Your search keyword '"locomotor behavior"' showing total 117 results

1. Environmentally relevant concentrations of F–53B induce eye development disorders-mediated locomotor behavior in zebrafish larvae

Author

Wu, Luyin, Zeeshan, Mohammed, Dang, Yao, Liang, Li-Ya, Gong, Yan-Chen, Li, Qing-Qing, Tan, Ya-Wen, Fan, Yuan-Yuan, Lin, Li-Zi, Zhou, Yang, Liu, Ru-Qing, Hu, Li-Wen, Yang, Bo-Yi, Zeng, Xiao-Wen, Yu, Yunjiang, and Dong, Guang-Hui

Published

2022

2. ZIF-8 nanoparticles induce neurobehavioral disorders through the regulation of ROS-mediated oxidative stress in zebrafish embryos

Author

Hu, Hongmei, Su, Meile, Ba, Huixia, Chen, Guilan, Luo, Jiaqi, Liu, Fasheng, Liao, Xinjun, Cao, Zigang, Zeng, Junquan, Lu, Huiqiang, Xiong, Guanghua, and Chen, Jianjun

Published

2022

3. Comparative analysis of locomotor behavior and head diurnal transcriptome regulation by PERIOD and CRY2 in the diamondback moth.

Author

Chen, Wenfeng, Wang, Danfeng, Yu, Lingqi, Zhong, Wenmiao, Yuan, Yao, and Yang, Guang

Subjects

*CLOCK genes, *NOCTURNAL animals, *BIOLOGICAL rhythms, *MOLECULAR clock, *ROTATION of the earth, *CIRCADIAN rhythms

Abstract

Earth's rotation shapes a 24‐h cycle, governing circadian rhythms in organisms. In mammals, the core clock genes, CLOCK and BMAL1, are regulated by PERIODs (PERs) and CRYPTOCHROMEs (CRYs), but their roles remain unclear in the diamondback moth, Plutella xylostella. To explore this, we studied P. xylostella, which possesses a simplified circadian system compared to mammals. In P. xylostella, we observed rhythmic expressions of the Pxper and Pxcry2 genes in their heads, with differing phases. In vitro experiments revealed that PxCRY2 repressed monarch butterfly CLK:BMAL1 transcriptional activation, while PxPER and other CRY‐like proteins did not. However, PxPER showed an inhibitory effect on PxCLK/PxCYCLE. Using CRISPR/Cas9, we individually and in combination knocked out Pxper and Pxcry2, then conducted gene function studies and circadian transcriptome sequencing. Loss of either Pxper or Pxcry2 eliminated the activity peak after lights‐off in light–dark cycles, and Pxcry2 loss reduced overall activity. Pxcry2 was crucial for maintaining endogenous rhythms in constant darkness. Under light–dark conditions, 1 098 genes exhibited rhythmic expression in wild‐type P. xylostella heads, with 749 relying on Pxper and Pxcry2 for their rhythms. Most core clock genes lost their rhythmicity in Pxper and Pxcry2 mutants, while Pxcry2 sustained rhythmic expression, albeit with reduced amplitude and altered phase. Additionally, rhythmic genes were linked to biological processes like the spliceosome and Toll signaling pathway, with these rhythms depending on Pxper or Pxcry2 function. In summary, our study unveils differences in circadian rhythm regulation by Pxper and Pxcry2 in P. xylostella. This provides a valuable model for understanding circadian clock regulation in nocturnal animals. [ABSTRACT FROM AUTHOR]

Published

2024

4. Sex differences in positional behavior of chimpanzees (Pan troglodytes schweinfurthii) living in the dry and open habitat of Issa Valley, Tanzania.

Author

Drummond‐Clarke, Rhianna C., Kivell, Tracy L., Sarringhaus, Lauren, Stewart, Fiona A., and Piel, Alex K.

Subjects

*FOSSIL hominids, *SEXUAL dimorphism, *CHIMPANZEES, *RIPARIAN forests, *APES

Abstract

Objectives: Many early fossil hominins are associated with savanna‐mosaic paleohabitats, and high sexual dimorphism that may reflect differences in positional behavior between sexes. However, reconstructions of hominin behavior and the selective pressures they faced in an open habitat are limited by a lack of studies of extant apes living in contemporary, analogous habitats. Here, we describe adult chimpanzee positional behavior in the savanna‐mosaic habitat of the Issa Valley, Tanzania, to test whether Issa chimpanzees show larger sex‐differences in positional behavior than their forest‐dwelling counterparts. Materials and Methods: We quantified and compared adult locomotor and postural behavior across sexes (6 females, 7 males) in the riparian forest (closed) and miombo woodland (open) vegetation types at Issa Valley (13,743 focal observations). We then compared our results to published data of chimpanzee communities living in more forested habitats. Results: Issa females and males both spent less time arboreally in open vegetation and showed similar locomotor and postural behavior on the same substrates, notably using a high level of suspensory locomotion when arboreal. Females were, however, more arboreal than males during locomotor behavior, as well as compared with females from other communities. Issa males behaved similarly to males from other communities. Conclusion: Results suggest that open habitats do not elicit less arboreal behaviors in either sex, and may even select for suspensory locomotion to effectively navigate an open canopy. An open habitat may, however, increase sex differences in positional behavior by driving female arboreality. We suggest this is because of higher energetic demands and predator pressures associated with open vegetation, which are likely exaggerated for reproducing females. These results have implications for the interpretation of how sexual dimorphism may influence reconstructions of hominin positional behavior. [ABSTRACT FROM AUTHOR]

Published

2024

5. Quantifying Variability in Zebrafish Larvae Locomotor Behavior across Experimental Conditions: A Learning-Based Tracker.

Author

Zhang, Zhuo, Chai, Xinyu, Si, Guoning, and Zhang, Xuping

Subjects

*BRACHYDANIO, *PRINCIPAL components analysis, *LARVAE, *LOW temperatures, *ANIMAL locomotion

Abstract

This study investigated the effects of environmental changes on zebrafish larval behavior, using single-factor and orthogonal experiments to assess locomotion during temperature and pH changes. In single-factor experiments, zebrafish larvae were exposed to variations in temperature (22 to 30 °C) and pH levels (6.0, 7.0, 9.0). The simultaneous temperature and pH changes were investigated by orthogonal tests. In both experiments, each zebrafish larva was recorded in three 5 min videos at different stages (before exposure, during short-term exposure (10 min), and after long-term exposure (60 min)). You Look Only Once (YOLOv5) and Deep Simple Online Real Time Tracking (DeepSORT) models were adopted to develop a zebrafish larva tracking system, and YOLOv5 was improved in two aspects of anchor clustering and network structure. The tracking accuracy of the tracking system for small targets effectively improved, reaching more than 98% MOTA (Multiple Object Tracking Accuracy). Principal Component Analysis (PCA) was employed to extract three behavioral features from 13 motion parameters, namely motion activity, edge behavior, and motion direction preference. Our findings reveal that lower temperatures and acidic conditions both led to a decrease in motion behavioral activity, and the former also increased edge behavior. Conversely, elevated temperatures and alkaline conditions had a muted impact on these behaviors. Interestingly, concurrent changes in temperature and pH significantly altered directional preference. Additionally, we observed that lower temperatures elicited distinct temporal behavioral patterns at a constant pH level. In summary, we recommend the precise control and explicit reporting of ambient temperature and pH in both breeding devices and experimental wells to minimize the environmental impact on zebrafish behavior and enhance experiment repeatability and reliability. [ABSTRACT FROM AUTHOR]

Published

2024

6. 微塑料 PVC 与磺胺甲恶唑联合暴露大型溞引发的急慢性毒理效应.

Author

修文洁, 闫 淼, 顾冀海, 柳峰松, and 张玉明

Abstract

Copyright of Journal of Hydrobiology / Shuisheng Shengwu Xuebao is the property of Editorial Department of Journal of Hydrobiology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. Ecotoxicological Effects of Potassium Dichromate on the Tadpole Shrimp Triops longicaudatus.

Author

Pereira, André Carido, Saraiva, Aurélia, Oliva-Teles, Luís, Guimarães, Laura, and Carvalho, António Paulo

Subjects

*POTASSIUM dichromate, *TADPOLES, *HEXAVALENT chromium, *LIFE cycles (Biology), *SHRIMPS, *ECOSYSTEMS

Abstract

Simple Summary: Over the years, research from other areas has suggested that tadpole shrimps could be a useful model to detect and evaluate the effects of aquatic contamination and environmental health. Its size, active swimming, short generation time, and easy lab maintenance make it an attractive alternative to the use of higher sentient animals. This investigation has thus aimed at evaluating the sensitivity of Triops longicaudatus to potassium dichromate, a common contaminant in aquatic systems, also used as reference compound in ecotoxicology. Lethal and sublethal exposure assays were carried out and biochemical to apical endpoints with an impact at the population level were measured. We found negative impacts in the growth rate, delayed reproductive maturity, and alteration in the locomotor behavior upon exposure to potassium dichromate. The sensitivity of the species was higher than that of various freshwater animals commonly used in toxicity testing. Behavior appeared as the most sensitive response to chromium exposure, discriminating well the test concentrations from the control group and from each other. The tadpole shrimp Triops longicaudatus is a freshwater crustacean with fast embryonic and larval development, short life cycle, and high fecundity. They are very active swimmers of a reasonable size, easy to spot and record. Such characteristics make it a promising candidate as an experimental model in ecotoxicology to evaluate the effects of aquatic pollutants, particularly using its locomotor behavior as an endpoint. To evaluate the sensitivity of T. longicaudatus and develop endpoints of interest, we conducted exposure experiments with lethal and sub-lethal concentrations of potassium dichromate, a compound known for its ecotoxicological importance and as a hexavalent chromium source. The endpoints evaluated were mortality, growth, sexual maturation, reproductive output, cholinesterase activity and locomotor/swimming behavior. The 96 h median lethal concentration was found to be 65 µg/L. Furthermore, exposure to potassium dichromate at higher concentrations had a significant negative impact on the growth rate of T. longicaudatus in terms of both body mass and length. The time for maturation was also delayed at higher concentrations. In addition, locomotor behavior allowed for the discrimination of all tested chromium concentrations and the control group and from each other, proving to be the most sensitive endpoint. Overall, the data support the potential of T. longicaudatus as a model for ecotoxicity testing, using apical endpoints with impact at the population level; in particular, results suggest that behavior assessments in this species might be useful for detecting hazardous compounds in environmental monitoring of freshwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

8. Heat stress affects swimming performance and induces biochemical, structural, and transcriptional changes in the heart of Gymnocypris eckloni

Author

Junting Li, Yuting Duan, Weiqiang Kong, He Gao, Suxing Fu, Hejiao Li, Yinhua Zhou, Haiping Liu, Dengyue Yuan, and Chaowei Zhou

Subjects

High temperature, Locomotor behavior, Heart damage, Transcriptomic response, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Global warming has heightened the severity and frequency of extreme high-temperature events, presenting challenges to fish survival and negatively affecting the production of fishery. Gymnocypris eckloni, native to the Tibetan Plateau, is widely cultured in southwest China. Its sensitivity to heat makes it a suitable model for studying the impact of high temperatures on fish. The heart is a vital organ for survival, while is relatively understudied concerning the impact of high temperatures on fish hearts. In this study, G. eckloni was subjected to a seven-day exposure to 27 °C followed by a transfer to 18 °C for a seven-day recovery period. Behavioral tests revealed a significant increase in locomotor speed, distance, and respiratory rate of G. eckloni at 27 °C. Serum indices exhibited significantly elevated stress indicators (cortisol) and kinases associated with heart damage (lactate dehydrogenase, lactate dehydrogenase isoenzyme 1, creatine kinase, creatine kinase isoenzyme, and aspartate transaminase) at 27 °C, and histological analyses have confirmed the occurrence of heart damage subjected to high temperatures. After 7 days of recovery, most of these indicators showed a significant decrease compared to the heat stress group, with no significant differences observed compared to the control group. Transcriptomic analyses have revealed the widespread involvement of ferroptosis, P53 signaling pathway, oxidative phosphorylation, myocardial contraction, and DNA repair pathway in the response of G. eckloni to high temperatures. Our study offers a systematic exploration of the effects of heat stress on G. eckloni, providing valuable insights for the cultivation of high-altitude fish.

Published

2024

9. A new approach for objective monitoring of the pharmacological-treatment response in recurrent depressions.

Author

Dimitrov, Rumen, Haralanova, Evelina, Milanov, Ivan, Ognyanov, Sava, Parvova, Iva, and Milushev, Emil

Subjects

MENTAL depression, PHARMACODYNAMICS, PSYCHOMOTOR disorders, PSYCHOPHARMACOLOGY, CLINICAL trials

Abstract

Depressive disorders are among the most important psychiatric problems. In everyday clinical practice, their symptoms and, respectively, their response to pharmacological treatment are both evaluated and measured subjectively. In the present paper, we apply a new approach for objective monitoring of the pharmacological-treatment response in patients with recurrent depressions. The applied method is user-friendly, easy-to-perform, and not time-consuming (1 test = 1 min), thus allowing repeatable examinations of many patients. The results show that the pre-treatment examination could discriminate between patients and healthy controls by revealing objectively measurable psychomotor retardation (in terms of locomotor hypo-activity and brady-reactivity) in the depressive group. After effective psychopharmacological treatment in a psychiatric clinic, the revealed psychomotor retardation is significantly improved (although not fully normalized) during the post-treatment examination at the time of discharge. The conclusion is that the new approach is reliable and sensitive enough to serve as a surrogate pharmacodynamic biomarker in patients with recurrent depressions. [ABSTRACT FROM AUTHOR]

Published

2024

10. Ataxia-associated DNA repair genes protect the Drosophila mushroom body and locomotor function against glutamate signaling-associated damage.

Author

Eidhof, Ilse, Krebbers, Alina, van de Warrenburg, Bart, and Schenck, Annette

Subjects

GLUTAMIC acid, DROSOPHILA, DROSOPHILA melanogaster, GENES, NEURAL transmission, DNA repair, EXCITATORY amino acids

Abstract

The precise control of motor movements is of fundamental importance to all behaviors in the animal kingdom. Efficient motor behavior depends on dedicated neuronal circuits - such as those in the cerebellum - that are controlled by extensive genetic programs. Autosomal recessive cerebellar ataxias (ARCAs) provide a valuable entry point into how interactions between genetic programs maintain cerebellar motor circuits. We previously identified a striking enrichment of DNA repair genes in ARCAs. How dysfunction of ARCA-associated DNA repair genes leads to preferential cerebellar dysfunction and impaired motor function is however unknown. The expression of ARCA DNA repair genes is not specific to the cerebellum. Only a limited number of animal models for DNA repair ARCAs exist, and, even for these, the interconnection between DNA repair defects, cerebellar circuit dysfunction, and motor behavior is barely established. We used Drosophila melanogaster to characterize the function of ARCA-associated DNA repair genes in the mushroom body (MB), a structure in the Drosophila central brain that shares structural features with the cerebellum. Here, we demonstrate that the MB is required for efficient startle-induced and spontaneous motor behaviors. Inhibition of synaptic transmission and loss-of-function of ARCA-associated DNA repair genes in the MB affected motor behavior in several assays. These motor deficits correlated with increased levels of MB DNA damage, MB Kenyon cell apoptosis and/or alterations in MB morphology. We further show that expression of genes involved in glutamate signaling pathways are highly, specifically, and persistently elevated in the postnatal human cerebellum. Manipulation of glutamate signaling in the MB induced motor defects, Kenyon cell DNA damage and apoptosis. Importantly, pharmacological reduction of glutamate signaling in the ARCA DNA repair models rescued the identified motor deficits, suggesting a role for aberrant glutamate signaling in ARCA-DNA repair disorders. In conclusion, our data highlight the importance of ARCA-associated DNA repair genes and glutamate signaling pathways to the cerebellum, the Drosophila MB and motor behavior. We propose that glutamate signaling may confer preferential cerebellar vulnerability in ARCA-associated DNA repair disorders. Targeting glutamate signaling could provide an exciting therapeutic entry point in this large group of so far untreatable disorders. [ABSTRACT FROM AUTHOR]

Published

2023

11. Ataxia-associated DNA repair genes protect the Drosophila mushroom body and locomotor function against glutamate signaling-associated damage

Author

Ilse Eidhof, Alina Krebbers, Bart van de Warrenburg, and Annette Schenck

Subjects

autosomal recessive cerebellar ataxia, Drosophila, locomotor behavior, DNA repair, glutamate signaling, mushroom body, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The precise control of motor movements is of fundamental importance to all behaviors in the animal kingdom. Efficient motor behavior depends on dedicated neuronal circuits – such as those in the cerebellum – that are controlled by extensive genetic programs. Autosomal recessive cerebellar ataxias (ARCAs) provide a valuable entry point into how interactions between genetic programs maintain cerebellar motor circuits. We previously identified a striking enrichment of DNA repair genes in ARCAs. How dysfunction of ARCA-associated DNA repair genes leads to preferential cerebellar dysfunction and impaired motor function is however unknown. The expression of ARCA DNA repair genes is not specific to the cerebellum. Only a limited number of animal models for DNA repair ARCAs exist, and, even for these, the interconnection between DNA repair defects, cerebellar circuit dysfunction, and motor behavior is barely established. We used Drosophila melanogaster to characterize the function of ARCA-associated DNA repair genes in the mushroom body (MB), a structure in the Drosophila central brain that shares structural features with the cerebellum. Here, we demonstrate that the MB is required for efficient startle-induced and spontaneous motor behaviors. Inhibition of synaptic transmission and loss-of-function of ARCA-associated DNA repair genes in the MB affected motor behavior in several assays. These motor deficits correlated with increased levels of MB DNA damage, MB Kenyon cell apoptosis and/or alterations in MB morphology. We further show that expression of genes involved in glutamate signaling pathways are highly, specifically, and persistently elevated in the postnatal human cerebellum. Manipulation of glutamate signaling in the MB induced motor defects, Kenyon cell DNA damage and apoptosis. Importantly, pharmacological reduction of glutamate signaling in the ARCA DNA repair models rescued the identified motor deficits, suggesting a role for aberrant glutamate signaling in ARCA-DNA repair disorders. In conclusion, our data highlight the importance of ARCA-associated DNA repair genes and glutamate signaling pathways to the cerebellum, the Drosophila MB and motor behavior. We propose that glutamate signaling may confer preferential cerebellar vulnerability in ARCA-associated DNA repair disorders. Targeting glutamate signaling could provide an exciting therapeutic entry point in this large group of so far untreatable disorders.

Published

2023

12. Evaluating the effect of R-Baclofen and LP-211 on autistic behavior of the BTBR and Fmr1-KO mouse models.

Author

Sharghi, Shirin, Flunkert, Stefanie, Daurer, Magdalena, Rabl, Roland, Chagnaud, Boris Philippe, Leopoldo, Marcello, Lacivita, Enza, Hutter-Paier, Birgit, and Prokesch, Manuela

Subjects

LABORATORY mice, SEROTONIN agonists, ANIMAL behavior, AUTISM spectrum disorders, HYPERACTIVITY, ANIMAL experimentation

Abstract

Introduction: Autism spectrum disorder (ASD) is a persistent neurodevelopmental condition characterized by two core behavioral symptoms: impaired social communication and interaction, as well as stereotypic, repetitive behavior. No distinct cause of ASD is known so far; however, excitatory/inhibitory imbalance and a disturbed serotoninergic transmission have been identified as prominent candidates responsible for ASD etiology. Methods: The GABAB receptor agonist R-Baclofen and the selective agonist for the 5HT7 serotonin receptor LP-211 have been reported to correct social deficits and repetitive behaviors in mouse models of ASD. To evaluate the efficacy of these compounds in more details, we treated BTBR TC Itpr3tf/J and B6.129P2-Fmr1tm1Cgr/J mice acutely with R-Baclofen or LP-211 and evaluated the behavior of animals in a series of tests. Results: BTBR mice showed motor deficits, elevated anxiety, and highly repetitive behavior of self-grooming. Fmr1-KO mice exhibited decreased anxiety and hyperactivity. Additionally, Fmr1-KO mice's ultrasonic vocalizations were impaired suggesting a reduced social interest and communication of this strain. Acute LP-211 administration did not affect the behavioral abnormalities observed in BTBR mice but improved repetitive behavior in Fmr1-KO mice and showed a trend to change anxiety of this strain. Acute R-Baclofen treatment improved repetitive behavior only in Fmr1-KO mice. Conclusion: Our results add value to the current available data on these mouse models and the respective compounds. Yet, additional studies are needed to further test R-Baclofen and LP-211 as potential treatments for ASD therapy. [ABSTRACT FROM AUTHOR]

Published

2023

13. Short-Term Effects of Human versus Bovine Sialylated Milk Oligosaccharide Microinjection on Zebrafish Larvae Survival, Locomotor Behavior and Gene Expression.

Author

Licitra, Rosario, Naef, Valentina, Marchese, Maria, Damiani, Devid, Ogi, Asahi, Doccini, Stefano, Fronte, Baldassare, Yan, Jingyu, and Santorelli, Filippo M.

Subjects

*GENE expression, *BREAST milk, *MICROINJECTIONS, *LARVAE, *BRACHYDANIO, *MILK

Abstract

Milk oligosaccharides are a complex class of carbohydrates that act as bioactive factors in numerous defensive and physiological functions, including brain development. Early nutrition can modulate nervous system development and can lead to epigenetic imprinting. We attempted to increase the sialylated oligosaccharide content of zebrafish yolk reserves, with the aim of evaluating any short-term effects of the treatment on mortality, locomotor behavior, and gene expression. Wild-type embryos were microinjected with saline solution or solutions containing sialylated milk oligosaccharides extracted from human and bovine milk. The results suggest that burst activity and larval survival rates were unaffected by the treatments. Locomotion parameters were found to be similar during the light phase between control and treated larvae; in the dark, however, milk oligosaccharide-treated larvae showed increased test plate exploration. Thigmotaxis results did not reveal significant differences in either the light or the dark conditions. The RNA-seq analysis indicated that both treatments exert an antioxidant effect in developing fish. Moreover, sialylated human milk oligosaccharides seemed to increase the expression of genes related to cell cycle control and chromosomal replication, while bovine-derived oligosaccharides caused an increase in the expression of genes involved in synaptogenesis and neuronal signaling. These data shed some light on this poorly explored research field, showing that both human and bovine oligosaccharides support brain proliferation and maturation. [ABSTRACT FROM AUTHOR]

Published

2023

14. Fluoride Induced Neurobehavioral Impairments in Experimental Animals: a Brief Review.

Author

Ottappilakkil, Harsheema, Babu, Srija, Balasubramanian, Satheeswaran, Manoharan, Suryaa, and Perumal, Ekambaram

Abstract

Fluoride is one of the major toxicants in the environment and is often found in drinking water at higher concentrations. Living organisms including humans exposed to high fluoride levels are found to develop mild-to-severe detrimental pathological conditions called fluorosis. Fluoride can cross the hematoencephalic barrier and settle in various brain regions. This accumulation affects the structure and function of both the central and peripheral nervous systems. The neural ultrastructure damages are reflected in metabolic and cognitive activities. Hindrances in synaptic plasticity and signal transmission, early neuronal apoptosis, functional alterations of the intercellular signaling pathway components, improper protein synthesis, dyshomeostasis of the transcriptional and neurotrophic factors, oxidative stress, and inflammatory responses are accounted for the fluoride neurotoxicity. Fluoride causes a decline in brain functions that directly influence the overall quality of life in both humans and animals. Animal studies are widely used to explore the etiology of fluoride-induced neurotoxicity. A good number of these studies support a positive correlation between fluoride intake and toxicity phenotypes closely associated with neurotoxicity. However, the experimental dosages highly surpass the normal environmental concentrations and are difficult to compare with human exposures. The treatment procedures are highly dependent on the dosage, duration of exposure, sex, and age of specimens among other factors which make it difficult to arrive at general conclusions. Our review aims to explore fluoride-induced neuronal damage along with associated histopathological, behavioral, and cognitive effects in experimental models. Furthermore, the correlation of various molecular mechanisms upon fluoride intoxication and associated neurobehavioral deficits has been discussed. Since there is no well-established mechanism to prevent fluorosis, phytochemical-based alleviation of its characteristic indications has been proposed as a possible remedial measure. [ABSTRACT FROM AUTHOR]

Published

2023

15. Stage-Related Neurotoxicity of BPA in the Development of Zebrafish Embryos.

Author

Liu, Jianjun, Kong, Wenyu, Liu, Yuchen, Ma, Qiyao, Shao, Qi, Zeng, Liwen, Chao, Yu, Song, Xiaoyao, and Zhang, Jie

Subjects

ZEBRA danio embryos, BRACHYDANIO, GENE expression, NEURAL development, LARVAE, NEUROTOXICOLOGY, EMBRYOS, EPOXY resins

Abstract

Bisphenol A (BPA) is one of the most widely produced chemicals in the world used in the production of epoxy resins and polycarbonate plastics. BPA is easily migrated from the outer packaging to the contents. Due to the lipophilic property, BPA is easily accumulated in organisms. Perinatal low-dose BPA exposure alters brain neural development in later generations. In this study, after BPA treatment, the spontaneous movement of zebrafish larvae from the cleavage period to the segmentation period (1–24 hpf) was significantly decreased, with speed decreasing by 18.97% and distance decreasing between 18.4 and 29.7% compared to controls. Transcriptomics analysis showed that 131 genes were significantly differentially expressed in the exposed group during the 1–24 hpf period, among which 39 genes were significantly upregulated and 92 genes were significantly downregulated. The GO enrichment analysis, gene function analysis and real-time quantitative PCR of differentially expressed genes showed that the mRNA level of guanine deaminase (cypin) decreased significantly in the 1–24 hpf period. Moreover, during the 1–24 hpf period, BPA exposure reduced guanine deaminase activity. Therefore, we confirmed that cypin is a key sensitive gene for BPA during this period. Finally, the cypin mRNA microinjection verified that the cypin level of zebrafish larvae was restored, leading to the restoration of the locomotor activity. Taken together, the current results show that the sensitive period of BPA to zebrafish embryos is from the cleavage period to the segmentation period (1–24 hpf), and cypin is a potential target for BPA-induced neurodevelopmental toxicity. This study provides a potential sensitive period and a potential target for the deep understanding of neurodevelopmental toxicity mechanisms caused by BPA. [ABSTRACT FROM AUTHOR]

Published

2023

16. Effect of creatine administration on locomotor activity and stress response in olive flounder (Paralichthys olivaceus).

Author

Zou, Huafeng, Lin, Lehe, Liu, Liangfang, Shi, Mengmeng, and Lu, Weiqun

Subjects

*CREATINE kinase, *STARTLE reaction, *BEHAVIORAL assessment, *SPINAL cord, *INTRAPERITONEAL injections

Abstract

The creatine kinase system is crucial for maintaining cellular energy homeostasis and plays a role in regulating locomotor behavior in organisms, but its significance in the regulating the motionless behavior in olive flounder is limited. In the first experiment of this study, elevated levels of creatine kinase (CK) activity in the spinal cord were detected in the juvenile group (JG) flounder compared to the adult group (AG) flounder. In the second experiment, to further confirm the involvement of CK in the locomotor behavior, the adult flounder was given an intraperitoneal injection of creatine (150 mg/kg), while the flounder in the control group received a saline solution. After one week post-injection, the behavioral analysis revealed that the flounder in the creatine-treated group displayed higher levels of locomotor activity and a greater number of escape attempts in response to external stimuli when compared to the control group. However, the acute stress response, induced by intraperitoneal injection and characterized by tail beating, was significantly alleviated in the flounder in the creatine-treated group. Additionally, there was an upregulation of the UII and AchR genes in the spinal cord, as well as increased levels of UII and AchR in the muscle tissues of the creatine-treated flounder. However, a reduction in UI mRNA levels was observed in the brain of the flounder. Collectively, our data provide the evidence that the elevated enzyme activity and gene expression of creatine kinase play important roles in off-bottom swimming behavior in the JG flounder. Furthermore, administration of creatine improved the locomotor activity and alleviated the stress response in flounder, which is associated with regulation of the locomotor- and stress-related gene in the brain, spinal cord, and muscle. [Display omitted] • High levels of creatine kinase activity were detected in the spinal cord of JG flounder. • Creatine-treated flounder displayed a higher locomotor activity and less struggling behavior. • U-II and PA in spinal cord, AchR and UTR in muscle were up-regulated in the creatine-treated flounder. • UI and slc6a8 mRNA in brain was significantly decreased in the creatine-treated flounder. [ABSTRACT FROM AUTHOR]

Published

2024

17. Neuropharmacological Effects of Chassalia curviflora (Rubiaceae) Leaves in Swiss Albino Mice Model

Author

F Islam, A Akter, A. A Mimi, H Urmee, Md. R Islam, Md. S Rahaman, A. A Mamun, Md. M Rahman, K Dhama, and T. B Emran

Subjects

chassalia curviflora, gamma-aminobutyric acid, latent period, locomotor behavior, neuropharmacological potential, Veterinary medicine, SF600-1100

Abstract

The current study aimed to investigate the neuropharmacological properties of ethanol, acetone, and ethyl acetate leaf extracts of Chassalia curviflora (C. curviflora) in mouse models. The neuropharmacological properties of this plant were studied on Swiss albino mice at dosages of 50, 100, and 200 mg/kg body weight in thiopental sodium-induced sleeping time test, and at dosages of 100 and 200 mg/kg body weight in other tests. The extracts caused a marked reduction in the initiation and sleep length (P

Published

2022

18. Transcriptome reveals the toxicity and genetic response of zebrafish to naphthenic acids and benzo[a]pyrene at ambient concentrations

Author

Huanxin Zhang, Panpan Si, Qiang Kong, and Jinyue Ma

Subjects

Naphthenic acids, Benzo[a]pyrene, Zebrafish (Danio rerio), Transcriptomics, Oxidative stress, Locomotor behavior, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Naphthenic acids (NAs) are typical contaminants in heavily crude oil. Benzo[a]pyrene (B[a]P) is also a component of crude oil, but their combined effects have not been systematically explored. In this study, zebrafish (Danio rerio) were used as the test organisms, and behavioral indicators and enzyme activities were used as toxicity indicators. Combined with the effects of environmental concentrations, the toxic effects of low concentrations of commercially available NAs (0.5 mg/LNA) and benzo[a]pyrene (0.8 μg/LBaP) at single and compound exposures (0.5 mg/LNA and 0.8 μg/LBaP) were assayed in zebrafish, and transcriptome sequencing technology was used to explore the molecular mechanism of the two compounds affecting zebrafish from the molecular biology level. Sensitive molecular markers that could indicate the presence of contaminants were screened. The results showed that (1) zebrafish in the NA and BaP exposure groups exhibited increased locomotor behavior, and the mixed exposure group exhibited inhibition of locomotor behavior. Oxidative stress biomarkers showed increased activity under single exposure and decreased activity under the mixed exposure. (2) NA stress led to changes in the activity of transporters and the intensity of energy metabolism; BaP directly stimulates the pathway of actin production. When the two compounds are combined, the excitability of neurons in the central nervous system is decreased, and the actin-related genes are down-regulated. (3) After BaP and Mix treatments, genes were enriched in the cytokine-receptor interaction and actin signal pathway, while NA increased the toxic effect on the mixed treatment group. In general, the interaction between NA and BaP has a synergistic effect on the transcription of zebrafish nerve and motor behavior-related genes, resulting in increased toxicity under combined exposure. The changes in expression of various zebrafish genes are manifested in the changes in the normal movement behavior of zebrafish and the intensification of oxidative stress in the apparent behavior and physiological indicators. Capsule abstract: We investigated the toxicity and genetic alterations caused by NA, B[a]P, and their mixtures in zebrafish in an aquatic environment using transcriptome sequencing technology and comprehensive behavioral analysis. These changes involved energy metabolism, the generation of muscle cells, and the nervous system.

Published

2023

19. Evaluating the effect of R-Baclofen and LP-211 on autistic behavior of the BTBR and Fmr1-KO mouse models

Author

Shirin Sharghi, Stefanie Flunkert, Magdalena Daurer, Roland Rabl, Boris Philippe Chagnaud, Marcello Leopoldo, Enza Lacivita, Birgit Hutter-Paier, and Manuela Prokesch

Subjects

autism spectrum disorders, locomotor behavior, anxiety, repetitive behavior, ultrasonic vocalization, GABAB receptor agonist, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionAutism spectrum disorder (ASD) is a persistent neurodevelopmental condition characterized by two core behavioral symptoms: impaired social communication and interaction, as well as stereotypic, repetitive behavior. No distinct cause of ASD is known so far; however, excitatory/inhibitory imbalance and a disturbed serotoninergic transmission have been identified as prominent candidates responsible for ASD etiology.MethodsThe GABAB receptor agonist R-Baclofen and the selective agonist for the 5HT7 serotonin receptor LP-211 have been reported to correct social deficits and repetitive behaviors in mouse models of ASD. To evaluate the efficacy of these compounds in more details, we treated BTBR T+ Itpr3tf/J and B6.129P2-Fmr1tm1Cgr/J mice acutely with R-Baclofen or LP-211 and evaluated the behavior of animals in a series of tests.ResultsBTBR mice showed motor deficits, elevated anxiety, and highly repetitive behavior of self-grooming. Fmr1-KO mice exhibited decreased anxiety and hyperactivity. Additionally, Fmr1-KO mice’s ultrasonic vocalizations were impaired suggesting a reduced social interest and communication of this strain. Acute LP-211 administration did not affect the behavioral abnormalities observed in BTBR mice but improved repetitive behavior in Fmr1-KO mice and showed a trend to change anxiety of this strain. Acute R-Baclofen treatment improved repetitive behavior only in Fmr1-KO mice.ConclusionOur results add value to the current available data on these mouse models and the respective compounds. Yet, additional studies are needed to further test R-Baclofen and LP-211 as potential treatments for ASD therapy.

Published

2023

20. Neurodevelopmental toxicity of organophosphate flame retardant triphenyl phosphate (TPhP) on zebrafish (Danio rerio) at different life stages

Author

Qiong Zhang, Shukai Zheng, Xiaoling Shi, Congying Luo, Wenlong Huang, Henghui Lin, Jiajun Peng, Wei Tan, and Kusheng Wu

Subjects

Triphenyl phosphate (TPhP), Neurotoxicity, Locomotor behavior, Multiple stage zebrafish, Visuomotor dysfunction, Oxidative stress, Environmental sciences, GE1-350

Abstract

As a substitute for polybrominated diphenyl ethers (PBDEs), organophosphate flame retardant triphenyl phosphate (TPhP) is widely used in our daily products and diffusely exists in our living surroundings, but there is a paucity of information concerning its neurodevelopmental toxicity. Herein, we investigated the effects of TPhP exposure on developmental parameters, locomotor behavior, oxidative stress, apoptosis and transcriptional levels in zebrafish at different developmental stages, so as to explore the effects of TPhP exposure on zebrafish neural development and the underlying molecular mechanisms. TPhP concentration gradient exposure reduced the survival rate, hatchability, heart rate, body length and eye distance of zebrafish embryos/larvae, and caused malformations of zebrafish larvae. TPhP also leads to abnormal locomotor behaviors, such as reduced swimming distance and swimming speed, and impaired panic avoidance reflex to high light stimulation. TPhP caused ROS accumulation in 96 hpf larvae and induced Nrf2-antioxidant response in zebrafish. In addition, TPhP further activated mitochondrial signaling pathways, which affected apoptosis in the zebrafish eye region, resulting in visual impairment. Neurodevelopmental (mbpa, syn2a, foxo3a and pax6a), Retinoid acid metabolism (cyp26a1, raraa, rbp5, rdh1, crabp1a and rbp2a) and apoptosis-related genes (bcl2a, baxa and casp9) revealed the molecular mechanism of abnormal behavior and phenotypic symptoms, and also indicated that 96 hpf larvae are more sensitive than 7 dpf larvae. Thus, in the present study, we revealed the neurotoxic effects of TPhP at different early life stages in zebrafish, and zebrafish locomotor behavior impairments induced by TPhP exposure are attributed to co-regulation of visuomotor dysfunction and neuro-related genes. These results suggest that the safety of TPhP in organisms and even in humans needs to be further studied.

Published

2023

21. Quercetin Attenuates Nitroglycerin-Induced Migraine Headaches by Inhibiting Oxidative Stress and Inflammatory Mediators.

Author

Foudah, Ahmed I., Devi, Sushma, Alqarni, Mohammed H., Alam, Aftab, Salkini, Mohammad Ayman, Kumar, Manish, and Almalki, Husam Saad

Abstract

This study aimed to investigate the antimigraine potential of quercetin in migraine pain induced by nitroglycerin (NTG), 10 mg/kg, intraperitoneal injection in rats. Quercetin was administered orally for 1 week, and behavioral parameters associated with pain were assessed 30 min after NTG injection. At the end of the study, the rats were killed so that immunohistochemical examination of their brains could be performed. The time and frequency of rearing and sniffing in the category of exploratory behavior, walking in the category of locomotor behavior, and total time spent in the light chamber were reduced in the disease control group compared with the normal group during the assessment of behavioral parameters. Pathologic migraine criteria, such as increased levels of calcitonin gene-related peptide and increased release of c-fos cells, were more prominent in the caudal nucleus triceminalis of the NTG control group. In the treatment groups, behavioral and pathological measures were less severe after pretreatment with quercetin at doses of 250 and 500 mg/kg. Therefore, it was concluded that quercetin improved the pain behavior of migraine patients in the NTG-induced migraine rat model. Quercetin is thought to have antimigraine effects due to its antioxidant and anti-inflammatory potential. Quercetin may therefore be a novel agent that can treat or prevent migraine pain and associated avoidance behaviors. [ABSTRACT FROM AUTHOR]

Published

2022

22. Exploring Femoral Neck-Shaft Angle Alterations in Post-Medieval Children with Vitamin D Deficiency Rickets.

Author

Ives, Rachel, Swan, Karen, and Humphrey, Louise

Subjects

*VITAMIN D deficiency, *RICKETS treatment, *MUSCLE weakness, *CHILD care

Abstract

The femoral neck-shaft angle (NSA) can adapt to the early onset of habitual but changeable loading behaviors, such as sitting, crawling, standing, and cruising behaviors, and the adoption of immature through to mature walking patterns. However, normal patterns of skeletal growth can be modified by underlying pathological conditions. Femoral head depression and neck angulation can occur during vitamin D deficiency rickets, but the pattern of NSA deformation occurring during the period of locomotor development in children with rickets has not been widely studied. This study aimed to broaden understanding of rickets beyond historical and bioarchaeological prevalence rates to explore the functional impacts of the condition on femoral development. Radiographs of 200 children from eighteenth-to nineteenth-century London (76 rickets, 124 non-rickets) were measured for femoral NSA. The results demonstrate notable differences in NSA in children with and without rickets, which vary depending on disease status, severity, and age at onset. Children under 2 years with severe and marked cases of active rickets typically presented a higher femoral NSA, which may be attributed to delayed development during this disease phase and/or limited or delayed activity, potentially exacerbated by pain, muscle weakness, and childcare practices. In contrast, children over the age of 1 year with healed rickets frequently displayed femoral neck deformation and reduced NSA likely linked to mechanical loading experienced during the deficiency. Importantly, defects in the proximal femur can develop during recovery from poor mineralization and endochondral defects and may exaggerate the appearance of femoral neck deformation during continued growth. [ABSTRACT FROM AUTHOR]

Published

2022

23. Relationship between toxicity and oxidative stress of the nanoencapsulated colchicine in a model of Drosophila melanogaster.

Author

Machado, Franciéle Romero, Araujo, Stífani Machado, Funguetto, Ana Cláudia Ribeiro, Bortolotto, Vandreza Cardoso, Fernandes, Eliana Jardim, Mustafa Dahleh Mustafa, Munir, Haas, Sandra Elisa, Guerra, Gustavo Petri, Prigol, Marina, and Boeira, Silvana Peterini

Subjects

*DROSOPHILA melanogaster, *COLCHICINE, *DRUG target, *DRUG repositioning, *DRUG toxicity, *BIOAVAILABILITY, *OXIDATIVE stress, *GLUTATHIONE transferase, *CATALASE

Abstract

Drug repurposing allows searching for new biological targets, especially against emerging diseases such as Covid-19. Drug colchicine (COL) presents recognized anti-inflammatory action, while the nanotechnology purpose therapies with low doses, efficacy, and decrease the drug's side-effects. This study aims to evaluate the effects of COL and colchicine nanocapsules (NCCOL) on survival, LC50, activity locomotor, and oxidative stress parameters, elucidating the toxicity profile in acute and chronic exposure in Drosophila melanogaster. Three-day-old flies were investigated into groups: Control, 0.001, 0.0025, 0.005, and 0.010 mg/mL of COL or NCCOL. The survival rate, open field test, LC50, oxidative stress markers (reactive species (RS) production, thiobarbituric acid reactive substances), antioxidant enzyme activity (catalase (CAT), superoxide dismutase (SOD), glutathione S-transferase), protein thiols, nonprotein thiols, acetylcholinesterase activity, and cell viability were measured. As a result, acute exposure to the COL decreases the number of crosses in the open field and increases CAT activity. NCCOL reduced RS levels, increased lipoperoxidation and SOD activity. Chronic exposure to the COL and NCCOL in high concentrations implied high mortality and enzymatic inhibition of the CAT and AChE, and only the COL caused locomotor damage in the open field test. Thus, NCCOL again reduced the formation of RS while COL increased. In this comparative study, NCCOL was less toxic to the antioxidant system than COL and showed notable involvement of oxidative stress as one of their toxicity mechanisms. Future studies are needed to elucidate all aspects of nanosafety related to the NCCOL. Drug repositioning contributes to research involving emerging diseases. Nanoencapsulation of drugs aims to increase bioavailability. Certain concentrations of nanocolchicine affect Drosophila antioxidant enzymes. Oxidative stress pathways are involved in colchicine drug toxicity. The nanosafety of nanomaterials is essential for further research on a larger scale. [ABSTRACT FROM AUTHOR]

Published

2022

24. Transcriptomic and Behavioral Studies of Small Yellow Croaker (Larimichthys polyactis) in Response to Noise Exposure.

Author

Zhang, Xuguang, Zhou, Jun, Xu, Wengang, Zhan, Wei, Zou, Huafeng, and Lin, Jun

Subjects

*LARIMICHTHYS, *ENDOCYTOSIS, *NOISE pollution, *MARINE pollution, *NOISE, *TRANSCRIPTOMES, *CELL adhesion molecules

Abstract

Simple Summary: Ocean noise pollution from marine traffic may affect the behavioral, ecological and biochemical parameters of marine fish species. Most studies have focused on behavioral changes and hearing damage in fishes, but the molecular mechanism of noise exposure in the impairment of the brain has rarely been reported. In this study, using small yellow croaker (L. polyactis) as a model, we used RNA-seq methods to characterize differently expressed genes between the control group and the noise exposure group. GO and KEGG pathway analysis found that synaptic transmission, neurotransmitter transport, endocytosis procession, cell adhesion molecules and the extracellular matrix receptor interaction pathway were over-represented in the DEGs. In addition, behavioral studies revealed that L. polyactis kept motionless on the surface of the water and lost the ability to keep their balance after noise exposure. Collectively, our results indicate that exposure to noise stressors contributes to neurological dysfunction in the brain and impaired locomotor ability in L. polyactis. Noise has the potential to induce physiological stress in marine fishes, which may lead to all sorts of ecological consequences. In the current study, we used the RNA-sequencing (RNA-seq) method to sequence the whole transcriptome of the brain in small yellow croaker (Larimichthys polyactis). The animals were exposed to a mix of noises produced by different types of boat played back in a tank, then the brain tissues were collected after the fish had been exposed to a 120 dB noise for 0.5 h. In total, 762 differently expressed genes (DEGs) between the two groups were identified, including 157 up regulated and 605 down regulated genes in the noise exposure group compared with the control group. Gene ontology (GO) enrichment analysis indicated that the most up regulated gene categories included synaptic membranes, receptor-mediated endocytosis and the neurotransmitter secretion process. The Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways found that endocytosis, cell adhesion molecules and the extracellular matrix (ECM) receptor interaction pathway were over-represented. Specifically, ECM-related genes, including lamin2, lamin3, lamin4, coll1a2, coll5a1 and col4a5 were down regulated in the noise exposure group, implying the impaired composition of the ECM. In addition, the behavioral experiment revealed that L. polyactis exhibited avoidance behaviors to run away from the noise source at the beginning of the noise exposure period. At the end of the noise exposure period, L. polyactis kept motionless on the surface of the water and lost the ability to keep their balance. Taken together, our results indicate that exposure to noise stress contributes to neurological dysfunction in the brain and impaired locomotor ability in L. polyactis. [ABSTRACT FROM AUTHOR]

Published

2022

25. Early-life mice housed in standard stocking density reduce the spontaneous physical activity and increase visceral fat deposition before reaching adulthood.

Author

Scariot, Pedro PM, Gobatto, Claudio A, Polisel, Emanuel EC, Gomes, Ana EC, Beck, Wladimir R, and Manchado-Gobatto, Fúlvia B

Subjects

*PHYSICAL activity, *MICE, *BODY composition, *ADULTS, *LABORATORY rodents

Abstract

Laboratory rodents spend the entire day housed in standard cages that provide a restricted area for movements and might, therefore, limit physical activity. However, it has not been tested in immature rodents of ages ranging from weaning to adulthood (adolescence period) whether the restricted area per animal does actually reduce physical activity and impact the body composition. We analyzed the spontaneous physical activity and feeding behavior during the adolescence of mice kept in two different housing conditions (standard stocking density (SSD) versus low stocking density (LSD)). We aimed to compare the body composition between SSD and LSD groups before they reached adulthood. Differential housing began at four weeks of age and was maintained for four weeks until euthanasia at eight weeks of age. The SSD group had a floor space of 88 cm2 available per animal, while LSD mice were housed with a floor space of 320 cm2 per animal, increasing the individual radius for movement more than three-fold compared with standard requirements. Mice kept in SSD exhibit lower spontaneous physical activity than mice kept in LSD. Early-life exposure to reduced physical activity in mice housed in SSD resulted in greater visceral fat accumulation before adulthood. An environment enabling/stimulating physical activity should be established for rodents as early as possible. This study will be helpful in showing that mice kept in SSD are early exposed to a reduced physical activity already in the adolescence period. Our findings could raise reflections about the translatability of rodents kept in SSD to healthy active humans. [ABSTRACT FROM AUTHOR]

Published

2022

26. Physiological and transcriptomic changes of zebrafish (Danio rerio) in response to Isopropylate Triphenyl Phosphate (IPPP) exposure.

Author

Zhang, Qiong, Zheng, Shukai, Shi, Xiaoling, Luo, Congying, Huang, Wenlong, Huang, Yanhong, Wu, Wenying, and Wu, Kusheng

Subjects

*POLLUTANTS, *POISONS, *EMBRYOLOGY, *LONG distance swimming, *METABOLIC disorders

Abstract

Isopropylate Triphenyl Phosphate (IPPP), a novel organophosphorus flame retardant, has become a widespread environmental pollutant. However, the toxic effects and mechanisms of IPPP remain unclear. In this study, we evaluated the neurodevelopmental toxicity effects of IPPP on zebrafish embryonic development, neurobehavior, and physiological and transcriptomic changes. The results showed that IPPP induced adverse developments such as low survival rates and hatching rates, decreased body length and eye distance, and also led to increased heart rates and embryonic malformation rates. The developmental defects mainly included typical pericardial edema, eye deformities, and a reduction in the number of newborn neurons. Mitochondrial energy metabolism disorders and apoptosis of cardiomyocytes may be responsible for heart malformation. Behavioral results showed that IPPP caused abnormal changes in swimming speed, total swimming distance and trajectory, and showed a low-dose effect. In addition, the decreased activity of neurotransmitters such as acetylcholinesterase (AchE) and dopamine (DA), and the changes in genes related to the central nervous system (CNS) and metabolism pathway may be the causes of neurodevelopmental toxicity of IPPP. Meanwhile, IPPP induced oxidative stress and apoptosis, and changed the ATPase activity of zebrafish larvae by altering nuclear factor erythroid2-related factor 2 (Nrf2) and mitochondrial signaling pathways, respectively. Transcriptome sequencing results indicated that Cytochrome P450 and drug metabolism, Energy metabolism-related pathways, Glutathione metabolism, Retinoid acid (RA) and REDOX signaling pathways were significantly enriched, and most of the genes in these pathways were up-regulated after IPPP treatment, which may be new targets for IPPP-induced neurodevelopment. In summary, the results of this study provide an important reference for a comprehensive assessment of the toxic effects and health risks of the new pollutant IPPP. [Display omitted] • Neurodevelopmental and heart defects may serve as plausible target organ for IPPP exposure. • IPPP triggered oxidative stress, apoptosis and activated the Nrf2-ARE signaling pathway. • Energy metabolism-related pathways participate in the toxicity of IPPP. • Cytochrome P450, Glutathione metabolism, Retinoid acid (RA) signaling pathways may be novel targets of IPPP exposure. • Abnormal behaviors contributed by co-regulation of neurotransmitters, energy metabolism, oxidative stress, and visual perception. [ABSTRACT FROM AUTHOR]

Published

2024

27. Neurobehavioral toxicity induced by combined exposure of micro/nanoplastics and triphenyltin in marine medaka (Oryzias melastigma).

Author

Lin, Peiran, Liu, Ling, Ma, Yuqing, Du, Renyan, Yi, Chuansen, Li, Ping, Xu, Yanan, Yin, Haiyang, Sun, Le, and Li, Zhi-Hua

Subjects

POISONS, ORYZIAS latipes, NEUROTOXICOLOGY, MICROPLASTICS, POLLUTANTS, PLASTIC marine debris

Abstract

Microplastics/nanoplastics (MNPs) inevitably coexist with other pollutants in the natural environment, making it crucial to study the interactions between MNPs and other pollutants as well as their combined toxic effects. In this study, we investigated neurotoxicity in marine medaka (Oryzias melastigma) exposed to polystyrene micro/nanoplastics (PS-MNPs), triphenyltin (TPT), and PS-MNPs + TPT from physiological, behavioral, biochemical, and genetic perspectives. The results showed that marine medaka exposed to 200 ng/L TPT or 200 μg/L PS-NPs alone exhibited some degree of neurodevelopmental deficit, albeit with no significant behavioral abnormalities observed. However, in the PS-MP single exposure group, the average acceleration of short-term behavioral indices was significantly increased by 78.81%, indicating a highly stress-responsive locomotor pattern exhibited by marine medaka. After exposure to PS-MNPs + TPT, the swimming ability of marine medaka significantly decreased. In addition, PS-MNPs + TPT exposure disrupted normal neural excitability as well as activated detoxification processes in marine medaka larvae. Notably, changes in neural-related genes suggested that combined exposure to PS-MNPs and TPT significantly increased the neurotoxic effects observed with exposure to PS-MNPs or TPT alone. Furthermore, compared to the PS-MPs + TPT group, PS-NPs + TPT significantly inhibited swimming behavior and thus exacerbated the neurotoxicity. Interestingly, the neurotoxicity of PS-MPs was more pronounced than that of PS-NPs in the exposure group alone. However, the addition of TPT significantly enhanced the neurotoxicity of PS-NPs compared to PS-MPs + TPT. Overall, the study underscores the combined neurotoxic effects of MNPs and TPT, providing in-depth insights into the ecotoxicological implications of MNPs coexisting with pollutants and furnishing comprehensive data. [Display omitted] • PS-NP exposure induces neurotoxicity but does not alter behavior. • PS-MP exposure enhances short-term neuroexcitability in marine medaka. • Combined exposure to PS-MNPs and TPT causes nerve damage that impairs locomotor performance. • PS-NPs amplifies TPT-induced neurotoxicity more than PS-MPs. [ABSTRACT FROM AUTHOR]

Published

2024

28. Recapitulation of Retinal Damage in Zebrafish Larvae Infected with Zika Virus.

Author

Maleski, Adolfo Luis Almeida, Rosa, Joao Gabriel Santos, Bernardo, Jefferson Thiago Gonçalves, Astray, Renato Mancini, Walker, Cristiani Isabel Banderó, Lopes-Ferreira, Monica, and Lima, Carla

Subjects

*ZIKA virus infections, *BRACHYDANIO, *ZIKA virus, *YOLK sac, *LARVAE, *EMBRYOLOGY, *MOLECULAR pathology

Abstract

Zebrafish are increasingly being utilized as a model to investigate infectious diseases and to advance the understanding of pathogen–host interactions. Here, we take advantage of the zebrafish to recapitulate congenital ZIKV infection and, for the first time, demonstrate that it can be used to model infection and reinfection and monitor anti-viral and inflammatory immune responses, as well as brain growth and eye abnormalities during embryonic development. By injecting a Brazilian strain of ZIKV into the yolk sac of one-cell stage embryos, we confirmed that, after 72 h, ZIKV successfully infected larvae, and the physical condition of the virus-infected hosts included gross morphological changes in surviving embryos (84%), with a reduction in larval head size and retinal damage characterized by increased thickness of the lens and inner nuclear layer. Changes in locomotor activity and the inability to perceive visual stimuli are a result of changes in retinal morphology caused by ZIKV. Furthermore, we demonstrated the ability of ZIKV to replicate in zebrafish larvae and infect new healthy larvae, impairing their visual and neurological functions. These data reinforce the deleterious activity of ZIKV in the brain and visual structures and establish the zebrafish as a model to study the molecular mechanisms involved in the pathology of the virus. [ABSTRACT FROM AUTHOR]

Published

2022

29. Excessive selenium affects neural development and locomotor behavior of zebrafish embryos

Author

Guang Zhao, Jun Hu, Meng Gao, Yuejie Zhu, and Yijiang Hong

Subjects

Selenium, Zebrafish, Neural development, Locomotor behavior, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Selenium is an essential micronutrient derived from daily diet to maintain the normal growth and development of vertebrates. Excessive selenium intake will induce cardiovascular toxicity, reproductive toxicity and neurotoxicity. However, there have been few studies of the toxic effects of selenium on neural development and locomotor behavior. In this study, newly fertilized zebrafish embryos were treated with selenium. As a result, selenium treatment at the concentration of 0.5 µM decreased the moving speed and distance and blunted the touch response of zebrafish embryos. TUNEL assay and immunofluorescence analysis revealed that selenium induced nervous system impairment including promoted cell apoptosis, proliferation and neuroinflammation, and decreased neurons in zebrafish embryos. RNA-seq and RT-PCR results indicated that selenium treatment significantly decreased the expression of the dopaminergic neuron, motor neuron, GABAergic neuron and neurotransmitter transport marker genes in zebrafish embryos. The expression of PPAR signaling pathway marker genes was significantly down-regulated in selenium-treated embryos. Two PPAR agonists (rosiglitazone and bezafibrate) and an anti-cancer drug (cisplatin) were tested for their effects to alleviate selenium-induced locomotor defects. Rosiglitazone and bezafibrate could restore the expression of some neural marker genes but could not fully rescue the selenium-induced locomotor behavior defects. The supplementation of cisplatin could restore the dysfunctional locomotor behavior and the abnormal expression of the PPAR and neural marker genes to almost the normal levels. In conclusion, the results of this study reveal that selenium-induced neural development and locomotor behavior defects are caused by multiple complex factors including PPAR signaling, and all the factors might be recovered by cisplatin through unknown mechanisms.

Published

2022

30. Mechanisms and biological impacts of graphene and multi-walled carbon nanotubes on Drosophila melanogaster: Oxidative stress, genotoxic damage, phenotypic variations, locomotor behavior, parasitoid resistance, and cellular immune response.

Author

Demir, Eşref

Subjects

MULTIWALLED carbon nanotubes, DROSOPHILA melanogaster, PHENOTYPIC plasticity, OXIDATIVE stress, IMMUNE response, CARBON nanotubes, CARCINOGENS

Abstract

The use of graphene and multi-walled carbon nanotubes (MWCNTs) has now become rather common in medical applications as well as several other areas thanks to their useful physicochemical properties. While in vitro testing offers some potential, in vivo research into toxic effects of graphene and MWCNTs could yield much more reliable data. Drosophila melanogaster has recently gained significant popularity as a dynamic eukaryotic model in examining toxicity, genotoxicity, and biological effects of exposure to nanomaterials, including oxidative stress, cellular immune response against two strains (NSRef and G486) of parasitoid wasp (Leptopilina boulardi), phenotypic variations, and locomotor behavior risks. D. melanogaster was used as a model organism in our study to identify the potential risks of exposure to graphene (thickness: 2-18 nm) and MWCNTs in different properties (as pure [OD: 10-20 nm short], modified by amide [NH2] [OD: 7-13 nm length: 55 μm], and modified by carboxyl [COOH] [OD: 30-50 nm and length: 0.5-2 μm]) at concentrations ranging from 0.1 to 250 μg/ml. Significant effects were observed at two high doses (100 and 250 μg/ml) of graphene or MWCNTs. This is the first study to report findings of cellular immune response against hematopoiesis and parasitoids, nanogenotoxicity, phenotypic variations, and locomotor behavior in D. melanogaster. [ABSTRACT FROM AUTHOR]

Published

2022

31. Neuropharmacological Effects of Chassalia curviflora (Rubiaceae) Leaves in Swiss Albino Mice Model.

Author

Islam, F., Akter, A., Mimi, A. A., Urmee, H., Islam, Md. R., Rahaman, Md. S., Mamun, A. A., Rahman, Md. M., Dhama, K., and Emran, T. B.

Subjects

LABORATORY mice, ANIMAL disease models, RUBIACEAE, BODY weight, BACOPA monnieri, ETHANOL, GABA, ETHYL acetate

Abstract

The current study aimed to investigate the neuropharmacological properties of ethanol, acetone, and ethyl acetate leaf extracts of Chassalia curviflora (C. curviflora) in mouse models. The neuropharmacological properties of this plant were studied on Swiss albino mice at dosages of 50, 100, and 200 mg/kg body weight in thiopental sodium-induced sleeping time test, and at dosages of 100 and 200 mg/kg body weight in other tests. The extracts caused a marked reduction in the initiation and sleep length (P<0.05) in studies on thiopental sodium-induced sleeping time at dosages of 100 and 200 mg/kg and a significant decrease (P<0.05) was found in terms of unconstrained locomotor and explorative activities in both hole crossing and open field tests at dosages of 100 and 200 mg/kg. Furthermore, the extracts increased sleeping time with a dosage-dependent onset of action. The hole-board test extracts also reduced the number of head dips at dosages of 100 and 200 mg/kg (P<0.05). It was found in this study that C. curviflora had the best neuropharmacological properties at a dosage of 200 ml/kg. Our findings also showed that all of the extracts from C. curviflora were experimentally active in an in vivo model. The study results suggested that the leaves had strong anti-depressant and hypnotic CNS properties that might be exploited for neuropharmacological adjuvant therapy in conventional medicine. However, pharmacological studies are warranted to explore the active substances and the mode of action. [ABSTRACT FROM AUTHOR]

Published

2022

32. Behavioral responses of two sympatric species Armadillo officinalis and Chaetophiloscia elongata (Crustacea, Oniscidae) towards zinc contaminated litter.

Author

Ben Said, Amina, Jelassi, Raja, Ouni, Ahmed, Habassi, Amal, and Nasri-Ammar, Karima

Subjects

*ARMADILLOS, *ZINC, *CRUSTACEA, *SPECIES, *METALS, *ROSEMARY

Abstract

This study deals with the impact of zinc on the locomotor activity rhythm of two terrestrial isopods Armadillo officinalis and Chetophiloscia elongata. Specimens are collected from the banks of Ghar El Melh lagoon. The locomotor rhythm of untreated and treated individuals with zinc is studied in the laboratory under constant darkness for 10 days. Results showed that untreated individuals of A. officinalis and C. elongata exhibited nocturnal behavior. After Zn exposure, these species concentrated their locomotor activities more or less in the subjective day. Whatever the species, the locomotor patterns became in majority multimodal for treated individuals. We noted, in addition, the absence of the unimodal profile. Through periodogram analysis, ultradian and circadian components were determined whatever the experimental conditions. The most important rhythmicity was determined in the control individual of A. officinalis (73.7%) as well as of C. elongata (52.6%). Furthermore, the locomotor behavior is less stable for contaminated individuals of the two sympatric species. Moreover, contrary to C. elongata, A. officinalis individuals became significantly more active after their exposure to zinc contaminated litter (αDD+Zn = 5h03 ± 2h33). [ABSTRACT FROM AUTHOR]

Published

2022

33. Stage-Related Neurotoxicity of BPA in the Development of Zebrafish Embryos

Author

Jianjun Liu, Wenyu Kong, Yuchen Liu, Qiyao Ma, Qi Shao, Liwen Zeng, Yu Chao, Xiaoyao Song, and Jie Zhang

Subjects

bisphenol A, zebrafish, sensitive period, guanine deaminase, locomotor behavior, Chemical technology, TP1-1185

Abstract

Bisphenol A (BPA) is one of the most widely produced chemicals in the world used in the production of epoxy resins and polycarbonate plastics. BPA is easily migrated from the outer packaging to the contents. Due to the lipophilic property, BPA is easily accumulated in organisms. Perinatal low-dose BPA exposure alters brain neural development in later generations. In this study, after BPA treatment, the spontaneous movement of zebrafish larvae from the cleavage period to the segmentation period (1–24 hpf) was significantly decreased, with speed decreasing by 18.97% and distance decreasing between 18.4 and 29.7% compared to controls. Transcriptomics analysis showed that 131 genes were significantly differentially expressed in the exposed group during the 1–24 hpf period, among which 39 genes were significantly upregulated and 92 genes were significantly downregulated. The GO enrichment analysis, gene function analysis and real-time quantitative PCR of differentially expressed genes showed that the mRNA level of guanine deaminase (cypin) decreased significantly in the 1–24 hpf period. Moreover, during the 1–24 hpf period, BPA exposure reduced guanine deaminase activity. Therefore, we confirmed that cypin is a key sensitive gene for BPA during this period. Finally, the cypin mRNA microinjection verified that the cypin level of zebrafish larvae was restored, leading to the restoration of the locomotor activity. Taken together, the current results show that the sensitive period of BPA to zebrafish embryos is from the cleavage period to the segmentation period (1–24 hpf), and cypin is a potential target for BPA-induced neurodevelopmental toxicity. This study provides a potential sensitive period and a potential target for the deep understanding of neurodevelopmental toxicity mechanisms caused by BPA.

Published

2023

34. Subchronic administration of Parastar insecticide induced behavioral changes and impaired motor coordination in male Wistar rats.

Author

Kada Sanda, Antoine, Nantia, Akono Edouard, Manfo, T. F. Pascal, Toboh, Romi T., Abende, Roxane Essame, Adaibum, Sterling, Moundipa, Paul Fewou, and Kamtchouing, Pierre

Subjects

*MOTOR ability, *LABORATORY rats, *INSECTICIDES, *IMIDACLOPRID, *ANIMAL immobilization, *ANIMAL locomotion, *ANXIETY, *FOOT

Abstract

Parastar is an insecticide formulation of lambda-cyhalothrin and imidacloprid largely used for crop protection in North West Region of Cameroon. In the present study, we evaluated the behavioral activities and motor function of Wistar male rats after subchronic treatment with the pesticide formulation. To this end, three groups of adult rats were administered Parastar at doses 1.25, 2.49 and 6.23 mg/kg, respectively, for 35 days. A control group was included and received distilled water. At the end of the treatment, the animals were submitted to behavioral and functional tests (open field test, elevated plus maze test, light-dark box test, forced swimming test, tail suspension test, beam-walking test, grid suspension test and wire hang test) for estimation of anxiety, exploration, depression and motor coordination. Results revealed that Parastar, at the higher doses tested, 2.49 and 6.23 mg/kg, induced anxiogenic-like pattern behavior in rats in all behavioral assays including open field test (total distance moved, total lines crossed, frequency and total time in center square were all reduced), elevated plus maze (decreased total time spent in open arms and the number of entries in open arms of the elevated plus maze), and light-dark box (the dark box duration increased, while light box duration time and frequency of transition between dark and light box decreased). Treatment with 2.49 and 6.23 mg/kg Parastar increased the immobility time of animals in both forced swimming test and tail suspension test. The insecticide induced decrease in the distance traveled, foot slip and number of turns of animals in the beam walking test. Parastar also decreased the animal suspension time in both grid suspension grip-strength test and the wire hang test. Taken altogether, these results suggest that subchronic administration of Parastar at the doses of 2.49 and 6.23 mg/kg induced anxiety-like and depressive-like behavior as well as impaired motor coordination and muscle strength in male rats. [ABSTRACT FROM AUTHOR]

Published

2022

35. Protective effect of Bougainvillea glabra Choisy bract in toxicity induced by Paraquat in Drosophila melanogaster.

Author

Caurio, Aline Castro, Boldori, Jean Ramos, Gonçalves, Leonardo Martha, Rodrigues, Camille Cadore, Rodrigues, Nathane Rosa, Somacal, Sabrina, Emanuelli, Tatiana, Roehrs, Rafael, Denardin, Cristiane Casagrande, and Denardin, Elton Luis Gasparotto

Subjects

*DROSOPHILA melanogaster, *PARAQUAT, *BOUGAINVILLEA, *EQUILIBRIUM testing, *OXIDANT status

Abstract

Paraquat (PQ) is a herbicide widely used in agriculture to control weeds. The damage caused to health through intoxication requires studies to combating its damage to health. Bougainvillea glabra Choisy is a plant native to South America and its bracts contain a variety of compounds, including betalains and phenolic compounds, which have been underexplored about their potential applications and benefits for biological studies to neutralize toxicity. In this study, we evaluated the antioxidant and protective potential of the B. glabra bracts (BBGCE) hydroalcoholic extract against Paraquat-induced toxicity in Drosophila melanogaster. BBGCE demonstrated high antioxidant capacity in vitro through the assays of ferric-reducing antioxidant power (FRAP), radical 2,2-diphenyl-1-picrylhydrazyl (DPPH), free radical ABTS and quantification of phenolic compounds, confirmed through identifying the main compounds. Wild males of D. melanogaster were exposed to Paraquat (1.75 mM) and B. glabra Choisy (1, 10, 50 and 100 μg/mL) in agar medium for 4 days. Flies exposed to Paraquat showed a reduction in survival rate and a significant decrease in climbing capacity and balance test when compared to the control group. Exposure of the flies to Paraquat caused a reduction in acetylcholinesterase activity, an increase in lipid peroxidation and production of reactive species, and a change in the activity of the antioxidant enzymes. Co-exposure with BBGCE was able to block toxicity induced by PQ exposure. Our results demonstrate that bract extract has a protective effect against PQ on the head and body of flies, attenuating behavioral deficit, exerting antioxidant effects and blocking oxidative damage in D. melanogaster. [Display omitted] • Antioxidant and protective potential of the extract of Bougainvillea glabra bract extract were evaluated. • Flies exposed to Paraquat showed a reduction in survival rate when compared to the control group. • Bougainvillea glabra bract extract decreases the production of reactive species. • Bougainvillea glabra bract extract shows a protective effect against the Paraquat. [ABSTRACT FROM AUTHOR]

Published

2024

36. A mixture of mesotrione and atrazine harms adults and larvae of the predatory wasp Polistes satan.

Author

de Souza, André Rodrigues, Bernardes, Rodrigo Cupertino, Barbosa, Wagner Faria, dos Santos Araújo, Renan, Martins, Gustavo Ferreira, and Lima, Maria Augusta Pereira

Published

2024

37. Exposure of male adult zebrafish (Danio rerio) to triphenyl phosphate (TPhP) induces eye development disorders and disrupts neurotransmitter system-mediated abnormal locomotor behavior in larval offspring.

Author

Zhang, Qiong, Wu, Ruotong, Zheng, Shukai, Luo, Congying, Huang, Wenlong, Shi, Xiaoling, and Wu, Kusheng

Abstract

Triphenyl phosphate (TPhP) is a widely used organophosphorus flame retardant, which has become ubiquitous in the environment. However, little information is available regarding its transgenerational effects. This study aimed to investigate the developmental toxicity of TPhP on F1 larvae offspring of adult male zebrafish exposed to various concentrations of TPhP for 28 or 60 days. The findings revealed significant morphological changes, alterations in locomotor behavior, variations in neurotransmitter, histopathological changes, oxidative stress levels, and disruption of Retinoic Acid (RA) signaling in the F1 larvae. After 28 and 60 days of TPhP exposure, the F1 larvae exhibited a myopia-like phenotype with pathological alterations in the lens and retina. The genes involved in the RA signaling pathway were down-regulated following parental TPhP exposure. Swimming speed and total distance of F1 larvae were significantly reduced by TPhP exposure, and long-term exposure to environmental levels of TPhP had more pronounced effects on locomotor behavior and neurotransmitter levels. In conclusion, TPhP induced histological and morphological alterations in the eyes of F1 larvae, leading to visual dysfunction, disruption of RA signaling and neurotransmitter systems, and ultimately resulting in neurobehavioral abnormalities. These findings highlight the importance of considering the impact of TPhP on the survival and population reproduction of wild larvae. [Display omitted] • Parental TPhP exposure triggered developmental toxicity and abnormal behaviors in F1 larvae. • Parental TPhP exposure induced significant eye development disorders in F1 larvae. • Abnormal behaviors contributed by co-regulation of visual dysfunction and neurotransmitter imbalances. • The RA signaling pathway involved in eye development exhibited significant changes. [ABSTRACT FROM AUTHOR]

Published

2024

38. Neuromodulation of Acid-Sensitive Ion Channels (ASICs) and Anti-Inflammatory Potential by Lichenxanthone in Adult Zebrafish (Danio rerio): Experimental and Docking Studies.

Author

Ribeiro Liberato H, Bezerra Maciel J, Wlisses Da Silva A, Eduarda Uchoa Bezerra M, San De Oliveira Brito L, Silva J, Kuerislene Amâncio Ferreira M, Machado Marinho M, Marinho GS, Deusdênia Loiola Pessoa O, Guedes MIF, Goberlânio De Barros Silva P, Ferreira de Castro Gomes A, Silva Alencar De Menezes JE, and Silva Dos Santos H

Subjects

Animals, Molecular Docking Simulation, Anti-Inflammatory Agents pharmacology, Ion Channels, Zebrafish, Ibuprofen

Abstract

The xanthone lichenxanthone did not show toxic effects (LC 50 >1.0 mg/mL). lichenxanthone prevented nociceptive behavior induced by acidic saline, and its analgesic effect was blocked by amiloride, highlighting the involvement of neuromodulation of acid-sensitive ion channels (ASICs). In the analysis of anti-inflammatory activity, concentrations of 0.1 and 0.5 mg/mL of lichenxanthone reduced the edema induced by k-carrageenan 3.5 %, observed from the fourth hour of analysis. This effect was similar to that observed with ibuprofen (positive control). No leukocyte infiltrates were observed in lichenxanthone, suggesting that the compound acts in the acute inflammatory response. The results of the molecular docking study revealed that lichenxanthone exhibited better affinity energy when compared to the ibuprofen control against the two targets evaluated., (© 2024 Wiley‐VHCA AG, Zurich, Switzerland.)

Published

2024

39. Induction of Paraquat-Mediated Parkinsonian Phenotype in Zebrafish.

Author

Harini VS, Marimuthu R, Tantry MSA, and Santhakumar K

Subjects

Animals, Male, Paraquat toxicity, Zebrafish, Phenotype, Herbicides toxicity, Parkinson Disease etiology, Parkinson Disease pathology, Neurodegenerative Diseases complications

Abstract

Paraquat (PQ) is a well-known neurotoxin closely associated with neurodegenerative Parkinson's disease (PD). Zebrafish are utilized as a model for PD research because of their well-defined neuropathology and locomotor behavior. Here, we highlight protocols for inducing PD using PQ and analyzing locomotor activity in adult zebrafish. Basic Protocol 1 details the treatment of adult male zebrafish with 60 mg/kg PQ via intraperitoneal injection to induce a PD-like phenotype, followed by the steps to perform a locomotor assay. Basic Protocol 2 provides step-by-step guidance for processing the acquired videos in ToxTrac software to understand the locomotor parameters of 0.9% saline- and 60 mg/kg PQ-injected adult zebrafish. The simplicity of the treatment strategy, low-cost video acquisition setup, and free video processing make these protocols accessible without prior experience. © 2024 Wiley Periodicals LLC. Basic Protocol 1: Development of Parkinson's disease features in adult zebrafish Basic Protocol 2: ToxTrac analysis for locomotor assay., (© 2024 Wiley Periodicals LLC.)

Published

2024

40. Chronic exposure to cortisone induces thyroid endocrine disruption and retinal dysfunction in adult female zebrafish (Danio rerio).

Author

Geng, Yuxin, Zou, Hong, Guo, Yanfang, Huang, Manlin, Wu, Yashi, and Hou, Liping

Published

2023

41. Developmental and neurobehavioral toxicity of 2,2′-methylenebis(6-tert-butyl-4-methylphenol) (antioxidant AO2246) during the early life stage of zebrafish.

Author

Chai, Yinan, Sheng, Donglai, Ji, Xiaowei, Meng, Yanlong, Shen, Feihao, He, Rui, Ma, Runjia, and Wang, Yuying

Published

2023

42. Identification of Additives in Disposable Face Masks and Evaluation of Their Toxicity Using Marine Medaka ( Oryzias melastigma ).

Author

Li XP, Huang GY, Qiu SQ, Lei DQ, Wang CS, Xie L, and Ying GG

Subjects

Animals, Humans, Ecosystem, Masks, Pandemics, Polypropylenes, Polyethylenes, Oryzias, Water Pollutants, Chemical

Abstract

The COVID-19 pandemic has resulted in huge amounts of face masks worldwide. However, there is a lack of awareness on the additives and their potential risk to aquatic ecosystems of face masks. To address this issue, the additives and their toxicity in 13 face masks (e.g., polypropylene, polyethylene, and polylactic acid) were determined using nontarget analysis and bioassays. A total of 826 organic additives including intermediates (14.8%), surfactants (9.3%), plasticizers (8.2%), and antioxidants (6.1%) were tentatively identified, with 213 compounds being assigned confidence levels of 1 and 2. Interestingly, polylactic acid masks contained more additives than most polypropylene or polyethylene masks. Among these additives, the concentration of tris(2-ethylhexyl) phosphate in masks was 9.4-978.2 ng/g with a 100% detection frequency. Furthermore, 13 metals such as zinc (up to 202.0 μg/g), copper (32.5 μg/g), and chromium (up to 5.7 μg/g) were detected in the face masks. The methanol extracts of the masks showed the developmental toxicity, swimming behavior, and/or endocrine disruption in embryos/larvae of Oryzias melastigma . The findings demonstrate that face masks contain various toxic additives to marine medaka, which deserves close attention to pollution by face masks.

Published

2024

43. Trabecular bone morphology in big cats reflects the complex diversity of limb use but not home range size or daily travel distance.

Author

Assif L and Chirchir H

Subjects

Animals, Cancellous Bone, Homing Behavior, Lower Extremity, Bone Density, Acinonyx, Puma, Panthera

Abstract

A relationship exists between mechanical loading and bone morphology. Although studies show a relationship between trabecular bone morphology and locomotor strategy in mammals, none of them have studied trabecular bone morphology in felid species occupying disparate and overlapping habitats. We investigate trabecular bone volume fraction (BVF) in the femoral and humeral heads, and distal tibia of four felid species (mountain lions, jaguars, cheetahs, and leopards) to identify whether there is a relationship between BVF and locomotor behavior. This study's goals are to identify whether felid species with high daily travel distance or large home range size have greater BVF compared with those with small daily travel distance or home range size, and whether BVF is correlated among the three elements of the fore and hindlimb studied. We quantified BVF in micro- and peripheral computed tomography images and found no significant differences across species in the femoral and humeral head (p > 0.05). However, in the distal tibia, results showed that leopards, mountain lions, and cheetahs have significantly greater (p < 0.05) BVF than jaguars. Despite differences in home range size and daily travel distance, the proximal elements did not reflect differences in BVF; however, the distal-most element did, suggesting decreased loading among jaguars. These findings suggest that the observed pattern of trabecular bone morphology is potentially due to the diversity in locomotor strategy of the forelimb. Additionally, these results imply that neither home range size nor daily travel distance are clear indicators of activity levels. A cautious approach is warranted in studying how loading influences trabecular morphology., (© 2023 American Association for Anatomy.)

Published

2024

44. Development of a trace quantitative method to investigate caffeine distribution in the Yellow and Bohai Seas, China, and assessment of its potential neurotoxic effect on fish larvae.

Author

Yan, Zhi, Li, Yaxi, Lin, Ainuo, Yang, Xiao, Lu, Zhen, Zhang, Huilin, Tang, Jianhui, Zhao, Jianmin, Niu, Donglei, Zhang, Tianyu, Zhao, Xiaodong, and Li, Ke

Subjects

FISH larvae, CAFFEINE, OCEAN currents, WATER pollution, QUANTITATIVE research, FENITROTHION

Abstract

Caffeine is an emerging contaminant in aquatic environments. The study utilized a validated method to investigate the presence and distribution of caffeine in the surface water of the Yellow and Bohai Seas, urban rivers, and the Yantai estuary area. The analytical method conforms to EPA guidelines and exhibits a limit of quantification that is 200 times lower than that of prior investigations. The study revealed that the highest concentration of 1436.4 ng/L was found in convergence of ocean currents in the Yellow and Bohai Seas. The presence of larger populations and the process of urban industrialization have been observed to result in elevated levels of caffeine in offshore regions, confirming that caffeine can serve as a potential indicator of anthropogenic contamination. Fish larvae exhibited hypoactivity in response to caffeine exposure at environmentally relevant concentrations. The study revealed that caffeine pollution can have adverse effects on marine and offshore ecosystems. This emphasizes the importance of decreasing neurotoxic pollution in the aquatic environment. [Display omitted] • A SPE-UPLC-APCI-MS method was developed in accordance with the guidelines of the EPA. • The levels of caffeine contamination in the Bohai and Yellow Seas were determined. • The maximum concentration of caffeine was found at the confluence of ocean currents. • Caffeine at environmental concentrations induces hypoactivity in zebrafish larvae. [ABSTRACT FROM AUTHOR]

Published

2023

45. Chronic exposure to titanium dioxide nanoparticles induces deficits of locomotor behavior by disrupting the development of NMJ in Drosophila.

Author

Zhang, Xing, Song, Yuanyuan, Wang, Jie, Wu, Chunyan, Xiang, Hanhui, Hu, Jiawei, Gong, Hongyang, and Sun, Mingkuan

Published

2023

46. Alcohol perturbed locomotor behavior, metabolism, and pharmacokinetics of gamma-hydroxybutyric acid in rats.

Author

Kim, Mingyu, Oh, Songjin, Kim, Suji, Ji, Moongi, Choi, Byeongchan, Bae, Jung-Woo, Lee, Yong Sup, Paik, Man-Jeong, and Lee, Sooyeun

Subjects

*3-Hydroxybutyric acid, *CENTRAL nervous system depressants, *GABA, *SUCCINIC acid, *DRUG interactions, *GLUTAMIC acid

Abstract

Gamma-hydroxybutyric acid (GHB), both a metabolic precursor and product of gamma-aminobutyric acid (GABA), is a central nervous system depressant used for the treatment of narcolepsy-associated cataplexy and alcohol withdrawal. However, administration of GHB with alcohol (ethanol) is a major cause of hospitalizations related to GHB intoxication. In this study, we investigated locomotor behavior as well as metabolic and pharmacokinetic interactions following co-administration of GHB and ethanol in rats. The locomotor behavior of rats was evaluated following the intraperitoneal administration of GHB (sodium salt, 500 mg/kg) and/or ethanol (2 g/kg). Further, time-course urinary metabolic profiling of GHB and its biomarker metabolites glutamic acid, GABA, succinic acid, 2,4-dihydroxybutyric acid (OH-BA), 3,4-OH-BA, and glycolic acid as well as pharmacokinetic analysis were performed. GHB/ethanol co-administration significantly reduced locomotor activity, compared to the individual administration of GHB or ethanol. The urinary and plasma concentrations of GHB and other target compounds, except for 2,4-OH-BA, were significantly higher in the GHB/ethanol co-administration group than the group administered only GHB. The pharmacokinetic analysis results showed that the co-administration of GHB and ethanol significantly increased the half-life of GHB while the total clearance decreased. Moreover, a comparison of the metabolite-to-parent drug area under the curve ratios demonstrated that the metabolic pathways of GHB, such α- and β-oxidation, were inhibited by ethanol. Consequently, the co-administration of GHB and ethanol aggravated the metabolism and elimination of GHB and enhanced its sedative effect. These findings will contribute to clinical interpretation of GHB intoxication. [Display omitted] • GHB is a central nervous system depressant that is often misused with alcohol. • Ethanol significantly reduced GHB-induced locomotor activity. • Ethanol increased the half-life of GHB while the total clearance decreased. • Ethanol aggravated the metabolism of GHB and enhanced sedative effect. [ABSTRACT FROM AUTHOR]

Published

2023

47. Quercetin Attenuates Nitroglycerin-Induced Migraine Headaches by Inhibiting Oxidative Stress and Inflammatory Mediators

Author

Ahmed I. Foudah, Sushma Devi, Mohammed H. Alqarni, Aftab Alam, Mohammad Ayman Salkini, Manish Kumar, and Husam Saad Almalki

Subjects

Nutrition and Dietetics, Migraine Disorders, Pain, migraine, quercetin, locomotor behavior, nitroglycerine, antimigraine, Rats, Rats, Sprague-Dawley, Nitroglycerin, Disease Models, Animal, Oxidative Stress, Hyperalgesia, Animals, Quercetin, Inflammation Mediators, Food Science

Abstract

This study aimed to investigate the antimigraine potential of quercetin in migraine pain induced by nitroglycerin (NTG), 10 mg/kg, intraperitoneal injection in rats. Quercetin was administered orally for 1 week, and behavioral parameters associated with pain were assessed 30 min after NTG injection. At the end of the study, the rats were killed so that immunohistochemical examination of their brains could be performed. The time and frequency of rearing and sniffing in the category of exploratory behavior, walking in the category of locomotor behavior, and total time spent in the light chamber were reduced in the disease control group compared with the normal group during the assessment of behavioral parameters. Pathologic migraine criteria, such as increased levels of calcitonin gene-related peptide and increased release of c-fos cells, were more prominent in the caudal nucleus triceminalis of the NTG control group. In the treatment groups, behavioral and pathological measures were less severe after pretreatment with quercetin at doses of 250 and 500 mg/kg. Therefore, it was concluded that quercetin improved the pain behavior of migraine patients in the NTG-induced migraine rat model. Quercetin is thought to have antimigraine effects due to its antioxidant and anti-inflammatory potential. Quercetin may therefore be a novel agent that can treat or prevent migraine pain and associated avoidance behaviors.

Published

2022

48. An Inexpensive Air Stream Temperature Controller and its use to facilitate temperature-controlled behavior in Drosophila

Subjects

Inducible, Dopamine, Drosophila, Locomotor Behavior, TrpA1, Thermogenetics

Abstract

Controlling the environment of an organism has many biologically relevant applications. Temperature-dependent inducible biological reagents have proven invaluable for elucidating signaling cascades and dissection of neural circuits. Here we develop a simple and affordable system for rapidly changing temperature in a chamber housing adult Drosophila melanogaster. Utilizing flies expressing the temperature-inducible channel dTrpA1 in dopaminergic neurons we show rapid and reproducible changes in locomotor behavior. This device should have wide application to temperature-modulated biological reagents.

Published

2022

49. Transcriptome reveals the toxicity and genetic response of zebrafish to naphthenic acids and benzo[a]pyrene at ambient concentrations.

Author

Zhang, Huanxin, Si, Panpan, Kong, Qiang, and Ma, Jinyue

Subjects

NAPHTHENIC acids, BRACHYDANIO, PYRENE, POISONS, MOLECULAR biology

Abstract

Naphthenic acids (NAs) are typical contaminants in heavily crude oil. Benzo[ a ]pyrene (B[ a ]P) is also a component of crude oil, but their combined effects have not been systematically explored. In this study, zebrafish (Danio rerio) were used as the test organisms, and behavioral indicators and enzyme activities were used as toxicity indicators. Combined with the effects of environmental concentrations, the toxic effects of low concentrations of commercially available NAs (0.5 mg/LNA) and benzo[ a ]pyrene (0.8 μg/LBaP) at single and compound exposures (0.5 mg/LNA and 0.8 μg/LBaP) were assayed in zebrafish, and transcriptome sequencing technology was used to explore the molecular mechanism of the two compounds affecting zebrafish from the molecular biology level. Sensitive molecular markers that could indicate the presence of contaminants were screened. The results showed that (1) zebrafish in the NA and BaP exposure groups exhibited increased locomotor behavior, and the mixed exposure group exhibited inhibition of locomotor behavior. Oxidative stress biomarkers showed increased activity under single exposure and decreased activity under the mixed exposure. (2) NA stress led to changes in the activity of transporters and the intensity of energy metabolism; BaP directly stimulates the pathway of actin production. When the two compounds are combined, the excitability of neurons in the central nervous system is decreased, and the actin-related genes are down-regulated. (3) After BaP and Mix treatments, genes were enriched in the cytokine-receptor interaction and actin signal pathway, while NA increased the toxic effect on the mixed treatment group. In general, the interaction between NA and BaP has a synergistic effect on the transcription of zebrafish nerve and motor behavior-related genes, resulting in increased toxicity under combined exposure. The changes in expression of various zebrafish genes are manifested in the changes in the normal movement behavior of zebrafish and the intensification of oxidative stress in the apparent behavior and physiological indicators. We investigated the toxicity and genetic alterations caused by NA, B[ a ]P, and their mixtures in zebrafish in an aquatic environment using transcriptome sequencing technology and comprehensive behavioral analysis. These changes involved energy metabolism, the generation of muscle cells, and the nervous system. [Display omitted] • Naphthenic acids and benzo[ a ]pyrene cause behavioral abnormalities in zebrafish. • Exposure alone promotes zebrafish motility, and mixed exposure inhibits motility. • Three exposure toxicities are related to energy metabolism and muscle contraction. • Naphthenic acids work synergistically with benzo[ a ]pyrene in mixed exposures through enrichment of actin pathways. [ABSTRACT FROM AUTHOR]

Published

2023

50. Transcriptomic profiling reveals the neuroendocrine-disrupting effect and toxicity mechanism of TBBPA-DHEE exposure in zebrafish (Danio rerio) during sexual development.

Author

Okeke, Emmanuel Sunday, Feng, Weiwei, Song, Chang, Mao, Guanghua, Chen, Yao, Xu, Hai, Qian, Xian, Luo, Mengna, Wu, Xiangyang, and Yang, Liuqing

Published

2023