Your search keyword '"*ROTENONE"' showing total 119 results

1. The effect of common paralytic agents used for fluorescence imaging on redox tone and ATP levels in Caenorhabditis elegans.

Author

Morton, Katherine S., Wahl, Ashlyn K., and Meyer, Joel N.

Subjects

*OXIDATION-reduction reaction, *CAENORHABDITIS, *RESTRAINT of patients, *CAENORHABDITIS elegans, *FLUORESCENCE, *ROTENONE, *PURINERGIC receptors

Abstract

One aspect of Caenorhabditis elegans that makes it a highly valuable model organism is the ease of use of in vivo genetic reporters, facilitated by its transparent cuticle and highly tractable genetics. Despite the rapid advancement of these technologies, worms must be paralyzed for most imaging applications, and few investigations have characterized the impacts of common chemical anesthetic methods on the parameters measured, in particular biochemical measurements such as cellular energetics and redox tone. Using two dynamic reporters, QUEEN-2m for relative ATP levels and reduction-oxidation sensitive GFP (roGFP) for redox tone, we assess the impact of commonly used chemical paralytics. We report that no chemical anesthetic is entirely effective at doses required for full paralysis without altering redox tone or ATP levels, and that anesthetic use alters the detected outcome of rotenone exposure on relative ATP levels and redox tone. We also assess the use of cold shock, commonly used in combination with physical restraint methods, and find that cold shock does not alter either ATP levels or redox tone. In addition to informing which paralytics are most appropriate for research in these topics, we highlight the need for tailoring the use of anesthetics to different endpoints and experimental questions. Further, we reinforce the need for developing less disruptive paralytic methods for optimal imaging of dynamic in vivo reporters. [ABSTRACT FROM AUTHOR]

Published

2024

2. Anethole attenuates motor dysfunctions, striatal neuronal activity deficiency and blood brain barrier permeability by decreasing striatal α-synuclein and oxidative stress in rotenone-induced Parkinson's disease of male rats.

Author

Moradi Vastegani, Sadegh, Khoshnam, Seyed Esmaeil, Ghafouri, Samireh, Bakhtiari, Nima, Farbood, Yaghoob, and Sarkaki, Alireza

Subjects

*BLOOD-brain barrier, *PARKINSON'S disease, *OXIDATIVE stress, *ALPHA-synuclein, *RAT diseases, *APOMORPHINE, *MALONDIALDEHYDE, *ROTENONE

Abstract

Introduction: Anethole is the main compound of the essential oil of anise and several other plants, which has antioxidant, anti-inflammatory, and neuroprotective properties. Oxidative stress is considered as an important factor in the pathogenesis of PD. In the present study, we aimed to investigate the effects of anethole against rotenone-induced PD. Methods: Male Wistar rats were randomly divided into six groups. Control group received DMSO + sunflower oil, model group received rotenone (2 mg/kg, s.c, daily for 35 days), positive control group received L-Dopa, and test groups received anethole (62.5, 125, and 250 mg/kg, i.g, daily for 35 days) 1 hour before each rotenone injection. Body weight changes, rotarod test, stride length test, and extracellular single unit recording were performed after treatment. After behavioral test, Brain water content and blood brain barrier (BBB) permeability were evaluated, and the levels of malondialdehyde (MDA), superoxide dismutases (SOD), alpha-synuclein and MAO-B were measured in the striatum. Results: Chronic administration of rotenone induced body weight loss and caused significant dysfunction in locomotor activity, neuronl firing rate, and BBB. Rotenone also decreased SOD activity, increased MDA level, and elevated the expression of alpha-synuclein and MAO-B in the striatum. However, treatment with anethole attenuated body weight loss, motor function, neuronal activity, and BBB function. Furthermore, Anethole treatment attenuated oxidative stress and decreased the expression of alpha-synuclein and MAO-B compared to the rotenone group. Conclusion: Our results show that through its antioxidant properties, aethole can improve the cellular, molecular and behavioral characteristics of rotenone-induced Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2023

3. Rotenone causes mitochondrial dysfunction and prevents maturation in porcine oocytes.

Author

Heo, Geun, Sun, Ming-Hong, Jiang, Wen-Jie, Li, Xiao-Han, Lee, Song-Hee, Guo, Jing, Zhou, Dongjie, and Cui, Xiang-Shun

Subjects

*ROTENONE, *APOPTOSIS, *OVUM, *MEIOSIS, *MITOCHONDRIA, *GERM cells, *REACTIVE oxygen species

Abstract

Rotenone is a commonly used insecticidal chemical in agriculture and it is an inhibitor of mitochondrial complex Ⅰ. Previous studies have found that rotenone induces the production of reactive oxygen species (ROS) by inhibiting electron transport in the mitochondria of somatic and germ cells. However, there is little precise information on the effects of rotenone exposure in porcine oocytes during in vitro maturation, and the mechanisms underlying these effects have not been determined. The Cumulus-oocyte complexes were supplemented with different concentrations of rotenone to elucidate the effects of rotenone exposure on the meiotic maturation of porcine oocytes during in vitro maturation for about 48 hours. First, we found that the maturation rate and expansion of cumulus cells were significantly reduced in the 3 and 5 μM rotenone-treated groups. Subsequently, the concentration of rotenone was determined to be 3 μM. Also, immunofluorescence, western blotting, and image quantification analyses were performed to test the rotenone exposure on the meiotic maturation, total and mitochondrial ROS, mitochondrial function and biogenesis, mitophagy and apoptosis in porcine oocytes. Further experiments showed that rotenone treatment induced mitochondrial dysfunction and failure of mitochondrial biogenesis by repressing the level of SIRT1 during in vitro maturation of porcine oocytes. In addition, rotenone treatment reduced the ratio of active mitochondria to total mitochondria, increased ROS production, and decreased ATP production. The levels of LC3 and active-caspase 3 were significantly increased by rotenone treatment, indicating that mitochondrial dysfunction induced by rotenone increased mitophagy but eventually led to apoptosis. Collectively, these results suggest that rotenone interferes with porcine oocyte maturation by inhibiting mitochondrial function. [ABSTRACT FROM AUTHOR]

Published

2022

4. Quercetin exhibits potent antioxidant activity, restores motor and non-motor deficits induced by rotenone toxicity.

Author

Madiha, Syeda, Batool, Zehra, Tabassum, Saiqa, Liaquat, Laraib, Sadir, Sadia, Shahzad, Sidrah, Naqvi, Fizza, Saleem, Sadia, Yousuf, Sarwat, Nawaz, Amber, Ahmad, Saara, Sajid, Irfan, Afzal, Asia, and Haider, Saida

Subjects

*QUERCETIN, *ROTENONE, *COGNITION disorders, *COGNITIVE ability, *PARKINSON'S disease, *BEHAVIORAL assessment

Abstract

The rotenone-induced animal model of Parkinson's disease (PD) has been used to investigate the pathogenesis of PD. Oxidative stress is one of the main contributors of neurodegeneration in PD. Flavonoids have the potential to modulate neuronal function and combat various neurodegenerative diseases. The pre- and post-supplementation of quercetin (50 mg/kg, p.o) was done in rats injected with rotenone (1.5 mg/kg, s.c). After the treatment, behavioral activities were monitored for motor activity, depression-like behavior, and cognitive changes. Rats were decapitated after behavioral analysis and the brain samples were dissected out for neurochemical and biochemical estimation. Results showed that supplementation of quercetin significantly (p<0.01) restored rotenone-induced motor and non-motor deficits (depression and cognitive impairments), enhanced antioxidant enzyme activities (p<0.01), and attenuated neurotransmitter alterations (p<0.01). It is suggested that quercetin supplementation improves neurotransmitter levels by mitigating oxidative stress via increasing antioxidant enzyme activity and hence improves motor activity, cognitive functions, and reduces depressive behavior. The results of the present study showed that quercetin pre-supplementation produced more significant results as compared to post-supplementation. These findings show that quercetin can be a potential therapeutic agent to reduce the risk and progression of PD. [ABSTRACT FROM AUTHOR]

Published

2021

5. Transcriptome analysis of a rotenone model of parkinsonism reveals complex I-tied and -untied toxicity mechanisms common to neurodegenerative diseases.

Author

Cabeza-Arvelaiz, Yofre Y and Schiestl, Robert H RH

Subjects

parkinson disease, Neurodegeneration, Pesticides, rotenone, rotenone, cancer, cell cycle, Alzheimer's disease

Abstract

The pesticide rotenone, a neurotoxin that inhibits the mitochondrial complex I, and destabilizes microtubules (MT) has been linked to Parkinson disease (PD) etiology and is often used to model this neurodegenerative disease (ND). Many of the mechanisms of action of rotenone are posited mechanisms of neurodegeneration; however, they are not fully understood. Therefore, the study of rotenone-affected functional pathways is pertinent to the understanding of NDs pathogenesis. This report describes the transcriptome analysis of a neuroblastoma (NB) cell line chronically exposed to marginally toxic and moderately toxic doses of rotenone. The results revealed a complex pleiotropic response to rotenone that impacts a variety of cellular events, including cell cycle, DNA damage response, proliferation, differentiation, senescence and cell death, which could lead to survival or neurodegeneration depending on the dose and time of exposure and cell phenotype. The response encompasses an array of physiological pathways, modulated by transcriptional and epigenetic regulatory networks, likely activated by homeostatic alterations. Pathways that incorporate the contribution of MT destabilization to rotenone toxicity are suggested to explain complex I-independent rotenone-induced alterations of metabolism and redox homeostasis. The postulated mechanisms involve the blockage of mitochondrial voltage-dependent anions channels (VDACs) by tubulin, which coupled with other rotenone-induced organelle dysfunctions may underlie many presumed neurodegeneration mechanisms associated with pathophysiological aspects of various NDs including PD, AD and their variant forms. Thus, further investigation of such pathways may help identify novel therapeutic paths for these NDs.

Published

2012

6. Effect of rotenone-induced stress on physiologically active substances in adult Aphis glycines.

Author

Han, Lanlan, Gao, Litong, Hao, Ziru, Zhao, Kuijun, Zhang, Wenlin, Chen, Juan, Xiao, Jianfei, Zhang, Aonan, Shi, Zhenghao, and Zhu, Lin

Subjects

*APHIS glycines, *TREHALOSE, *ROTENONE, *CYTOCHROME P-450, *AMINO acids, *APHIDS, *CYTOCHROME oxidase, *GLUTATHIONE

Abstract

The aim of this study was to determine the effect of rotenone stress on Aphis glycines Matsumura (Hemiptera: Aphididae) populations in different habitats of Northeast China. The changes in kinase expression activity of endogenous substances (proteins, total sugars, trehalose, cholesterol, and free amino acids), detoxifying enzymes (cytochrome P450 and glutathione S-transferase), and metabolic enzymes (proteases and phosphofructokinases) in specimens from three populations were compared before and after stress with rotenone at median lethal concentration (LC50) and their response mechanisms were analyzed. Following a 24 h treatment with rotenone, the average LC50 rotenone values in A. glycines specimens from field populations A and B, and a laboratory population were 4.39, 4.61, and 4.03 mg/L, respectively. The degree of changes in the kinase expression activity of endogenous substances also differed, which indicated a difference in the response of A. glycines specimens from varying habitats to LC50 rotenone stress. The content of endogenous substances, detoxifying enzymes, and metabolic enzymes, except for that of free amino acids, changed significantly in all populations treated with rotenone at LC50 compared with that in the control (P < 0.05). The decrease in protein and trehalose content, and the obstruction of cholesterol transportation owing to decreased feeding in stressed individuals were the causes of A. glycines death after rotenone treatment. Aphis glycines resistance to rotenone may be related to cytochrome P450 expression. [ABSTRACT FROM AUTHOR]

Published

2020

7. Rotenone causes mitochondrial dysfunction and prevents maturation in porcine oocytes

Author

Geun Heo, Ming-Hong Sun, Wen-Jie Jiang, Xiao-Han Li, Song-Hee Lee, Jing Guo, Dongjie Zhou, and Xiang-Shun Cui

Subjects

Multidisciplinary, Cumulus Cells, Swine, Rotenone, Oocytes, Animals, Female, Reactive Oxygen Species, Mitochondria

Abstract

Rotenone is a commonly used insecticidal chemical in agriculture and it is an inhibitor of mitochondrial complex Ⅰ. Previous studies have found that rotenone induces the production of reactive oxygen species (ROS) by inhibiting electron transport in the mitochondria of somatic and germ cells. However, there is little precise information on the effects of rotenone exposure in porcine oocytes during in vitro maturation, and the mechanisms underlying these effects have not been determined. The Cumulus-oocyte complexes were supplemented with different concentrations of rotenone to elucidate the effects of rotenone exposure on the meiotic maturation of porcine oocytes during in vitro maturation for about 48 hours. First, we found that the maturation rate and expansion of cumulus cells were significantly reduced in the 3 and 5 μM rotenone-treated groups. Subsequently, the concentration of rotenone was determined to be 3 μM. Also, immunofluorescence, western blotting, and image quantification analyses were performed to test the rotenone exposure on the meiotic maturation, total and mitochondrial ROS, mitochondrial function and biogenesis, mitophagy and apoptosis in porcine oocytes. Further experiments showed that rotenone treatment induced mitochondrial dysfunction and failure of mitochondrial biogenesis by repressing the level of SIRT1 during in vitro maturation of porcine oocytes. In addition, rotenone treatment reduced the ratio of active mitochondria to total mitochondria, increased ROS production, and decreased ATP production. The levels of LC3 and active-caspase 3 were significantly increased by rotenone treatment, indicating that mitochondrial dysfunction induced by rotenone increased mitophagy but eventually led to apoptosis. Collectively, these results suggest that rotenone interferes with porcine oocyte maturation by inhibiting mitochondrial function.

Published

2022

8. Complex I inhibition augments dichloroacetate cytotoxicity through enhancing oxidative stress in VM-M3 glioblastoma cells.

Author

Ward, Nathan P., Poff, Angela M., Koutnik, Andrew P., and D’Agostino, Dominic P.

Subjects

*GLIOBLASTOMA multiforme, *CELL-mediated cytotoxicity, *OXIDATIVE stress, *HYPOGLYCEMIC agents, *ROTENONE

Abstract

The robust glycolytic metabolism of glioblastoma multiforme (GBM) has proven them susceptible to increases in oxidative metabolism induced by the pyruvate mimetic dichloroacetate (DCA). Recent reports demonstrate that the anti-diabetic drug metformin enhances the damaging oxidative stress associated with DCA treatment in cancer cells. We sought to elucidate the role of metformin’s reported activity as a mitochondrial complex I inhibitor in the enhancement of DCA cytotoxicity in VM-M3 GBM cells. Metformin potentiated DCA-induced superoxide production, which was required for enhanced cytotoxicity towards VM-M3 cells observed with the combination. Similarly, rotenone enhanced oxidative stress resultant from DCA treatment and this too was required for the noted augmentation of cytotoxicity. Adenosine monophosphate kinase (AMPK) activation was not observed with the concentration of metformin required to enhance DCA activity. Moreover, addition of an activator of AMPK did not enhance DCA cytotoxicity, whereas an inhibitor of AMPK heightened the cytotoxicity of the combination. Our data indicate that metformin enhancement of DCA cytotoxicity is dependent on complex I inhibition. Particularly, that complex I inhibition cooperates with DCA-induction of glucose oxidation to enhance cytotoxic oxidative stress in VM-M3 GBM cells. [ABSTRACT FROM AUTHOR]

Published

2017

9. Rotenone Decreases Hatching Success in Brine Shrimp Embryos by Blocking Development: Implications for Zooplankton Egg Banks.

Author

Covi, Joseph A., Hutchison, Evan R., Neumeyer, Courtney H., and Gunderson, Matthew D.

Subjects

*ROTENONE, *BENZOPYRANS, *ARTEMIA, *EMBRYOS, *ELECTRON transport

Abstract

While many zooplankton species recover quickly after the treatment of water resources with the piscicide, rotenone, some fail to reach pretreatment population density or, in rare cases, do not reappear at all. The variable impact of rotenone on zooplankton populations could stem from differences in the capacity of species to switch entirely to anaerobic catabolic pathways in the presence of rotenone, which blocks mitochondrial electron transport. Alternatively, variable responses among species could originate from differences in permeability of dormant life-stages to lipophilic chemicals like rotenone. The purpose of the present study was to determine the effects of rotenone on development, emergence and hatching of zooplankton embryos that lack both the anaerobic capacity to develop in the presence of rotenone and a permeability barrier to prevent the entry of rotenone during dormancy. Post-diapause embryos of the brine shrimp, Artemia franciscana, were employed as a model system, because they are permeable to lipophilic compounds when dechorionated and require aerobic conditions to support development. Early development in this species is also well characterized in the literature. Brine shrimp embryos were exposed to rotenone while development was either slowed by chilling or suspended by anoxia. Development, emergence and hatching were then observed in rotenone-free artificial seawater. The data presented demonstrate that rotenone freely diffuses across the embryonic cuticle in a matter of hours, and prevents development and emergence after brief exposures to ecologically relevant concentrations (0.025–0.5 mg L-1) of the piscicide. Neither the removal of rotenone from the environment, nor the removal of embryonic water with a hypertonic solution, are sufficient to reverse this block on development and emergence. These data indicate that rotenone could impair recruitment from egg banks for species of zooplankton that lack both an embryonic barrier to the entry of lipophilic compounds and the anaerobic capacity to develop when NADH:ubiquinone oxidoreductase activity is inhibited by rotenone. [ABSTRACT FROM AUTHOR]

Published

2016

10. Rotenone Susceptibility Phenotype in Olfactory Derived Patient Cells as a Model of Idiopathic Parkinson’s Disease.

Author

Murtaza, M., Shan, J., Matigian, N., Todorovic, M., Cook, A. L., Ravishankar, S., Dong, L. F., Neuzil, J., Silburn, P., Mackay-Sim, A., Mellick, G. D., and Wood, S. A.

Subjects

*ETIOLOGY of Parkinson's disease, *ROTENONE, *PHENOTYPES, *NEURODEGENERATION, *AGE factors in disease, *DISEASE susceptibility, *OXIDATIVE stress

Abstract

Parkinson’s disease is a complex age-related neurodegenerative disorder. Approximately 90% of Parkinson’s disease cases are idiopathic, of unknown origin. The aetiology of Parkinson’s disease is not fully understood but increasing evidence implies a failure in fundamental cellular processes including mitochondrial dysfunction and increased oxidative stress. To dissect the cellular events underlying idiopathic Parkinson’s disease, we use primary cell lines established from the olfactory mucosa of Parkinson’s disease patients. Previous metabolic and transcriptomic analyses identified deficiencies in stress response pathways in patient-derived cell lines. The aim of this study was to investigate whether these deficiencies manifested as increased susceptibility, as measured by cell viability, to a range of extrinsic stressors. We identified that patient-derived cells are more sensitive to mitochondrial complex I inhibition and hydrogen peroxide induced oxidative stress, than controls. Exposure to low levels (50 nM) of rotenone led to increased apoptosis in patient-derived cells. We identified an endogenous deficit in mitochondrial complex I in patient-derived cells, but this did not directly correlate with rotenone-sensitivity. We further characterized the sensitivity to rotenone and identified that it was partly associated with heat shock protein 27 levels. Finally, transcriptomic analysis following rotenone exposure revealed that patient-derived cells express a diminished response to rotenone-induced stress compared with cells from healthy controls. Our cellular model of idiopathic Parkinson’s disease displays a clear susceptibility phenotype to mitochondrial stress. The determination of molecular mechanisms underpinning this susceptibility may lead to the identification of biomarkers for either disease onset or progression. [ABSTRACT FROM AUTHOR]

Published

2016

11. Synergistic Activity of Deguelin and Fludarabine in Cells from Chronic Lymphocytic Leukemia Patients and in the New Zealand Black Murine Model.

Author

Rebolleda, Nerea, Losada-Fernandez, Ignacio, Perez-Chacon, Gema, Castejon, Raquel, Rosado, Silvia, Morado, Marta, Vallejo-Cremades, Maria Teresa, Martinez, Andrea, Vargas-Nuñez, Juan A., and Perez-Aciego, Paloma

Subjects

*CHRONIC lymphocytic leukemia treatment, *FLUDARABINE, *ROTENONE, *DRUG synergism, *LABORATORY mice, *THERAPEUTICS

Abstract

B-cell chronic lymphocytic leukemia (CLL) remains an incurable disease, and despite the improvement achieved by therapeutic regimes developed over the last years still a subset of patients face a rather poor prognosis and will eventually relapse and become refractory to therapy. The natural rotenoid deguelin has been shown to induce apoptosis in several cancer cells and cell lines, including primary human CLL cells, and to act as a chemopreventive agent in animal models of induced carcinogenesis. In this work, we show that deguelin induces apoptosis in vitro in primary human CLL cells and in CLL-like cells from the New Zealand Black (NZB) mouse strain. In both of them, deguelin dowregulates AKT, NFκB and several downstream antiapoptotic proteins (XIAP, cIAP, BCL2, BCL-XL and survivin), activating the mitochondrial pathway of apoptosis. Moreover, deguelin inhibits stromal cell-mediated c-Myc upregulation and resistance to fludarabine, increasing fludarabine induced DNA damage. We further show that deguelin has activity in vivo against NZB CLL-like cells in an experimental model of CLL in young NZB mice transplanted with spleen cells from aged NZB mice with lymphoproliferation. Moreover, the combination of deguelin and fludarabine in this model prolonged the survival of transplanted mice at doses of both compounds that were ineffective when administered individually. These results suggest deguelin could have potential for the treatment of human CLL. [ABSTRACT FROM AUTHOR]

Published

2016

12. Enhancing Beta-Catenin Activity via GSK3beta Inhibition Protects PC12 Cells against Rotenone Toxicity through Nurr1 Induction.

Author

Zhang, Limin, Cen, Luan, Qu, Shaogang, Wei, Lei, Mo, Mingshu, Feng, Junmin, Sun, Congcong, Xiao, Yousheng, Luo, Qin, Li, Shaomin, Yang, Xinling, and Xu, Pingyi

Subjects

*PARKINSON'S disease treatment, *CATENINS, *GLYCOGEN synthase kinase-3, *ROTENONE, *TOXICOLOGY of insecticides, *NUCLEAR receptors (Biochemistry)

Abstract

Parkinson’s disease (PD) is characterized by progressive degeneration of dopaminergic (DA) neurons in the substantial nigra pars compacta. Increasing evidence showed that Wnt/β-catenin pathway and the orphan nuclear receptor Nurr1 play crucial roles in the survival and functional maintenance of DA neurons in the midbrain and GSK-3β antagonists LiCl and SB216763 were used to activate Wnt/β-catenin pathway experimentally. However, the detail mechanism underlying the neuroprotection against apoptosis on DA neuron is still unclear and the interaction between Wnt/β-catenin and Nurr1 remains undisclosed. In this study, using cell biological assay we investigated the function of Wnt/β-catenin and its crosstalk with Nurr1 on the course of PC12 cell degeneration in vitro. Our data showed that PC12 cell viability was inhibited by rotenone, but attenuated by GSK-3β antagonists LiCl or SB216763. The activity of Wnt/β-catenin pathway was deregulated on exposure of rotenone in a concentration-dependent manner. After the interference of β-catenin with siRNA, LiCl or SB216763 failed to protect PC12 cells from apoptosis by the rotenone toxicity. Our data confirmed that Wnt/β-catenin signaling activated by LiCl or SB216763 enhanced Nurr1 expression to 2.75 ± 0.55 and 4.06 ± 0.41 folds respectively compared with control detected by real-time PCR and the interaction of β-catenin with Nurr1 was identified by co-immunoprecipitate analysis. In conclusion, the data suggested that Wnt/β-catenin and Nurr1 are crucial factors in the survival of DA neurons, and the activation of Wnt/β-catenin pathway exerts protective effects on DA neurons partly by mean of a co-active pattern with Nurr1. This finding may shed a light on the potential treatment of Parkinson disease. [ABSTRACT FROM AUTHOR]

Published

2016

13. An Assessment of the Effect of Rotenone on Selected Non-Target Aquatic Fauna.

Author

Dalu, Tatenda, Wasserman, Ryan J., Jordaan, Martine, Froneman, William P., and Weyl, Olaf L. F.

Subjects

*ROTENONE, *INTRODUCED species, *INTRODUCED animals, *AQUATIC animals, *INVERTEBRATES

Abstract

Rotenone, a naturally occurring ketone, is widely employed for the management of invasive fish species. The use of rotenone poses serious challenges to conservation practitioners due to its impacts on non-target organisms including amphibians and macroinvertebrates. Using laboratory studies, we investigated the effects of different rotenone concentrations (0, 12.5, 25, 37.5, 50, 100 μg L-1) on selected invertebrate groups; Aeshnidae, Belostomatids, Decapods, Ephemeroptera, Pulmonata and zooplankton over a period of 18 hours. Based on field observations and body size, we hypothesized that Ephemeropterans and zooplankton would be more susceptible to rotenone than Decapods, Belostomatids and snails. Experimental results supported this hypothesis and mortality and behaviour effects varied considerably between taxa, ranging from no effect (crab Potamonuates sidneyi) to 100% mortality (Daphnia pulex and Paradiaptomus lamellatus). Planktonic invertebrates were particularly sensitive to rotenone even at very low concentrations. Future research should investigate the recovery time of invertebrate communities after the application of rotenone and conduct field assessments assessing the longer term effects of rotenone exposure on the population dynamics of those less sensitive organisms. [ABSTRACT FROM AUTHOR]

Published

2015

14. Quercetin exhibits potent antioxidant activity, restores motor and non-motor deficits induced by rotenone toxicity

Author

Saida Haider, Sadia Sadir, Zehra Batool, Laraib Liaquat, Amber Nawaz, Sidrah Shahzad, Irfan Sajid, Sarwat Yousuf, Saiqa Tabassum, Sadia Saleem, Asia Afzal, Saara Ahmad, Fizza Naqvi, and Syeda Madiha

Subjects

Male, Antioxidant, medicine.medical_treatment, Social Sciences, Pharmacology, medicine.disease_cause, Biochemistry, Hippocampus, Antioxidants, chemistry.chemical_compound, Cognition, Medical Conditions, Mathematical and Statistical Techniques, Medicine and Health Sciences, Psychology, heterocyclic compounds, Neurotransmitter, Mammals, Neurotransmitter Agents, Multidisciplinary, Movement Disorders, Behavior, Animal, Depression, Neurodegeneration, Statistics, Eukaryota, Brain, Neurodegenerative Diseases, Parkinson Disease, Animal Models, Neuroprotective Agents, Treatment Outcome, Neurology, Experimental Organism Systems, Toxicity, Vertebrates, Physical Sciences, Medicine, Quercetin, Anatomy, Signal Transduction, Research Article, Science, Motor Activity, Research and Analysis Methods, Rodents, Neurochemical, Model Organisms, Rotenone, medicine, Animals, Cognitive Dysfunction, Parkinson Disease, Secondary, Rats, Wistar, Statistical Methods, Analysis of Variance, Behavior, business.industry, Organisms, Biology and Life Sciences, Cell Biology, medicine.disease, Rats, Neostriatum, Disease Models, Animal, Oxidative Stress, chemistry, Amniotes, Animal Studies, business, Zoology, Oxidative stress, Mathematics

Abstract

The rotenone-induced animal model of Parkinson’s disease (PD) has been used to investigate the pathogenesis of PD. Oxidative stress is one of the main contributors of neurodegeneration in PD. Flavonoids have the potential to modulate neuronal function and combat various neurodegenerative diseases. The pre- and post-supplementation of quercetin (50 mg/kg, p.o) was done in rats injected with rotenone (1.5 mg/kg, s.c). After the treatment, behavioral activities were monitored for motor activity, depression-like behavior, and cognitive changes. Rats were decapitated after behavioral analysis and the brain samples were dissected out for neurochemical and biochemical estimation. Results showed that supplementation of quercetin significantly (ppp

Published

2021

15. Mitochondria and NMDA Receptor-Dependent Toxicity of Berberine Sensitizes Neurons to Glutamate and Rotenone Injury.

Author

Kysenius, Kai, Brunello, Cecilia A., and Huttunen, Henri J.

Subjects

*MITOCHONDRIAL pathology, *METHYL aspartate receptors, *NEUROTOXICOLOGY, *CENTRAL nervous system injuries, *BERBERINE, *NEURONS, *GLUTAMATE receptors, *ROTENONE, *THERAPEUTICS

Abstract

The global incidence of metabolic and age-related diseases, including type 2 diabetes and Alzheimer's disease, is on the rise. In addition to traditional pharmacotherapy, drug candidates from complementary and alternative medicine are actively being pursued for further drug development. Berberine, a nutraceutical traditionally used as an antibiotic, has recently been proposed to act as a multi-target protective agent against type 2 diabetes, dyslipidemias, ischemic brain injury and neurodegenerative diseases, such as Parkinson's and Alzheimer's disease. However, the safety profile of berberine remains controversial, as isolated reports suggest risks with acute toxicity, bradycardia and exacerbation of neurodegeneration. We report that low micromolar berberine causes rapid mitochondria-dependent toxicity in primary neurons characterized by mitochondrial swelling, increased oxidative stress, decreased mitochondrial membrane potential and depletion of ATP content. Berberine does not induce caspase-3 activation and the resulting neurotoxicity remains unaffected by pan-caspase inhibitor treatment. Interestingly, inhibition of NMDA receptors by memantine and MK-801 completely blocked berberine-induced neurotoxicity. Additionally, subtoxic nanomolar concentrations of berberine were sufficient to sensitize neurons to glutamate excitotoxicity and rotenone injury. Our study highlights the need for further safety assessment of berberine, especially due to its tendency to accumulate in the CNS and the risk of potential neurotoxicity as a consequence of increasing bioavailability of berberine. [ABSTRACT FROM AUTHOR]

Published

2014

16. Automated Quantification and Integrative Analysis of 2D and 3D Mitochondrial Shape and Network Properties.

Author

Nikolaisen, Julie, Nilsson, Linn I. H., Pettersen, Ina K. N., Willems, Peter H. G. M., Lorens, James B., Koopman, Werner J. H., and Tronstad, Karl J.

Subjects

*MITOCHONDRIAL physiology, *CELL physiology, *CELL morphology, *ENDOTHELIAL cells, *PHYSIOLOGICAL stress, *GREEN fluorescent protein, *ROTENONE

Abstract

Mitochondrial morphology and function are coupled in healthy cells, during pathological conditions and (adaptation to) endogenous and exogenous stress. In this sense mitochondrial shape can range from small globular compartments to complex filamentous networks, even within the same cell. Understanding how mitochondrial morphological changes (i.e. “mitochondrial dynamics”) are linked to cellular (patho) physiology is currently the subject of intense study and requires detailed quantitative information. During the last decade, various computational approaches have been developed for automated 2-dimensional (2D) analysis of mitochondrial morphology and number in microscopy images. Although these strategies are well suited for analysis of adhering cells with a flat morphology they are not applicable for thicker cells, which require a three-dimensional (3D) image acquisition and analysis procedure. Here we developed and validated an automated image analysis algorithm allowing simultaneous 3D quantification of mitochondrial morphology and network properties in human endothelial cells (HUVECs). Cells expressing a mitochondria-targeted green fluorescence protein (mitoGFP) were visualized by 3D confocal microscopy and mitochondrial morphology was quantified using both the established 2D method and the new 3D strategy. We demonstrate that both analyses can be used to characterize and discriminate between various mitochondrial morphologies and network properties. However, the results from 2D and 3D analysis were not equivalent when filamentous mitochondria in normal HUVECs were compared with circular/spherical mitochondria in metabolically stressed HUVECs treated with rotenone (ROT). 2D quantification suggested that metabolic stress induced mitochondrial fragmentation and loss of biomass. In contrast, 3D analysis revealed that the mitochondrial network structure was dissolved without affecting the amount and size of the organelles. Thus, our results demonstrate that 3D imaging and quantification are crucial for proper understanding of mitochondrial shape and topology in non-flat cells. In summary, we here present an integrative method for unbiased 3D quantification of mitochondrial shape and network properties in mammalian cells. [ABSTRACT FROM AUTHOR]

Published

2014

17. Rifampicin Protects PC12 Cells from Rotenone-Induced Cytotoxicity by Activating GRP78 via PERK-eIF2α-ATF4 Pathway.

Author

Jing, Xiuna, Shi, Qiaoyun, Bi, Wei, Zeng, Zhifen, Liang, Yanran, Wu, Xia, Xiao, Songhua, Liu, Jun, Yang, Lianhong, and Tao, Enxiang

Subjects

*RIFAMPIN, *CELL-mediated cytotoxicity, *ROTENONE, *PARKINSON'S disease, *NEUROPROTECTIVE agents, *PROTEIN folding

Abstract

Rifampicin has been proposed as a therapeutic candidate for Parkinson's disease (PD). We previously showed that rifampicin was neuroprotective in PD models in vivo and in vitro. However, the molecular mechanisms underlying are not fully elucidated. In this study, using the comprehensive proteomic analysis, we identified that the 78 kDa glucose-regulated protein (GRP78), a hallmark of the unfolded protein response (UPR), was upregulated in rifampicin-treated PC12 cells. Western blot analysis confirmed GRP78 activation. GRP78 functions cytoprotectively in stressed cells, therefore, we hypothesized that GRP78 mediated rifampicin-induced neuroprotection. Using RNA interference, we found that GRP78 gene knockdown significantly attenuated the neuroprotective effects of rifampicin. Next, we examined three UPR transducers, namely, protein kinase RNA-like endoplasmic reticulum kinase (PERK), inositol requiring kinase α (IREα) and activating transcription factor 6 (ATF 6), and how they regulated rifampicin-stimulated GRP78 expression. Our results showed that PERK, eukaryotic initiation factor 2α (eIF2α), and activating transcription factor 4 (ATF4) were activated in rifampicin-treated PC12 cells. Silencing the ATF4 gene using RNAi inhibited GRP78 stimulation. Interestingly, we did not detect significant IREα activation, X-box binding protein 1 mRNA splicing, or ATF6 cleavage up to 24 h after rifampicin treatment. Taken together, our data suggested that rifampicin induced GRP78 via the PERK-eIF2α-ATF4 pathway to protect neurons against rotenone-induced cell damage. Targeting molecules in this pathway could be a novel therapeutic approach for PD treatment. [ABSTRACT FROM AUTHOR]

Published

2014

18. Unexpected Improvements of Spatial Learning and Memory Abilities in Chronic Rotenone Intoxicated Mice.

Author

Jia, Fengju, Song, Ning, Zhao, Chenyang, Xie, Junxia, and Jiang, Hong

Subjects

*LEARNING ability, *MEMORY, *ROTENONE, *LABORATORY mice, *PARKINSON'S disease, *IMMUNOFLUORESCENCE, *TOXICITY testing

Abstract

The liposoluble insecticide rotenone is commonly used as a mitochondrial complex I inhibitor to replicate Parkinson's disease (PD) pathological features. However, there was no assessment of the spatial learning and memory abilities in chronic rotenone-induced PD models. In the present study, by rotarod test and Thioflavine T staining, we first noted the impairment of motor coordination in rotenone-treated group for 3 months, as well as alpha-synuclein inclusions in the nigral dopaminergic neurons in C57BL/6 mice with intragastrical delivery of rotenone (5 mg/Kg) for 3 months rather than 1 month. We then evaluated spatial learning and memory abilities by Morris water maze task in this model. The results showed escape latency reduced in rotenone-intoxicated mice for 3 months, indicating an improvement of learning ability. However, it was delayed slightly but not significantly in rotenone-intoxicated mice for 1 month. Similarly, we demonstrated that spatial memory ability was enhanced in 3-month-treatment group, but impaired in 1-month-treatment group. There were no proliferating cell nuclear antigen and doublecortin positive cells in the hippocampus by double immunofluorescent staining, indicating the absence of hippocampal neurogenesis in rotenone-intoxicated mice. These results suggest that spatial learning and memory abilities are disturbed in chronic rotenone-intoxicated PD model. [ABSTRACT FROM AUTHOR]

Published

2014

19. Reactive oxygen species from mitochondria impacts trophoblast fusion and the production of endocrine hormones by syncytiotrophoblasts

Author

Mohamed Adam, O’Llenecia S. Walker, Rehginald Ragos, Anson Cheung, Michael K. Wong, and Sandeep Raha

Subjects

0301 basic medicine, Mitochondrial ROS, Embryology, Placenta, Maternal Health, MFN2, Syncytiotrophoblasts, Mitochondrion, medicine.disease_cause, Biochemistry, Cell Fusion, 0302 clinical medicine, Pregnancy, Medicine and Health Sciences, Energy-Producing Organelles, Cells, Cultured, Cellular Stress Responses, chemistry.chemical_classification, Membrane Potential, Mitochondrial, 030219 obstetrics & reproductive medicine, Multidisciplinary, Obstetrics and Gynecology, Cell Differentiation, Cell biology, Mitochondria, Trophoblasts, Cell Processes, embryonic structures, Medicine, Mitochondrial fission, Female, Cellular Structures and Organelles, Anatomy, Research Article, Signal Transduction, Cell Physiology, Science, Bioenergetics, 03 medical and health sciences, Human placental lactogen, Rotenone, medicine, Humans, Reactive oxygen species, Reproductive System, Biology and Life Sciences, Cell Biology, Oxidative Stress, 030104 developmental biology, chemistry, Women's Health, Blastocysts, Placental Hormones, Reactive Oxygen Species, Oxidative stress, Developmental Biology

Abstract

The placenta, a tissue that is metabolically active and rich in mitochondria, forms a critical interface between the mother and developing fetus. Oxidative stress within this tissue, derived from the dysregulation of reactive oxygen species (ROS), has been linked to a number of adverse fetal outcomes. While such outcomes have been associated with mitochondrial dysfunction, the causal role of mitochondrial dysfunction and mitochondrially generated ROS in altering the process of placentation remains unclear. In this study, mitochondrial complex I activity was attenuated using 10 nM rotenone to induce cellular oxidative stress by increasing mitochondrial ROS production in the BeWo choriocarcinoma cell line. Increased mitochondrial ROS resulted in a significant decrease in the transcripts which encode for proteins associated with fusion (GCM1, ERVW-1, and ERVFRD-1) resulting in a 5-fold decrease in the percentage of BeWo fusion. This outcome was associated with increased indicators of mitochondrial fragmentation, as determined by decreased expression of MFN2 and OPA1 along with an increase in a marker of mitochondrial fission (DRP1). Importantly, increased mitochondrial ROS also resulted in a 5.0-fold reduction of human placental lactogen (PL) and a 4.4-fold reduction of insulin like growth factor 2 (IGF2) transcripts; hormones which play an important role in regulating fetal growth. The pre-treatment of rotenone-exposed cells with 5 mM N-acetyl cysteine (NAC) resulted in the prevention of these ROS mediated changes in BeWo function and supports a central role for mitochondrial ROS signaling in the maintenance and function of the materno-fetal interface.

Published

2020

20. Effect of rotenone-induced stress on physiologically active substances in adult Aphis glycines

Author

Zhenghao Shi, Ziru Hao, Litong Gao, Lanlan Han, Jianfei Xiao, Aonan Zhang, Wenlin Zhang, Lin Zhu, Kuijun Zhao, and Juan Chen

Subjects

0106 biological sciences, 0301 basic medicine, Endogeny, Disaccharides, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Phosphofructokinases, Amino Acids, Protein Metabolism, education.field_of_study, Multidisciplinary, biology, Organic Compounds, Agriculture, Proteases, Lipids, Enzymes, Chemistry, Cholesterol, Physical Sciences, Medicine, Insect Proteins, Research Article, Science, Population, Glycine, Carbohydrates, Crops, Insect Physiology, 03 medical and health sciences, Stress, Physiological, Rotenone, Animals, Animal Physiology, education, Ecosystem, Invertebrate Physiology, Organic Chemistry, Chemical Compounds, Cytochrome P450, Trehalose, Biology and Life Sciences, Proteins, Glutathione, 010602 entomology, 030104 developmental biology, Metabolism, chemistry, Aliphatic Amino Acids, Aphids, biology.protein, Enzymology, Pest Control, Soybean, Zoology, Entomology, Crop Science

Abstract

The aim of this study was to determine the effect of rotenone stress on Aphis glycines Matsumura (Hemiptera: Aphididae) populations in different habitats of Northeast China. The changes in kinase expression activity of endogenous substances (proteins, total sugars, trehalose, cholesterol, and free amino acids), detoxifying enzymes (cytochrome P450 and glutathione S-transferase), and metabolic enzymes (proteases and phosphofructokinases) in specimens from three populations were compared before and after stress with rotenone at median lethal concentration (LC50) and their response mechanisms were analyzed. Following a 24 h treatment with rotenone, the average LC50 rotenone values in A. glycines specimens from field populations A and B, and a laboratory population were 4.39, 4.61, and 4.03 mg/L, respectively. The degree of changes in the kinase expression activity of endogenous substances also differed, which indicated a difference in the response of A. glycines specimens from varying habitats to LC50 rotenone stress. The content of endogenous substances, detoxifying enzymes, and metabolic enzymes, except for that of free amino acids, changed significantly in all populations treated with rotenone at LC50 compared with that in the control (P < 0.05). The decrease in protein and trehalose content, and the obstruction of cholesterol transportation owing to decreased feeding in stressed individuals were the causes of A. glycines death after rotenone treatment. Aphis glycines resistance to rotenone may be related to cytochrome P450 expression.

Published

2020

21. Engraftment of Mouse Embryonic Stem Cells Differentiated by Default Leads to Neuroprotection, Behaviour Revival and Astrogliosis in Parkinsonian Rats.

Author

Tripathy, Debasmita, Haobam, Reena, Nair, Ranju, and Mohanakumar, Kochupurackal P.

Subjects

*EMBRYONIC stem cells, *CELL differentiation, *LABORATORY mice, *ANIMAL behavior, *PARKINSONIAN disorders, *ROTENONE

Abstract

We report here protection against rotenone-induced behavioural dysfunction, striatal dopamine depletion and nigral neuronal loss, following intra-striatal transplantation of neurons differentiated from murine embryonic stem cells (mES). mES maintained in serum free medium exhibited increase in neuronal, and decrease in stem cell markers by 7th and 10th days as revealed by RT-PCR and immunoblot analyses. Tyrosine hydroxylase, NURR1, PITX3, LMX1b and c-RET mRNA showed a significant higher expression in differentiated cells than in mES. Dopamine level was increased by 3-fold on 10th day as compared to 7 days differentiated cells. Severity of rotenone-induced striatal dopamine loss was attenuated, and amphetamine-induced unilateral rotations were significantly reduced in animals transplanted with 7 days differentiated cells, but not in animals that received undifferentiated ES transplant. However, the ratio of contralateral to ipsilateral swings in elevated body swing test was significantly reduced in both the transplanted groups, as compared to control. Striatal grafts exhibited the presence of tyrosine hydroxylase positive cells, and the percentage of dopaminergic neurons in the substantia nigra was also found to be higher in the ipsilateral side of 7 days and mES grafted animals. Increased expression of CD11b and IBA-1, suggested a significant contribution of these microglia-derived factors in controlling the limited survival of the grafted cells. Astrocytosis in the grafted striatum, and significant increase in the levels of glial cell line derived neurotrophic factor may have contributed to the recovery observed in the hemiparkinsonian rats following transplantation. [ABSTRACT FROM AUTHOR]

Published

2013

22. Rotenone Directly Induces BV2 Cell Activation via the p38 MAPK Pathway.

Author

Gao, Feng, Chen, Dong, Hu, Qingsong, and Wang, Guanghui

Subjects

*PARKINSON'S disease, *ROTENONE, *MITOGEN-activated protein kinases, *ENVIRONMENTAL toxicology, *MITOCHONDRIAL pathology, *CELLULAR signal transduction, *INFLAMMATION

Abstract

Parkinson’s disease (PD) is the second most common neurodegenerative disease. Although its pathogenesis is still unclear, increasing evidence suggests that mitochondrial dysfunction induced by environmental toxins, such as mitochondrial complex I inhibitors, plays a significant role in the disease process. The microglia in PD brains are highly activated, and inflammation is also an essential element in PD pathogenesis. However, the means by which these toxins activate microglia is still unclear. In the present study, we found that rotenone, a mitochondrial complex I inhibitor, could directly activate microglia via the nuclear factor kappa B (NF-κB) signaling pathway, thereby inducing significantly increased expression of inflammatory cytokines. We further observed that rotenone induced caspase-1 activation and mature IL-1β release, both of which are strictly dependent on p38 mitogen-activated protein kinase (MAPK). The activation of p38 is associated with the presence of reactive oxygen species (ROS) produced by rotenone. Removal of these ROS abrogated the activation of the microglia. Therefore, our data suggest that the environmental toxin rotenone can directly activate microglia through the p38 MAPK pathway. [ABSTRACT FROM AUTHOR]

Published

2013

23. The Natural Pesticide Dihydrorotenone Induces Human Plasma Cell Apoptosis by Triggering Endoplasmic Reticulum Stress and Activating p38 Signaling Pathway.

Author

Zhang, Jieyu, Tang, Juan, Cao, Biyin, Zhang, Zubin, Li, Jie, Schimmer, Aaron D., He, Sudan, and Mao, Xinliang

Subjects

*BIOPESTICIDES, *ROTENONE, *PLASMA cells, *APOPTOSIS, *ENDOPLASMIC reticulum, *PHYSIOLOGICAL stress, *CELLULAR signal transduction

Abstract

Dihydrorotenone (DHR) is a natural pesticide widely used in farming industry, such as organic produces. DHR is a potent mitochondrial inhibitor and probably induces Parkinsonian syndrome, however, it is not known whether DHR is toxic to other systems. In the present study, we evaluated the cytotoxicity of DHR on human plasma cells. As predicted, DHR impaired mitochondrial function by decreasing mitochondrial membrane potential in plasma cells. Because mito-dysfunction leads to unfolded protein response (UPR) and endoplasmic reticulum (ER) stress, we examined the signature proteins in ER stress, including GRP78, ATF4, and CHOP. After DHR treatment, these proteins were significantly upregulated. It is reported that activation of the mitogen-activated protein kinases p38 and JNK are involved in endoplasmic reticulum stress. However, in the subsequent study, DHR was found to activate p38 but not the JNK signaling. When pre-treated with p38 inhibitor SB203580, activation of p38 and cell apoptosis induced by DHR was partially blocked. Thus, we found that DHR induced human plasma cell death by activating the p38 but not the JNK signaling pathway. Because plasma cells are very important in the immune system, this study provided a new insight in the safety evaluation of DHR application. [ABSTRACT FROM AUTHOR]

Published

2013

24. Carbon Monoxide Abrogates Ischemic Insult to Neuronal Cells via the Soluble Guanylate Cyclase-cGMP Pathway.

Author

Schallner, Nils, Romão, Carlos C., Biermann, Julia, Lagrèze, Wolf A., Otterbein, Leo E., Buerkle, Hartmut, Loop, Torsten, and Goebel, Ulrich

Subjects

*NEURONS, *PHYSIOLOGICAL effects of carbon monoxide, *GUANYLATE cyclase, *CELLULAR signal transduction, *APOPTOSIS, *CYTOPROTECTION, *FLOW cytometry, *ROTENONE

Abstract

Purpose: Carbon monoxide (CO) is an accepted cytoprotective molecule. The extent and mechanisms of protection in neuronal systems have not been well studied. We hypothesized that delivery of CO via a novel releasing molecule (CORM) would impart neuroprotection in vivo against ischemia-reperfusion injury (IRI)-induced apoptosis of retinal ganglion cells (RGC) and in vitro of neuronal SH-SY5Y-cells via activation of soluble guanylate-cyclase (sGC). Methods: To mimic ischemic respiratory arrest, SH-SY5Y-cells were incubated with rotenone (100 nmol/L, 4 h) ± CORM ALF186 (10–100 µmol/L) or inactivated ALF186 lacking the potential of releasing CO. Apoptosis and reactive oxygen species (ROS) production were analyzed using flow-cytometry (Annexin V, mitochondrial membrane potential, CM-H2DCFDA) and Western blot (Caspase-3). The impact of ALF186± respiratory arrest on cell signaling was assessed by measuring expression of nitric oxide synthase (NOS) and soluble guanylate-cyclase (sGC) and by analyzing cellular cGMP levels. The effect of ALF186 (10 mg/kg iv) on retinal IRI in Sprague-Dawley rats was assessed by measuring densities of fluorogold-labeled RGC after IRI and by analysis of apoptosis-related genes in retinal tissue. Results: ALF186 but not inactivated ALF186 inhibited rotenone-induced apoptosis (Annexin V positive cells: 25±2% rotenone vs. 14±1% ALF186+rotenone, p<0.001; relative mitochondrial membrane potential: 17±4% rotenone vs. 55±3% ALF186+rotenone, p<0.05). ALF186 increased cellular cGMP levels (33±5 nmol/L vs. 23±3 nmol/L; p<0.05) and sGC expression. sGC-inhibition attenuated ALF186-mediated protection (relative mitochondrial membrane potential: 55±3% ALF186+rotenone vs. 20±1% ODQ+ALF186+rotenone, p<0.05). ALF186 protected RGC in vivo (IRI 1255±327 RGC/mm2 vs. ALF186+IRI 2036±83; p<0.05) while sGC inhibition abolished the protective effects of ALF186 (ALF186+IRI 2036±83 RGC/mm2 vs. NS-2028+ALF186+IRI 1263±170, p<0.05). Conclusions: The CORM ALF186 inhibits IRI-induced neuronal cell death via activation of sGC and may be a useful treatment option for acute ischemic insults to the retina and the brain. [ABSTRACT FROM AUTHOR]

Published

2013

25. Resveratrol Confers Protection against Rotenone-Induced Neurotoxicity by Modulating Myeloperoxidase Levels in Glial Cells.

Author

Chang, Chi Young, Choi, Dong-Kug, Lee, Dae Kee, Hong, Young Jun, and Park, Eun Jung

Subjects

*MYELOPEROXIDASE, *NEUROGLIA, *RESVERATROL, *ROTENONE, *NEUROTOXICOLOGY, *NITRIC oxide, *NERVOUS system injuries, *NEURONS, *NEUROIMMUNOLOGY

Abstract

Myeloperoxidase (MPO) functions as a key molecular component of the host defense system against diverse pathogens. We have previously reported that increased MPO levels and activity is a distinguishing feature of rotenone-exposed glial cells, and that either overactivation or deficiency of MPO leads to pathological conditions in the brain. Here, we provide that modulation of MPO levels in glia by resveratrol confers protective effects on rotenone-induced neurotoxicity. We show that resveratrol significantly reduced MPO levels but did not trigger abnormal nitric oxide (NO) production in microglia and astrocytes. Resveratrol-induced down-regulation of MPO, in the absence of an associated overproduction of NO, markedly attenuated rotenone-triggered inflammatory responses including phagocytic activity and reactive oxygen species production in primary microglia and astrocytes. In addition, impaired responses of primary mixed glia from Mpo−/− mice to rotenone were relieved by treatment with resveratrol. We further show that rotenone-induced neuronal injury, particularly dopaminergic cell death, was attenuated by resveratrol in neuron-glia co-cultures, but not in neurons cultured alone. Similar regulatory effects of resveratrol on MPO levels were observed in microglia treated with MPP+, another Parkinson’s disease-linked neurotoxin, supporting the beneficial effects of resveratrol on the brain. Collectively, our findings provide that resveratrol influences glial responses to rotenone by regulating both MPO and NO, and thus protects against rotenone-induced neuronal injury. [ABSTRACT FROM AUTHOR]

Published

2013

26. Distinct Effects of Rotenone, 1-methyl-4- phenylpyridinium and 6-hydroxydopamine on Cellular Bioenergetics and Cell Death.

Author

Giordano, Samantha, Jisun Lee, Darley-Usmar, Victor M., and Jianhua Zhang

Subjects

*ROTENONE, *DOPAMINERGIC mechanisms, *NEURODEGENERATION, *CELL death, *GLYCOLYSIS, RISK factors

Abstract

Parkinson's disease is characterized by dopaminergic neurodegeneration and is associated with mitochondrial dysfunction. The bioenergetic susceptibility of dopaminergic neurons to toxins which induce Parkinson's like syndromes in animal models is then of particular interest. For example, rotenone, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and its active metabolite 1-methyl-4-phenylpyridinium (MPP+), and 6-hydroxydopamine (6-OHDA), have been shown to induce dopaminergic cell death in vivo and in vitro. Exposure of animals to these compounds induce a range of responses characteristics of Parkinson's disease, including dopaminergic cell death, and Reactive Oxygen Species (ROS) production. Here we test the hypothesis that cellular bioenergetic dysfunction caused by these compounds correlates with induction of cell death in differentiated dopaminergic neuroblastoma SH-SY5Y cells. At increasing doses, rotenone induced significant cell death accompanied with caspase 3 activation. At these concentrations, rotenone had an immediate inhibition of mitochondrial basal oxygen consumption rate (OCR) concomitant with a decrease of ATP-linked OCR and reserve capacity, as well as a stimulation of glycolysis. MPP+ exhibited a different behavior with less pronounced cell death at doses that nearly eliminated basal and ATP-linked OCR. Interestingly, MPP+, unlike rotenone, stimulated bioenergetic reserve capacity. The effects of 6-OHDA on bioenergetic function was markedly less than the effects of rotenone or MPP+ at cytotoxic doses, suggesting a mechanism largely independent of bioenergetic dysfunction. These studies suggest that these dopaminergic neurotoxins induce cell death through distinct mechanisms and differential effects on cellular bioenergetics. [ABSTRACT FROM AUTHOR]

Published

2012

27. Assessment of Cr(VI)-Induced Cytotoxicity and Genotoxicity Using High Content Analysis.

Author

Thompson, Chad M., Fedorov, Yuriy, Brown, Daniel D., Suh, Mina, Proctor, Deborah M., Kuriakose, Liz, Haws, Laurie C., Harris, Mark A., and Baohong Zhang

Subjects

*HEXAVALENT chromium, *HYPERPLASIA, *INTESTINAL tumors, *HYDROGEN peroxide, *ROTENONE, *DNA damage, *NUCLEOLUS, *GENETIC toxicology

Abstract

Oral exposure to high concentrations of hexavalent chromium [Cr(VI)] induces intestinal redox changes, villus cytotoxicity, crypt hyperplasia, and intestinal tumors in mice. To assess the effects of Cr(VI) in a cell model relevant to the intestine, undifferentiated (proliferating) and differentiated (confluent) Caco- 2 cells were treated with Cr(VI), hydrogen peroxide or rotenone for 2-24 hours. DNA damage was then assessed by nuclear staining intensity of 8- hydroxydeoxyguanosine (8-OHdG) and phosphorylated histone variant H2AX (c-H2AX) measured by high content analysis methods. In undifferentiated Caco-2, all three chemicals increased 8-OHdG and c-H2AX staining at cytotoxic concentrations, whereas only 8-OHdG was elevated at non- cytotoxic concentrations at 24 hr. Differentiated Caco-2 were more resistant to cytotoxicity and DNA damage than undifferentiated cells, and there were no changes in apoptotic markers p53 or annexin-V. However, Cr(VI) induced a dose- dependent translocation of the unfolded protein response transcription factor ATF6 into the nucleus. Micronucleus (MN) formation was assessed in CHO-K1 and A549 cell lines. Cr(VI) increased MN frequency in CHO-K1 only at highly cytotoxic concentrations. Relative to the positive control Mitomycin-C, Cr(VI) only slightly increased MN frequency in A549 at mildly cytotoxic concentrations. The results demonstrate that Cr(VI) genotoxicity correlates with cytotoxic concentrations, and that H2AX phosphorylation occurs at higher concentrations than oxidative DNA damage in proliferating Caco-2 cells. The findings suggest that in vitro genotoxicity of Cr(VI) is primarily oxidative in nature at low concentrations. Implications for in vivo intestinal toxicity of Cr(VI) will be discussed. [ABSTRACT FROM AUTHOR]

Published

2012

28. No Immune Responses by the Expression of the Yeast Ndi1 Protein in Rats.

Author

Marella, Mathieu, Seo, Byoung Boo, Flotte, Terence R., Matsuno-Yagi, Akemi, and Yagi, Takao

Subjects

*YEAST, *ROTENONE, *IMMUNE response, *OXIDOREDUCTASES, *MITOCHONDRIA, *LABORATORY rats

Abstract

Background: The rotenone-insensitive internal NADH-quinone oxidoreductase from yeast, Ndi1, has been shown to work as a replacement molecule for complex I in the respiratory chain of mammalian mitochondria. In the so-called transkingdom gene therapy, one major concern is the fact that the yeast protein is foreign in mammals. Long term expression of Ndi1 observed in rodents with no apparent damage to the target tissue was indicative of no action by the host's immune system. Methodology/Principal Findings: In the present study, we examined rat skeletal muscles expressing Ndi1 for possible signs of inflammatory or immune response. In parallel, we carried out delivery of the GFP gene using the same viral vector that was used for the NDI1 gene. The tissues were subjected to H&E staining and immunohistochemical analyses using antibodies specific for markers, CD11b, CD3, CD4, and CD8. The data showed no detectable signs of an immune response with the tissues expressing Ndi1. In contrast, mild but distinctive positive reactions were observed in the tissues expressing GFP. This clear difference most likely comes from the difference in the location of the expressed protein. Ndi1 was localized to the mitochondria whereas GFP was in the cytosol. Conclusions/Significance: We demonstrated that Ndi1 expression did not trigger any inflammatory or immune response in rats. These results push forward the Ndi1-based molecular therapy and also expand the possibility of using foreign proteins that are directed to subcellular organelle such as mitochondria. [ABSTRACT FROM AUTHOR]

Published

2011

29. 14-3-3theta Protects against Neurotoxicity in a Cellular Parkinson's Disease Model through Inhibition of the Apoptotic Factor Bax.

Author

Slone, Sunny R., Lesort, Mathieu, and Yacoubian, Talene A.

Subjects

*NEUROTOXICOLOGY, *PARKINSON'S disease, *APOPTOSIS, *ALPHA-synuclein, *CELL death, *BAX protein, *ROTENONE

Abstract

Disruption of 14-3-3 function by alpha-synuclein has been implicated in Parkinson's disease. As 14-3-3s are important regulators of cell death pathways, disruption of 14-3-3s could result in the release of pro-apoptotic factors, such as Bax. We have previously shown that overexpression of 14-3-3h reduces cell loss in response to rotenone and MPP+ in dopaminergic cell culture and reduces cell loss in transgenic C. elegans that overexpress alpha-synuclein. In this study, we investigate the mechanism for 14-3-3h's neuroprotection against rotenone toxicity. While 14-3-3s can inhibit many pro-apoptotic factors, we demonstrate that inhibition of one factor in particular, Bax, is important to 14-3-3s' protection against rotenone toxicity in dopaminergic cells. We found that 14-3-3h overexpression reduced Bax activation and downstream signaling events, including cytochrome C release and caspase 3 activation. Pharmacological inhibition or shRNA knockdown of Bax provided protection against rotenone, comparable to 14-3-3h's neuroprotective effects. A 14-3-3h mutant incapable of binding Bax failed to protect against rotenone. These data suggest that 14-3-3h's neuroprotective effects against rotenone are at least partially mediated by Bax inhibition and point to a potential therapeutic role of 14-3-3s in Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2011

30. Edaravone Guards Dopamine Neurons in a Rotenone Model for Parkinson's Disease.

Author

Nian Xiong, Jing Xiong, Khare, Ghanshyam, Chunnuan Chen, Jinsha Huang, Ying Zhao, Zhentao Zhang, Xian Qiao, Yuan Feng, Reesaul, Harrish, Yongxue Zhang, Shenggang Sun, Zhicheng Lin, and Tao Wang

Subjects

*DOPAMINERGIC neurons, *ROTENONE, *PARKINSON'S disease, *NEUROPROTECTIVE agents, *STROKE, *SLEEP paralysis, *MITOCHONDRIAL pathology, *LABORATORY rats

Abstract

3-methyl-1-phenyl-2-pyrazolin-5-one (edaravone), an effective free radical scavenger, provides neuroprotection in stroke models and patients. In this study, we investigated its neuroprotective effects in a chronic rotenone rat model for Parkinson's disease. Here we showed that a five-week treatment with edaravone abolished rotenone's activity to induce catalepsy, damage mitochondria and degenerate dopamine neurons in the midbrain of rotenone-treated rats. This abolishment was attributable at least partly to edaravone's inhibition of rotenone-induced reactive oxygen species production or apoptotic promoter Bax expression and its up-regulation of the vesicular monoamine transporter 2 (VMAT2) expression. Collectively, edaravone may provide novel clinical therapeutics for PD. [ABSTRACT FROM AUTHOR]

Published

2011

31. Disruption of Astrocyte STAT3 Signaling Decreases Mitochondrial Function and Increases Oxidative Stress In Vitro.

Author

Sarafian, Theodore A., Montes, Cindy, Imura, Tetsuya, Jingwei Qi, Coppola, Giovanni, Geschwind, Daniel H., and Sofroniew, Michael V.

Subjects

*ASTROCYTES, *OXIDATIVE stress, *IN vitro toxicity testing, *SIGNALS & signaling, *SPINAL cord injuries, *NEUROGLIA, *MITOCHONDRIAL membranes, *ROTENONE, *GENETIC regulation

Abstract

Background: Astrocytes exert a wide variety of functions in health and disease and respond to a wide range of signaling pathways, including members of the Janus-kinase signal transducers and activators of transcription (Jak-STAT) family. We have recently shown that STAT3 is an important regulator of astrocyte reactivity after spinal cord injury in vivo [1]. Methodology/Principal Findings: Here, we used both a conditional gene deletion strategy that targets the deletion of STAT3 selectively to astrocytes (STAT3-CKO), and a pharmacological inhibitor of JAK-2, AG490, in cultured astrocytes in vitro, to investigate potential functions and molecules influenced by STAT3 signaling in relation to mitochondrial function and oxidative stress. Our findings show that the absence of STAT3 signaling in astrocytes leads to (i) increased production of superoxide anion and other reactive oxygen species and decreased level of glutathione, (ii) decreased mitochondrial membrane potential and decreased ATP production, and (iii) decreased rate of cell proliferation. Many of the differences observed in STAT3-CKO astrocytes were distinctly altered by exposure to rotenone, suggesting a role for complex I of the mitochondrial electron transport chain. Gene expression microarray studies identified numerous changes in STAT3-CKO cells that may have contributed to the identified deficits in cell function. Conclusions/Significance: Taken together, these STAT3-dependent alterations in cell function and gene expression have relevance to both reactive gliosis and to the support and protection of surrounding cells in neural tissue. [ABSTRACT FROM AUTHOR]

Published

2010

32. Progression of Parkinson's Disease Pathology Is Reproduced by Intragastric Administration of Rotenone in Mice.

Author

Pan-Montojo, Francisco, Anichtchik, Oleg, Yanina Dening, Knels, Lilla, Pursche, Stefan, Roland Jung, Jackson, Sandra, Gille, Gabriele, Spillantini, Maria Grazia, Reichmann, Heinz, and Funk, Richard H. W.

Subjects

*PARKINSON'S disease, *PATHOLOGY, *ROTENONE, *BRAIN diseases, *EXTRAPYRAMIDAL disorders, *ROTIGOTINE, *POSTENCEPHALITIC Parkinson's disease, *SYMPTOMATIC Parkinson's disease, *BENZOPYRANS, *BOTANICAL insecticides

Abstract

In patients with Parkinson's disease (PD), the associated pathology follows a characteristic pattern involving inter alia the enteric nervous system (ENS), the dorsal motor nucleus of the vagus (DMV), the intermediolateral nucleus of the spinal cord and the substantia nigra, providing the basis for the neuropathological staging of the disease. Here we report that intragastrically administered rotenone, a commonly used pesticide that inhibits Complex I of the mitochondrial respiratory chain, is able to reproduce PD pathological staging as found in patients. Our results show that low doses of chronically and intragastrically administered rotenone induce alpha-synuclein accumulation in all the above-mentioned nervous system structures of wild-type mice. Moreover, we also observed inflammation and alpha-synuclein phosphorylation in the ENS and DMV. HPLC analysis showed no rotenone levels in the systemic blood or the central nervous system (detection limit [rotenone]<20 nM) and mitochondrial Complex I measurements showed no systemic Complex I inhibition after 1.5 months of treatment. These alterations are sequential, appearing only in synaptically connected nervous structures, treatment timedependent and accompanied by inflammatory signs and motor dysfunctions. These results strongly suggest that the local effect of pesticides on the ENS might be sufficient to induce PD-like progression and to reproduce the neuroanatomical and neurochemical features of PD staging. It provides new insight into how environmental factors could trigger PD and suggests a transsynaptic mechanism by which PD might spread throughout the central nervous system. [ABSTRACT FROM AUTHOR]

Published

2010

33. Stereotaxical Infusion of Rotenone: A Reliable Rodent Model for Parkinson's Disease.

Subjects

*STEREOTAXIC techniques, *ETIOLOGY of diseases, *ROTENONE, *APOMORPHINE, *DOPAMINE, *TYROSINE hydroxylase, *GLUTATHIONE, *ALPHA-synuclein

Abstract

The article focuses on a study on the development of a rat model of Parkinson's disease (PD) by stereotaxically (ST) infusing the mitochondrial complex-I inhibitor, rotenone, into two brain sites, the right ventral tegmental area and the substantia nigra. It mentions the limitations of neurotoxin-based models in the research of PD for the elucidation of the disease etiology and the development of medications. In the study, ST infusion rats were evaluated for apomorphine (APO)-induced rotations after the ST rotenone administration. The study showed decreases in tyrosine hydroxylase (TH) immunoreactivity, the dopamine (DA) content, the glutathione and superoxide dismutase activities, and the inducement of alpha-synuclein expression.

Published

2009

34. Mitochondrial Alterations in PINK1 Deficient Cells Are Influenced by Calcineurin-Dependent Dephosphorylation of Dynamin-Related Protein 1.

Author

Sandebring, Anna, Thomas, Kelly Jean, Beilina, Alexandra, van der Brug, Marcel, Cleland, Megan M., Ahmad, Rili, Miller, David W., Zambrano, Ibardo, Cowburn, Richard F., Behbahani, Homira, Cedazo-Mínguez, Angel, and Cookson, Mark R.

Subjects

*PARKINSON'S disease, *BRAIN diseases, *BOTANICAL insecticides, *DNA, *MITOCHONDRIAL membranes, *ROTENONE

Abstract

PTEN-induced novel kinase 1 (PINK1) mutations are associated with autosomal recessive parkinsonism. Previous studies have shown that PINK1 influences both mitochondrial function and morphology although it is not clearly established which of these are primary events and which are secondary. Here, we describe a novel mechanism linking mitochondrial dysfunction and alterations in mitochondrial morphology related to PINK1. Cell lines were generated by stably transducing human dopaminergic M17 cells with lentiviral constructs that increased or knocked down PINK1. As in previous studies, PINK1 deficient cells have lower mitochondrial membrane potential and are more sensitive to the toxic effects of mitochondrial complex I inhibitors. We also show that wild-type PINK1, but not recessive mutant or kinase dead versions, protects against rotenone-induced mitochondrial fragmentation whereas PINK1 deficient cells show lower mitochondrial connectivity. Expression of dynamin-related protein 1 (Drp1) exaggerates PINK1 deficiency phenotypes and Drp1 RNAi rescues them. We also show that Drp1 is dephosphorylated in PINK1 deficient cells due to activation of the calciumdependent phosphatase calcineurin. Accordingly, the calcineurin inhibitor FK506 blocks both Drp1 dephosphorylation and loss of mitochondrial integrity in PINK1 deficient cells but does not fully rescue mitochondrial membrane potential. We propose that alterations in mitochondrial connectivity in this system are secondary to functional effects on mitochondrial membrane potential. [ABSTRACT FROM AUTHOR]

Published

2009

35. Mitochondrial Targeted Coenzyme Q, Superoxide, and Fuel Selectivity in Endothelial Cells.

Author

Fink, Brian D., O'Malley, Yunxia, Dake, Brian L., Ross, Nicolette C., Prisinzano, Thomas E., and Sivitz, William I.

Subjects

*ENDOTHELIAL seeding, *MITOCHONDRIA, *UBIQUINONES, *SUPEROXIDES, *ANTIOXIDANTS, *AORTIC paraganglia, *HYPOTHESIS, *ROTENONE, *OXIDATION-reduction reaction, *OXIDATION, *FATTY acids

Abstract

Background: Previously, we reported that the ''antioxidant'' compound ''mitoQ'' (mitochondrial-targeted ubiquinol/ ubiquinone) actually increased superoxide production by bovine aortic endothelial (BAE) cell mitochondria incubated with complex I but not complex II substrates. Methods and Results: To further define the site of action of the targeted coenzyme Q compound, we extended these studies to include different substrate and inhibitor conditions. In addition, we assessed the effects of mitoquinone on mitochondrial respiration, measured respiration and mitochondrial membrane potential in intact cells, and tested the intriguing hypothesis that mitoquinone might impart fuel selectivity in intact BAE cells. In mitochondria respiring on differing concentrations of complex I substrates, mitoquinone and rotenone had interactive effects on ROS consistent with redox cycling at multiple sites within complex I. Mitoquinone increased respiration in isolated mitochondria respiring on complex I but not complex II substrates. Mitoquinone also increased oxygen consumption by intact BAE cells. Moreover, when added to intact cells at 50 to 1000 nM, mitoquinone increased glucose oxidation and reduced fat oxidation, at doses that did not alter membrane potential or induce cell toxicity. Although high dose mitoquinone reduced mitochondrial membrane potential, the positively charged mitochondrial-targeted cation, decyltriphenylphosphonium (mitoquinone without the coenzyme Q moiety), decreased membrane potential more than mitoquinone, but did not alter fuel selectivity. Therefore, non-specific effects of the positive charge were not responsible and the quinone moiety is required for altered nutrient selectivity. Conclusions: In summary, the interactive effects of mitoquinone and rotenone are consistent with redox cycling at more than one site within complex I. In addition, mitoquinone has substrate dependent effects on mitochondrial respiration, increases repiration by intact cells, and alters fuel selectivity favoring glucose over fatty acid oxidation at the intact cell level. [ABSTRACT FROM AUTHOR]

Published

2009

36. Protection by the NDI1 Gene against Neurodegeneration in a Rotenone Rat Model of Parkinson's Disease.

Author

Marella, Mathieu, Byoung Boo Seo, Nakamaru-Ogiso, Eiko, Greenamyre, J. Timothy, Matsuno-Yagi, Akemi, and Yagi, Takao

Subjects

*NEURODEGENERATION, *PARKINSON'S disease, *ANIMAL models in research, *LABORATORY rats, *NAD(P)H dehydrogenases, *ROTENONE, *QUINONE, *CELL death, *SUBSTANTIA nigra, *GENE expression, *PREVENTION

Abstract

It is widely recognized that mitochondrial dysfunction, most notably defects in the NADH-quinone oxidoreductase (complex I), is closely related to the etiology of sporadic Parkinson's disease (PD). In fact, rotenone, a complex I inhibitor, has been used for establishing PD models both in vitro and in vivo. A rat model with chronic rotenone exposure seems to reproduce pathophysiological conditions of PD more closely than acute mouse models as manifested by neuronal cell death in the substantia nigra and Lewy body-like cytosolic aggregations. Using the rotenone rat model, we investigated the protective effects of alternative NADH dehydrogenase (Ndi1) which we previously demonstrated to act as a replacement for complex I both in vitro and in vivo. A single, unilateral injection of recombinant adeno-associated virus carrying the NDI1 gene into the vicinity of the substantia nigra resulted in expression of the Ndi1 protein in the entire substantia nigra of that side. It was clear that the introduction of the Ndi1 protein in the substantia nigra rendered resistance to the deleterious effects caused by rotenone exposure as assessed by the levels of tyrosine hydroxylase and dopamine. The presence of the Ndi1 protein also prevented cell death and oxidative damage to DNA in dopaminergic neurons observed in rotenone-treated rats. Unilateral protection also led to uni-directional rotation of the rotenone-exposed rats in the behavioral test. The present study shows, for the first time, the powerful neuroprotective effect offered by the Ndi1 enzyme in a rotenone rat model of PD. [ABSTRACT FROM AUTHOR]

Published

2008

37. Febuxostat ameliorates secondary progressive experimental autoimmune encephalomyelitis by restoring mitochondrial energy production in a GOT2-dependent manner

Author

Atsushi Kumanogoh, Eri Sanda, Kazushiro Takata, Manabu Sakaguchi, Akiko Namba, Josephe A. Honorat, Takashi Shirakura, Tsutomu Sasaki, Kazuya Yamashita, Saburo Sakoda, Toru Koda, Makoto Kinoshita, Mikito Shimizu, Yuji Nakatsuji, Hideki Mochizuki, Tatsusada Okuno, Hisae Sumi-Akamaru, and Mizuho Tamura

Subjects

0301 basic medicine, Central Nervous System, Microarrays, Encephalomyelitis, lcsh:Medicine, Mitochondrion, Biochemistry, Nervous System, Mice, 0302 clinical medicine, Adenosine Triphosphate, Animal Cells, Medicine and Health Sciences, Small interfering RNAs, lcsh:Science, Xanthine oxidase inhibitor, Energy-Producing Organelles, Oligonucleotide Array Sequence Analysis, Neurons, Multidisciplinary, ATP synthase, biology, Chemistry, Experimental autoimmune encephalomyelitis, Neurodegeneration, Glutamate receptor, Animal Models, Mitochondria, Nucleic acids, Bioassays and Physiological Analysis, Experimental Organism Systems, Spinal Cord, Febuxostat, Cellular Structures and Organelles, Anatomy, Cellular Types, medicine.drug, Research Article, medicine.medical_specialty, Xanthine Oxidase, Encephalomyelitis, Autoimmune, Experimental, medicine.drug_class, Mouse Models, Bioenergetics, Research and Analysis Methods, Cell Line, 03 medical and health sciences, Model Organisms, Internal medicine, Rotenone, medicine, Genetics, Animals, Humans, Non-coding RNA, Aspartate Aminotransferase, Mitochondrial, lcsh:R, Biology and Life Sciences, Cell Biology, medicine.disease, Gene regulation, Neuroanatomy, 030104 developmental biology, Endocrinology, Cellular Neuroscience, biology.protein, RNA, lcsh:Q, Gene expression, Energy Metabolism, 030217 neurology & neurosurgery, Neuroscience

Abstract

Oxidative stress and mitochondrial dysfunction are important determinants of neurodegeneration in secondary progressive multiple sclerosis (SPMS). We previously showed that febuxostat, a xanthine oxidase inhibitor, ameliorated both relapsing-remitting and secondary progressive experimental autoimmune encephalomyelitis (EAE) by preventing neurodegeneration in mice. In this study, we investigated how febuxostat protects neuron in secondary progressive EAE. A DNA microarray analysis revealed that febuxostat treatment increased the CNS expression of several mitochondria-related genes in EAE mice, most notably including GOT2, which encodes glutamate oxaloacetate transaminase 2 (GOT2). GOT2 is a mitochondrial enzyme that oxidizes glutamate to produce α-ketoglutarate for the Krebs cycle, eventually leading to the production of adenosine triphosphate (ATP). Whereas GOT2 expression was decreased in the spinal cord during the chronic progressive phase of EAE, febuxostat-treated EAE mice showed increased GOT2 expression. Moreover, febuxostat treatment of Neuro2a cells in vitro ameliorated ATP exhaustion induced by rotenone application. The ability of febuxostat to preserve ATP production in the presence of rotenone was significantly reduced by GOT2 siRNA. GOT2-mediated ATP synthesis may be a pivotal mechanism underlying the protective effect of febuxostat against neurodegeneration in EAE. Accordingly, febuxostat may also have clinical utility as a disease-modifying drug in SPMS.

Published

2017

38. Complex I inhibition augments dichloroacetate cytotoxicity through enhancing oxidative stress in VM-M3 glioblastoma cells

Author

Dominic P. D’Agostino, Andrew P. Koutnik, Nathan P. Ward, and Angela M. Poff

Subjects

0301 basic medicine, Cytotoxicity, lcsh:Medicine, Mitochondrion, Pharmacology, AMP-Activated Protein Kinases, medicine.disease_cause, Toxicology, Pathology and Laboratory Medicine, Biochemistry, chemistry.chemical_compound, Mice, 0302 clinical medicine, Fluorescence Microscopy, Glucose Metabolism, Drug Metabolism, Superoxides, Medicine and Health Sciences, lcsh:Science, Energy-Producing Organelles, Membrane Potential, Mitochondrial, Microscopy, Multidisciplinary, Superoxide, Brain Neoplasms, Chemical Reactions, Light Microscopy, Lipids, Metformin, Mitochondria, Chemistry, 030220 oncology & carcinogenesis, Physical Sciences, Carbohydrate Metabolism, Cellular Structures and Organelles, medicine.drug, Research Article, Adenosine monophosphate, medicine.medical_specialty, Cell Survival, Antineoplastic Agents, Biology, Bioenergetics, Research and Analysis Methods, 03 medical and health sciences, Internal medicine, Cell Line, Tumor, Rotenone, Oxidation, medicine, Animals, Pharmacokinetics, Electron Transport Complex I, Dichloroacetic Acid, lcsh:R, AMPK, Biology and Life Sciences, Cell Biology, Oxidative Stress, 030104 developmental biology, Endocrinology, Metabolism, chemistry, Cancer cell, lcsh:Q, Lipid Peroxidation, Glioblastoma, Oxidative stress

Abstract

The robust glycolytic metabolism of glioblastoma multiforme (GBM) has proven them susceptible to increases in oxidative metabolism induced by the pyruvate mimetic dichloroacetate (DCA). Recent reports demonstrate that the anti-diabetic drug metformin enhances the damaging oxidative stress associated with DCA treatment in cancer cells. We sought to elucidate the role of metformin's reported activity as a mitochondrial complex I inhibitor in the enhancement of DCA cytotoxicity in VM-M3 GBM cells. Metformin potentiated DCA-induced superoxide production, which was required for enhanced cytotoxicity towards VM-M3 cells observed with the combination. Similarly, rotenone enhanced oxidative stress resultant from DCA treatment and this too was required for the noted augmentation of cytotoxicity. Adenosine monophosphate kinase (AMPK) activation was not observed with the concentration of metformin required to enhance DCA activity. Moreover, addition of an activator of AMPK did not enhance DCA cytotoxicity, whereas an inhibitor of AMPK heightened the cytotoxicity of the combination. Our data indicate that metformin enhancement of DCA cytotoxicity is dependent on complex I inhibition. Particularly, that complex I inhibition cooperates with DCA-induction of glucose oxidation to enhance cytotoxic oxidative stress in VM-M3 GBM cells.

Published

2017

39. Necrosis, apoptosis, necroptosis, three modes of action of dopaminergic neuron neurotoxins

Author

Noelle Callizot, Alexandre Henriques, Philippe Poindron, and Maud Combes

Subjects

0301 basic medicine, 1-Methyl-4-phenylpyridinium, Programmed cell death, Science, Necroptosis, Neurotoxins, Primary Cell Culture, Apoptosis, Biology, Mitochondrion, Protein Aggregation, Pathological, Necrosis, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Mesencephalon, Dopamine, Rotenone, Dopaminergic Cell, medicine, Animals, Humans, Oxidopamine, Cells, Cultured, Multidisciplinary, Dopaminergic Neurons, Dopaminergic, Parkinson Disease, Embryo, Mammalian, Mitochondria, Rats, Cell biology, Oxidative Stress, 030104 developmental biology, nervous system, chemistry, alpha-Synuclein, Medicine, Female, Energy Metabolism, 030217 neurology & neurosurgery, Research Article, medicine.drug

Abstract

Most of the Parkinson's disease (PD) cases are sporadic, although several genes are directly related to PD. Several pathways are central in PD pathogenesis: protein aggregation linked to proteasomal impairments, mitochondrial dysfunctions and impairment in dopamine (DA) release. Here we studied the close crossing of mitochondrial dysfunction and aggregation of α-synuclein (α-syn) and in the extension in the dopaminergic neuronal death. Here, using rat primary cultures of mesencephalic neurons, we induced the mitochondrial impairments using "DA-toxins" (MPP+, 6OHDA, rotenone). We showed that the DA-Toxins induced dopaminergic cell death through different pathways: caspase-dependent cell death for 6OHDA; MPP+ stimulated caspase-independent cell death, and rotenone activated both pathways. In addition, a decrease in energy production and/or a development of oxidative stress were observed and were linked to α-syn aggregation with generation of Lewy body-like inclusions (found inside and outside the dopaminergic neurons). We demonstrated that any of induced mitochondrial disturbances and processes of death led to α-syn protein aggregation and finally to cell death. Our study depicts the cell death mechanisms taking place in in vitro models of Parkinson's disease and how mitochondrial dysfunctions is at the cross road of the pathologies of this disease.

Published

2019

40. N-Acetyl Cysteine May Support Dopamine Neurons in Parkinson's Disease: Preliminary Clinical and Cell Line Data

Author

George Zabrecky, Brendan Bowen, Tsao-Wei Liang, Anthony J. Bazzan, Andrew B. Newberg, Daniel Kremens, Li Zhong, Xiatao Wei, Lorraine Iacovitti, Nancy Wintering, Jingli Cai, Charles M. Intenzo, and Daniela Monti

Subjects

0301 basic medicine, Male, Pathology, Parkinson's disease, Dopamine, Human Embryonic Stem Cells, Caudate nucleus, lcsh:Medicine, Pilot Projects, Single Photon Emission Computed Tomography, Pharmacology, Biochemistry, Antioxidants, Midbrain, Diagnostic Radiology, Tissue Culture Techniques, chemistry.chemical_compound, 0302 clinical medicine, Catecholamines, Mesencephalon, Animal Cells, Medicine and Health Sciences, Medicine, Neurotoxin, Amines, lcsh:Science, Tomography, Neurons, education.field_of_study, Multidisciplinary, Movement Disorders, biology, Organic Compounds, Putamen, Radiology and Imaging, Brain, Cell Differentiation, Parkinson Disease, Neurodegenerative Diseases, Neurochemistry, Neurotransmitters, Middle Aged, Glutathione, Chemistry, Neuroprotective Agents, Neurology, Physical Sciences, Female, Cellular Types, Anatomy, Brainstem, medicine.drug, Research Article, medicine.medical_specialty, Biogenic Amines, Single Photon Emission Computed Tomography Computed Tomography, Cell Survival, Imaging Techniques, Population, Neurotoxins, Neuroimaging, Research and Analysis Methods, 03 medical and health sciences, Diagnostic Medicine, Rotenone, Humans, education, Dopamine transporter, Aged, Dopamine Transporters, Dopamine Plasma Membrane Transport Proteins, business.industry, Dopaminergic Neurons, Organic Chemistry, lcsh:R, Chemical Compounds, Biology and Life Sciences, Proteins, Cell Biology, medicine.disease, Hormones, Acetylcysteine, Oxidative Stress, 030104 developmental biology, chemistry, Cellular Neuroscience, biology.protein, lcsh:Q, Caudate Nucleus, business, Peptides, 030217 neurology & neurosurgery, Neuroscience

Abstract

Backgound The purpose of this study was to assess the biological and clinical effects of n-acetyl-cysteine (NAC) in Parkinson’s disease (PD). Methods The overarching goal of this pilot study was to generate additional data about potentially protective properties of NAC in PD, using an in vitro and in vivo approach. In preparation for the clinical study we performed a cell tissue culture study with human embryonic stem cell (hESC)-derived midbrain dopamine (mDA) neurons that were treated with rotenone as a model for PD. The primary outcome in the cell tissue cultures was the number of cells that survived the insult with the neurotoxin rotenone. In the clinical study, patients continued their standard of care and were randomized to receive either daily NAC or were a waitlist control. Patients were evaluated before and after 3 months of receiving the NAC with DaTscan to measure dopamine transporter (DAT) binding and the Unified Parkinson’s Disease Rating Scale (UPDRS) to measure clinical symptoms. Results The cell line study showed that NAC exposure resulted in significantly more mDA neurons surviving after exposure to rotenone compared to no NAC, consistent with the protective effects of NAC previously observed. The clinical study showed significantly increased DAT binding in the caudate and putamen (mean increase ranging from 4.4% to 7.8%; p

Published

2016

41. BAD, a Proapoptotic Protein, Escapes ERK/RSK Phosphorylation in Deguelin and siRNA-Treated HeLa Cells

Author

Manzoor Ahmad Mir, Mahmood Husain Qazi, Ashraf Ali, Mahwish Urooj, Peter Natesan Pushparaj, Shakeel Ahmed Ansari, Sumaira Shaheen, Mahmood Rasool, Zeeshan Gillani, Samra Hafeez, Zafar Iqbal, Shamiala Saleem, Muhammad Imran Naseer, Mohammad Sarwar Jamal, Absarul Haque, and Muhammad Asif

Subjects

0301 basic medicine, MAPK/ERK pathway, Small interfering RNA, bcl-X Protein, lcsh:Medicine, Apoptosis, Biology, HeLa, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Rotenone, Humans, Gene silencing, Phosphorylation, lcsh:Science, Mitogen-Activated Protein Kinase 1, Binding Sites, Mitogen-Activated Protein Kinase 3, Multidisciplinary, Ribosomal Protein S6 Kinases, lcsh:R, Cytochromes c, Transfection, biology.organism_classification, Protein Structure, Tertiary, Cell biology, Molecular Docking Simulation, 030104 developmental biology, Proto-Oncogene Proteins c-bcl-2, chemistry, 030220 oncology & carcinogenesis, Mitochondrial Membranes, Myeloid Cell Leukemia Sequence 1 Protein, RNA Interference, bcl-Associated Death Protein, lcsh:Q, Deguelin, HeLa Cells, Protein Binding, Research Article

Abstract

This study has been undertaken to explore the therapeutic effects of deguelin and specific siRNAs in HeLa cells. The data provided clearly show the silencing of ERK 1/2 with siRNAs and inhibition of ERK1/2 with deguelin treatment in HeLa cells. Additionally, we are providing information that deguelin binds directly to anti-apoptotic Bcl-2, Bcl-xl and Mcl-1 in the hydrophobic grooves, thereby releasing BAD and BAX from dimerization with these proteins. This results in increased apoptotic activity through the intrinsic pathway involved in rupture of mitochondrial membrane and release of cytochrome C. Evidence for inhibition of ERK1/2 by deguelin and escape of BAD phosphorylation at serine 112 through ERK/RSK pathway has been further fortified by obtaining similar results by silencing ERK 1/2 each with specific siRNAs. Increase in BAD after treatment with deguelin or siRNAs has been interpreted to mean that deguelin acts through several alternative pathways and therefore can be used as effective therapeutic agent.

Published

2016

42. Rotenone Decreases Hatching Success in Brine Shrimp Embryos by Blocking Development: Implications for Zooplankton Egg Banks

Author

Matthew D. Gunderson, Joseph A. Covi, Evan R. Hutchison, and Courtney H. Neumeyer

Subjects

0106 biological sciences, Embryology, Marine and Aquatic Sciences, Water Columns, lcsh:Medicine, 010501 environmental sciences, Oceanography, 01 natural sciences, chemistry.chemical_compound, Natural Selection, Piscicide, lcsh:Science, Sedimentary Geology, Multidisciplinary, biology, Geology, Plankton, Crustaceans, Research Article, Freshwater Environments, Evolutionary Processes, Hatching Success, Arthropoda, Artificial seawater, Zoology, Brine shrimp, Zooplankton, Copepods, Botany, Genetics, Animals, 0105 earth and related environmental sciences, Petrology, Evolutionary Biology, Population Biology, Hatching, 010604 marine biology & hydrobiology, Embryos, Ecology and Environmental Sciences, fungi, lcsh:R, Organisms, Biology and Life Sciences, Aquatic Environments, Rotenone, Bodies of Water, biology.organism_classification, Crustacean, Invertebrates, Lakes, Reproductive Success, chemistry, Earth Sciences, Dormancy, Sediment, lcsh:Q, Population Genetics, Developmental Biology

Abstract

While many zooplankton species recover quickly after the treatment of water resources with the piscicide, rotenone, some fail to reach pretreatment population density or, in rare cases, do not reappear at all. The variable impact of rotenone on zooplankton populations could stem from differences in the capacity of species to switch entirely to anaerobic catabolic pathways in the presence of rotenone, which blocks mitochondrial electron transport. Alternatively, variable responses among species could originate from differences in permeability of dormant life-stages to lipophilic chemicals like rotenone. The purpose of the present study was to determine the effects of rotenone on development, emergence and hatching of zooplankton embryos that lack both the anaerobic capacity to develop in the presence of rotenone and a permeability barrier to prevent the entry of rotenone during dormancy. Post-diapause embryos of the brine shrimp, Artemia franciscana, were employed as a model system, because they are permeable to lipophilic compounds when dechorionated and require aerobic conditions to support development. Early development in this species is also well characterized in the literature. Brine shrimp embryos were exposed to rotenone while development was either slowed by chilling or suspended by anoxia. Development, emergence and hatching were then observed in rotenone-free artificial seawater. The data presented demonstrate that rotenone freely diffuses across the embryonic cuticle in a matter of hours, and prevents development and emergence after brief exposures to ecologically relevant concentrations (0.025–0.5 mg L-1) of the piscicide. Neither the removal of rotenone from the environment, nor the removal of embryonic water with a hypertonic solution, are sufficient to reverse this block on development and emergence. These data indicate that rotenone could impair recruitment from egg banks for species of zooplankton that lack both an embryonic barrier to the entry of lipophilic compounds and the anaerobic capacity to develop when NADH:ubiquinone oxidoreductase activity is inhibited by rotenone.

Published

2016

43. Argon Mediates Anti-Apoptotic Signaling and Neuroprotection via Inhibition of Toll-Like Receptor 2 and 4

Author

Ulbrich, Felix, Kaufmann, Kai, Roesslein, Martin, Wellner, Franziska, Auwärter, Volker, Kempf, Jürgen, Loop, Torsten, Buerkle, Hartmut, and Goebel, Ulrich

Subjects

Caspase 3, MAP Kinase Signaling System, Apoptosis, Neuroprotection, Toll-Like Receptor 2, Toll-Like Receptor 4, Neuroblastoma, Neuroprotective Agents, Cell Line, Tumor, Rotenone, Humans, Argon, Phosphorylation, Research Article, Signal Transduction

Abstract

Purpose Recently, the noble gas argon attracted significant attention due to its neuroprotective properties. However, the underlying molecular mechanism is still poorly understood. There is growing evidence that the extracellular regulated kinase 1/2 (ERK1/2) is involved in Argon´s protective effect. We hypothesized that argon mediates its protective effects via the upstream located toll-like receptors (TLRs) 2 and 4. Methods Apoptosis in a human neuroblastoma cell line (SH-SY5Y) was induced using rotenone. Argon treatment was performed after induction of apoptosis with different concentrations (25, 50 and 75 Vol% in oxygen 21 Vol%, carbon dioxide and nitrogen) for 2 or 4 hours respectively. Apoptosis was analyzed using flow cytometry (annexin-V (AV)/propidiumiodide (PI)) staining, caspase-3 activity and caspase cleavage. TLR density on the cells’ surface was analyzed using FACS and immunohistochemistry. Inhibition of TLR signaling and extracellular regulated kinase 1/2 (ERK1/2) were assessed by western blot, activity assays and FACS analysis. Results Argon 75 Vol% treatment abolished rotenone-induced apoptosis. This effect was attenuated dose- and time-dependently. Argon treatment was accompanied with a significant reduction of TLR2 and TLR4 receptor density and protein expression. Moreover, argon mediated increase in ERK1/2 phosphorylation was attenuated after inhibition of TLR signaling. ERK1/2 and TLR signaling inhibitors abolished the anti-apoptotic and cytoprotective effects of argon. Immunohistochemistry results strengthened these findings. Conclusion These findings suggest that argon-mediated anti-apoptotic and neuroprotective effects are mediated via inhibition of TLR2 and TLR4.

Published

2015

44. Mitochondrial modulation-induced activation of vagal sensory neuronal subsets by antimycin A, but not CCCP or rotenone, correlates with mitochondrial superoxide production

Author

Katherine R. Stanford and Thomas E. Taylor-Clark

Subjects

0301 basic medicine, Physiology, lcsh:Medicine, Action Potentials, Antimycin A, Pathology and Laboratory Medicine, Biochemistry, Ion Channels, chemistry.chemical_compound, Transient Receptor Potential Channels, 0302 clinical medicine, Cell Signaling, Superoxides, Animal Cells, Medicine and Health Sciences, lcsh:Science, TRPA1 Cation Channel, Immune Response, Energy-Producing Organelles, Neurons, chemistry.chemical_classification, Multidisciplinary, Superoxide, Physics, Nociceptors, Vagus Nerve, Oxides, Depolarization, Mitochondria, Cell biology, Electrophysiology, Chemistry, medicine.anatomical_structure, Physical Sciences, Cellular Types, Cellular Structures and Organelles, Signal Transduction, Research Article, Carbonyl Cyanide m-Chlorophenyl Hydrazone, Sensory Receptor Cells, Immunology, Biophysics, TRPV Cation Channels, Neurophysiology, chemistry.chemical_element, Bioenergetics, Calcium, Membrane Potential, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, Rotenone, Calcium flux, medicine, Humans, Calcium Signaling, Inflammation, Reactive oxygen species, lcsh:R, Chemical Compounds, Biology and Life Sciences, Proteins, Cell Biology, Sensory neuron, 030104 developmental biology, nervous system, chemistry, Cellular Neuroscience, Coenzyme Q – cytochrome c reductase, lcsh:Q, Sensory Neurons, Reactive Oxygen Species, 030217 neurology & neurosurgery, Neuroscience

Abstract

Inflammation causes nociceptive sensory neuron activation, evoking debilitating symptoms and reflexes. Inflammatory signaling pathways are capable of modulating mitochondrial function, resulting in reactive oxygen species (ROS) production, mitochondrial depolarization and calcium release. Previously we showed that mitochondrial modulation with antimycin A, a complex III inhibitor, selectively stimulated nociceptive bronchopulmonary C-fibers via the activation of transient receptor potential (TRP) ankyrin 1 (A1) and vanilloid 1 (V1) cation channels. TRPA1 is ROS-sensitive, but there is little evidence that TRPV1 is activated by ROS. Here, we used dual imaging of dissociated vagal neurons to investigate the correlation of mitochondrial superoxide production (mitoSOX) or mitochondrial depolarization (JC-1) with cytosolic calcium (Fura-2AM), following mitochondrial modulation by antimycin A, rotenone (complex I inhibitor) and carbonyl cyanide m-chlorophenyl hydrazone (CCCP, mitochondrial uncoupling agent). Mitochondrial modulation by all agents selectively increased cytosolic calcium in a subset of TRPA1/TRPV1-expressing (A1/V1+) neurons. There was a significant correlation between antimycin A-induced calcium responses and mitochondrial superoxide in wild-type 'responding' A1/V1+ neurons, which was eliminated in TRPA1-/- neurons, but not TRPV1-/- neurons. Nevertheless, antimycin A-induced superoxide production did not always increase calcium in A1/V1+ neurons, suggesting a critical role of an unknown factor. CCCP caused both superoxide production and mitochondrial depolarization but neither correlated with calcium fluxes in A1/V1+ neurons. Rotenone-induced calcium responses in 'responding' A1/V1+ neurons correlated with mitochondrial depolarization but not superoxide production. Our data are consistent with the hypothesis that mitochondrial dysfunction causes calcium fluxes in a subset of A1/V1+ neurons via ROS-dependent and ROS-independent mechanisms.

Published

2018

45. Bidesmosidic betulin saponin bearing L-rhamnopyranoside moieties induces apoptosis and inhibition of lung cancer cells growth in vitro and in vivo

Author

André Pichette, Jean Legault, Mouadh Mihoub, Charles Gauthier, and Balla Sylla

Subjects

Male, 0301 basic medicine, Mitochondrial ROS, Lung Neoplasms, Cytotoxicity, Cancer Treatment, lcsh:Medicine, Apoptosis, DNA fragmentation, Mitochondrion, Toxicology, Pathology and Laboratory Medicine, Biochemistry, Rhamnose, Lung and Intrathoracic Tumors, Mice, chemistry.chemical_compound, 0302 clinical medicine, Medicine and Health Sciences, lcsh:Science, Energy-Producing Organelles, Caspase, Membrane Potential, Mitochondrial, Multidisciplinary, Cell Death, biology, Acridine orange, Mitochondria, 3. Good health, Nucleic acids, G2 Phase Cell Cycle Checkpoints, Chemistry, Oncology, Cell Processes, Caspases, 030220 oncology & carcinogenesis, Physical Sciences, Cellular Structures and Organelles, Research Article, Pyruvate dehydrogenase kinase, Transplantation, Heterologous, Bioenergetics, 03 medical and health sciences, Cell Line, Tumor, Rotenone, Genetics, Animals, Humans, Cell Proliferation, A549 cell, Betulin, lcsh:R, Chemical Compounds, Biology and Life Sciences, Cancers and Neoplasms, Cell Biology, DNA, Saponins, Molecular biology, Malonates, Triterpenes, Non-Small Cell Lung Cancer, Mice, Inbred C57BL, 030104 developmental biology, Electron Transport Chain Complex Proteins, chemistry, A549 Cells, biology.protein, M Phase Cell Cycle Checkpoints, lcsh:Q, Reactive Oxygen Species

Abstract

Betulin has a wide range of biological and pharmacological properties with its anticancer activity attracting most of the attention as it offers a possible alternative treatment to chemotherapy. However, betulin's in vivo biological effectiveness is limited by its poor solubility. As such, we synthesized polar glycosylated derivatives to increase its hydrosolubility and enhance its pharmacological properties. Among these synthesized compounds, 28-O-α-l-rhamnopyranosylbetulin 3β-O-α-l-rhamnopyranoside (Bi-L-RhamBet) was assessed for its cytotoxic effects against a suite of lung cancer cell lines. We also investigated its mechanism of action using an A549 lung cancer cell line. Our results showed that Bi-L-RhamBet exhibited potent cytotoxic activity toward lung cancer cell lines including A549, NCI-H2087, NCI-H522, NCI-H1993 NCI-H1755, and LLC1 having IC50 values ranging from 2.9 to 5.9 μM. Moreover, Bi-L-RhamBet (50 mg/kg) significantly inhibited tumor growth with a treatment-to-control ratio (T/C) of 0.54 and a tumor growth inhibition rate of 46% at day 18 (p < 0.05). Microscopic observations of A549 cells, double stained with acridine orange and ethidium bromide, showed apoptotic features. Bi-L-RhamBet induced activation of pro-apoptotic caspases 8, 9, and 3/7 as well as causing DNA fragmentation. Moreover, a marked increase in mitochondrial ROS (mROS) was coupled with a reduction of mitochondrial potential. Interestingly, the presence of mitochondrial electron transport chain (ETC) inhibitors, including rotenone, malonate, and antimycin A, reduced mROS production, and the activation of caspases suggesting that Bi-L-RhamBet disturbs the ETC. Finally, dichloroacetate, a pyruvate dehydrogenase kinase inhibitor potentiated the cytotoxicity of Bi-L-RhamBet against A549 cells. Taken together, these data suggest that Bi-L-RhamBet can induce apoptotic cell death via disturbance of mitochondrial electron transfer chain, reduced ROS production, and decreased membrane potential.

Published

2018

46. Potential Compounds for Oral Cancer Treatment: Resveratrol, Nimbolide, Lovastatin, Bortezomib, Vorinostat, Berberine, Pterostilbene, Deguelin, Andrographolide, and Colchicine

Author

Anjana Sharma, Prakash S. Bisen, and Saurabh Bundela

Subjects

Limonins, Pterostilbene, Support Vector Machine, Berberine, Databases, Pharmaceutical, Andrographolide, lcsh:Medicine, Administration, Oral, Antineoplastic Agents, Pharmacology, Hydroxamic Acids, Bortezomib, chemistry.chemical_compound, Predictive Value of Tests, Rotenone, Stilbenes, Medicine, Humans, Lovastatin, lcsh:Science, Databases, Protein, Vorinostat, Mouth neoplasm, Multidisciplinary, Models, Statistical, business.industry, lcsh:R, Cancer, medicine.disease, chemistry, Resveratrol, lcsh:Q, Mouth Neoplasms, Diterpenes, business, Colchicine, DrugBank, Deguelin, Algorithms, medicine.drug, Research Article

Abstract

Oral cancer is one of the main causes of cancer-related deaths in South-Asian countries. There are very limited treatment options available for oral cancer. Research endeavors focused on discovery and development of novel therapies for oral cancer, is necessary to control the ever rising oral cancer related mortalities. We mined the large pool of compounds from the publicly available compound databases, to identify potential therapeutic compounds for oral cancer. Over 84 million compounds were screened for the possible anti-cancer activity by custom build SVM classifier. The molecular targets of the predicted anti-cancer compounds were mined from reliable sources like experimental bioassays studies associated with the compound, and from protein-compound interaction databases. Therapeutic compounds from DrugBank, and a list of natural anti-cancer compounds derived from literature mining of published studies, were used for building partial least squares regression model. The regression model thus built, was used for the estimation of oral cancer specific weights based on the molecular targets. These weights were used to compute scores for screening the predicted anti-cancer compounds for their potential to treat oral cancer. The list of potential compounds was annotated with corresponding physicochemical properties, cancer specific bioactivity evidences, and literature evidences. In all, 288 compounds with the potential to treat oral cancer were identified in the current study. The majority of the compounds in this list are natural products, which are well-tolerated and have minimal side-effects compared to the synthetic counterparts. Some of the potential therapeutic compounds identified in the current study are resveratrol, nimbolide, lovastatin, bortezomib, vorinostat, berberine, pterostilbene, deguelin, andrographolide, and colchicine.

Published

2015

47. An Assessment of the Effect of Rotenone on Selected Non-Target Aquatic Fauna

Author

Olaf L. F. Weyl, Tatenda Dalu, Martine S. Jordaan, Ryan J. Wasserman, and William Froneman

Subjects

Insecticides, Population, lcsh:Medicine, Daphnia pulex, Daphnia, Zooplankton, chemistry.chemical_compound, Rotenone, Animals, Body Size, education, lcsh:Science, Invertebrate, education.field_of_study, Multidisciplinary, biology, Ecology, lcsh:R, Aquatic animal, biology.organism_classification, Invertebrates, chemistry, Animal ecology, lcsh:Q, Water Pollutants, Chemical, Research Article

Abstract

Rotenone, a naturally occurring ketone, is widely employed for the management of invasive fish species. The use of rotenone poses serious challenges to conservation practitioners due to its impacts on non-target organisms including amphibians and macroinvertebrates. Using laboratory studies, we investigated the effects of different rotenone concentrations (0, 12.5, 25, 37.5, 50, 100 μg L-1) on selected invertebrate groups; Aeshnidae, Belostomatids, Decapods, Ephemeroptera, Pulmonata and zooplankton over a period of 18 hours. Based on field observations and body size, we hypothesized that Ephemeropterans and zooplankton would be more susceptible to rotenone than Decapods, Belostomatids and snails. Experimental results supported this hypothesis and mortality and behaviour effects varied considerably between taxa, ranging from no effect (crab Potamonuates sidneyi) to 100% mortality (Daphnia pulex and Paradiaptomus lamellatus). Planktonic invertebrates were particularly sensitive to rotenone even at very low concentrations. Future research should investigate the recovery time of invertebrate communities after the application of rotenone and conduct field assessments assessing the longer term effects of rotenone exposure on the population dynamics of those less sensitive organisms.

Published

2015

48. Superoxide dismutases, SOD1 and SOD2, play a distinct role in the fat body during pupation in silkworm Bombyx mori

Author

Hiromasa Ono, Yoshitaka Suetsugu, Takeshi Yokoyama, Jun-ichi Satoh, Hiroko Tabunoki, Hidemasa Bono, Takeru Nakazato, Katsuhiko Ito, Yuki Nakamura, Ryoichi Sato, Kimiko Yamamoto, Yosui Nojima, and Hajime Fugo

Subjects

Insecticides, DNA, Complementary, SOD1, Fat Body, Molecular Sequence Data, SOD2, lcsh:Medicine, Isosorbide Dinitrate, medicine.disease_cause, Cell Line, Superoxide dismutase, Superoxide Dismutase-1, Bombyx mori, Rotenone, Gene expression, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, lcsh:Science, Phylogeny, Bombyx, chemistry.chemical_classification, Reactive oxygen species, Multidisciplinary, biology, Sequence Homology, Amino Acid, Superoxide Dismutase, fungi, lcsh:R, Sequence Analysis, DNA, biology.organism_classification, chemistry, Biochemistry, Gene Expression Regulation, Organ Specificity, biology.protein, lcsh:Q, Reactive Oxygen Species, Sequence Alignment, Oxidative stress, Research Article

Abstract

One way that aerobic biological systems counteract the generation of reactive oxygen species (ROS) is with superoxide dismutase proteins SOD1 and SOD2 that metabolize superoxide radicals to molecular oxygen and hydrogen peroxide or scavenge oxygen radicals produced by the extensive oxidation-reduction and electron-transport reactions that occur in mitochondria. We characterized SOD1 and SOD2 of Bombyx mori isolated from the fat body of larvae. Immunological analysis demonstrated the presence of BmSOD1 and BmSOD2 in the silk gland, midgut, fat body, Malpighian tubules, testis and ovary from larvae to adults. We found that BmSOD2 had a unique expression pattern in the fat body through the fifth instar larval developmental stage. The anti-oxidative functions of BmSOD1 and BmSOD2 were assessed by exposing larvae to insecticide rotenone or vasodilator isosorbide dinitrate, which is an ROS generator in BmN4 cells; however, exposure to these compounds had no effect on the expression levels of either BmSOD protein. Next, we investigated the physiological role of BmSOD1 and BmSOD2 under environmental oxidative stress, applied through whole-body UV irradiation and assayed using quantitative RT-PCR, immunoblotting and microarray analysis. The mRNA expression level of both BmSOD1 and BmSOD2 was markedly increased but protein expression level was increased only slightly. To examine the differences in mRNA and protein level due to UV irradiation intensity, we performed microarray analysis. Gene set enrichment analysis revealed that genes in the insulin signaling pathway and PPAR signaling pathway were significantly up-regulated after 6 and 12 hours of UV irradiation. Taken together, the activities of BmSOD1 and BmSOD2 may be related to the response to UV irradiation stress in B. mori. These results suggest that BmSOD1 and BmSOD2 modulate environmental oxidative stress in the cell and have a specific role in fat body of B. mori during pupation.

Published

2015

49. Mitochondrial Respiratory Function Induces Endogenous Hypoxia

Author

Sara Prior, Ara Kim, Toshitada Yoshihara, Toshiyuki Takeuchi, Seiji Tobita, and Masahiro Higuchi

Subjects

Mitochondrial Diseases, lcsh:Medicine, Biosensing Techniques, Mitochondrion, Biochemistry, 0302 clinical medicine, Coordination Complexes, Neoplasms, Basic Cancer Research, Respiratory function, lcsh:Science, Energy-Producing Organelles, 0303 health sciences, Multidisciplinary, Microscopy, Confocal, Androgen analog, Prostate Cancer, Prostate Diseases, Oxygen Metabolism, Cell Hypoxia, 3. Good health, Cell biology, Mitochondria, Oncology, 030220 oncology & carcinogenesis, Medicine, medicine.symptom, Intracellular, Research Article, Cellular respiration, Urology, Blotting, Western, Cell Respiration, Biology, Bioenergetics, 03 medical and health sciences, Cell Line, Tumor, Rotenone, LNCaP, medicine, Genetics, Humans, 030304 developmental biology, Clinical Genetics, lcsh:R, Cancers and Neoplasms, Human Genetics, Hypoxia (medical), Hypoxia-Inducible Factor 1, alpha Subunit, Oxygen, Genitourinary Tract Tumors, Metabolism, Glucose, Limiting oxygen concentration, lcsh:Q

Abstract

Hypoxia influences many key biological functions. In cancer, it is generally believed that hypoxic condition is generated deep inside the tumor because of the lack of oxygen supply. However, consumption of oxygen by cancer should be one of the key means of regulating oxygen concentration to induce hypoxia but has not been well studied. Here, we provide direct evidence of the mitochondrial role in the induction of intracellular hypoxia. We used Acetylacetonatobis [2-(2′-benzothienyl) pyridinato-kN, kC3’] iridium (III) (BTP), a novel oxygen sensor, to detect intracellular hypoxia in living cells via microscopy. The well-differentiated cancer cell lines, LNCaP and MCF-7, showed intracellular hypoxia without exogenous hypoxia in an open environment. This may be caused by high oxygen consumption, low oxygen diffusion in water, and low oxygen incorporation to the cells. In contrast, the poorly-differentiated cancer cell lines: PC-3 and MDAMB231 exhibited intracellular normoxia by low oxygen consumption. The specific complex I inhibitor, rotenone, and the reduction of mitochondrial DNA (mtDNA) content reduced intracellular hypoxia, indicating that intracellular oxygen concentration is regulated by the consumption of oxygen by mitochondria. HIF-1α was activated in endogenously hypoxic LNCaP and the activation was dependent on mitochondrial respiratory function. Intracellular hypoxic status is regulated by glucose by parabolic dose response. The low concentration of glucose (0.045 mg/ml) induced strongest intracellular hypoxia possibly because of the Crabtree effect. Addition of FCS to the media induced intracellular hypoxia in LNCaP, and this effect was partially mimicked by an androgen analog, R1881, and inhibited by the anti-androgen, flutamide. These results indicate that mitochondrial respiratory function determines intracellular hypoxic status and may regulate oxygen-dependent biological functions.

Published

2014

50. Unexpected improvements of spatial learning and memory abilities in chronic rotenone intoxicated mice

Author

Hong Jiang, Ning Song, Junxia Xie, Chenyang Zhao, and Feng-Ju Jia

Subjects

Animal Experimentation, Insecticides, medicine.medical_specialty, Mouse, Neurogenesis, Spatial Learning, Neurophysiology, Hippocampus, Morris water navigation task, lcsh:Medicine, Biology, Hippocampal formation, Biochemistry, Protein Aggregation, Pathological, Mice, chemistry.chemical_compound, Model Organisms, Learning and Memory, Memory, Rotenone, Internal medicine, Neurobiology of Disease and Regeneration, medicine, Animals, Pesticides, lcsh:Science, Pars Compacta, Multidisciplinary, Dopaminergic, lcsh:R, Agriculture, Neurochemistry, Animal Models, Motor coordination, Doublecortin, Endocrinology, chemistry, alpha-Synuclein, biology.protein, lcsh:Q, Pest Control, Psychomotor Performance, Research Article, Neuroscience

Abstract

The liposoluble insecticide rotenone is commonly used as a mitochondrial complex I inhibitor to replicate Parkinson's disease (PD) pathological features. However, there was no assessment of the spatial learning and memory abilities in chronic rotenone-induced PD models. In the present study, by rotarod test and Thioflavine T staining, we first noted the impairment of motor coordination in rotenone-treated group for 3 months, as well as alpha-synuclein inclusions in the nigral dopaminergic neurons in C57BL/6 mice with intragastrical delivery of rotenone (5 mg/Kg) for 3 months rather than 1 month. We then evaluated spatial learning and memory abilities by Morris water maze task in this model. The results showed escape latency reduced in rotenone-intoxicated mice for 3 months, indicating an improvement of learning ability. However, it was delayed slightly but not significantly in rotenone-intoxicated mice for 1 month. Similarly, we demonstrated that spatial memory ability was enhanced in 3-month-treatment group, but impaired in 1-month-treatment group. There were no proliferating cell nuclear antigen and doublecortin positive cells in the hippocampus by double immunofluorescent staining, indicating the absence of hippocampal neurogenesis in rotenone-intoxicated mice. These results suggest that spatial learning and memory abilities are disturbed in chronic rotenone-intoxicated PD model.

Published

2014