mice. The mutations leading to resistance to neamine and streptomycin (nea B and str A) have been found to decrease virulence.