Your search keyword '"xenobiotic"' showing total 11,255 results

1. Behavioral neuroscience in zebrafish: unravelling the complexity of brain-behavior relationships.

Author

Firdous, Sayed Mohammed, Pal, Sourav, Khanam, Sofia, and Zakir, Foziyah

Abstract

This paper reviews the utility of zebrafish (Danio rerio) as a model system for exploring neurobehavioral phenomena in preclinical research, focusing on physiological processes, disorders, and neurotoxicity biomarkers. A comprehensive review of the current literature was conducted to summarize the various behavioral characteristics of zebrafish. The study examined the etiological agents used to induce neurotoxicity and the biomarkers involved, including Aβ42, tau, MMP-13, MAO, NF-Кβ, and GFAP. Additionally, the different zebrafish study models and their responses to neurobehavioral analysis were discussed. The review identified several key biomarkers of neurotoxicity in zebrafish, each impacting different aspects of neurogenesis, inflammation, and neurodegeneration. Aβ42 was found to alter neuronal growth and stem cell function. Tau's interaction with tubulin affected microtubule stability and led to tauopathies under pathological conditions. MMP-13 was linked to oxidative assault and sensory neuron degeneration. MAO plays a role in neurotransmitter metabolism and neurotoxicity conversion. NF-Кβ was involved in pro-inflammatory pathways, and GFAP was indicative of neuroinflammation and astroglial activation. Zebrafish provide a valuable model for neurobehavioral research, adhering to the "3Rs" philosophy. Their neurotoxicity biomarkers offer insights into the mechanisms of neurogenesis, inflammation, and neurodegeneration. This model system aids in evaluating physiological and pathological conditions, enhancing our understanding of neurobehavioral phenomena and potential therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Constitutive Androstane Receptor Regulates Germ Cell Homeostasis, Sperm Quality, and Male Fertility via Akt‐Foxo1 Pathway.

Author

Monrose, Mélusine, Holota, Hélène, Martinez, Guillaume, Damon‐Soubeyrand, Christelle, Thirouard, Laura, Martinot, Emmanuelle, Battistelli, Edwige, de Haze, Angélique, Bravard, Stéphanie, Tamisier, Christelle, Caira, Françoise, Coutton, Charles, Barbotin, Anne‐Laure, Boursier, Angèle, Lakhal, Laila, Beaudoin, Claude, and Volle, David H.

Abstract

Male sexual function can be disrupted by exposure to exogenous compounds that cause testicular physiological alterations. The constitutive androstane receptor (Car) is a receptor for both endobiotics and xenobiotics involved in detoxification. However, its role in male fertility, particularly in regard to the reprotoxic effects of environmental pollutants, remains unclear. This study aims to investigate the role of the Car signaling pathway in male fertility. In vivo, in vitro, and pharmacological approaches are utilized in wild‐type and Car‐deficient mouse models. The results indicate that Car inhibition impaired male fertility due to altered sperm quality, specifically histone retention, which is correlated with an increased percentage of dying offspring in utero. The data highlighted interactions among Car, Akt, Foxo1, and histone acetylation. This study demonstrates that Car is crucial in germ cell homeostasis and male fertility. Further research on the Car signaling pathway is necessary to reveal unidentified causes of altered fertility and understand the harmful impact of environmental molecules on male fertility and offspring health. [ABSTRACT FROM AUTHOR]

Published

2024

3. Small phenolic compounds as potential endocrine disruptors interacting with estrogen receptor alpha.

Author

Alva-Gallegos, Raul, Jirkovský, Eduard, Mladěnka, Přemysl, and Carazo, Alejandro

Subjects

ENDOCRINE disruptors, ESTROGEN receptors, PHENOL derivatives, PHENOLS, GENE expression

Abstract

The human body is regularly exposed to simple catechols and small phenols originating from our diet or as a consequence of exposure to various industrial products. Several biological properties have been associated with these compounds such as antioxidant, anti-inflammatory, or antiplatelet activity. Less explored is their potential impact on the endocrine system, in particular through interaction with the alpha isoform of the estrogen receptor (ERα). In this study, human breast cancer cell line MCF-7/S0.5 was employed to investigate the effects on ERα of 22 closely chemically related compounds (15 catechols and 7 phenols and their methoxy derivatives), to which humans are widely exposed. ERα targets genes ESR1 (ERα) and TFF1 , both on mRNA and protein level, were chosen to study the effect of the tested compounds on the mentioned receptor. A total of 7 compounds seemed to impact mRNA and protein expression similarly to estradiol (E2). The direct interaction of the most active compounds with the ERα ligand binding domain (LBD) was further tested in cell-free experiments using the recombinant form of the LBD, and 4-chloropyrocatechol was shown to behave like E2 with about 1/3 of the potency of E2. Our results provide evidence that some of these compounds can be considered potential endocrine disruptors interacting with ERα. [ABSTRACT FROM AUTHOR]

Published

2024

4. The effect of DMSO on Saccharomyces cerevisiae yeast with different energy metabolism and antioxidant status

Author

Agata Święciło, Ewa Januś, Anna Krzepiłko, and Monika Skowrońska

Subjects

DMSO, Saccharomyces cerevisiae, Xenobiotic, Spot test, ESR, Oxidative stress, Medicine, Science

Abstract

Abstract We studied the effect of dimethyl sulfoxide (DMSO) on the biochemical and physiological parameters of S. cerevisiae yeast cells with varied energy metabolism and antioxidant status. The wild-type cells of varied genetic backgrounds and their isogenic mutants with impaired antioxidant defences (Δsod mutants) or response to environmental stress (ESR) (Δmsn2, Δmsn4 and double Δmsn2msn4 mutants) were used. Short-term exposure to DMSO even at a wide range of concentrations (2–20%) had little effect on the metabolic activity of the yeast cells and the stability of their cell membranes, but induced free radicals production and clearly altered their proliferative activity. Cells of the Δsod1 mutant showed greater sensitivity to DMSO in these conditions. DMSO at concentrations from 4 to 10–14% (depending on the strain and genetic background) activated the ESR programme. The effects of long-term exposure to DMSO were mainly depended on the type of energy metabolism and antioxidant system efficiency. Yeast cells with reduced antioxidant system efficiency and/or aerobic respiration were more susceptible to the toxic effects of DMSO than cells with a wild-type phenotype and respiro-fermentative or fully fermentative metabolism. These studies suggest a key role of stress response programs in both the processes of cell adaptation to small doses of this xenobiotic and the processes related to its toxicity resulting from large doses or chronic exposure to DMSO.

Published

2024

5. The effect of DMSO on Saccharomyces cerevisiae yeast with different energy metabolism and antioxidant status.

Author

Święciło, Agata, Januś, Ewa, Krzepiłko, Anna, and Skowrońska, Monika

Abstract

We studied the effect of dimethyl sulfoxide (DMSO) on the biochemical and physiological parameters of S. cerevisiae yeast cells with varied energy metabolism and antioxidant status. The wild-type cells of varied genetic backgrounds and their isogenic mutants with impaired antioxidant defences (Δsod mutants) or response to environmental stress (ESR) (Δmsn2, Δmsn4 and double Δmsn2msn4 mutants) were used. Short-term exposure to DMSO even at a wide range of concentrations (2–20%) had little effect on the metabolic activity of the yeast cells and the stability of their cell membranes, but induced free radicals production and clearly altered their proliferative activity. Cells of the Δsod1 mutant showed greater sensitivity to DMSO in these conditions. DMSO at concentrations from 4 to 10–14% (depending on the strain and genetic background) activated the ESR programme. The effects of long-term exposure to DMSO were mainly depended on the type of energy metabolism and antioxidant system efficiency. Yeast cells with reduced antioxidant system efficiency and/or aerobic respiration were more susceptible to the toxic effects of DMSO than cells with a wild-type phenotype and respiro-fermentative or fully fermentative metabolism. These studies suggest a key role of stress response programs in both the processes of cell adaptation to small doses of this xenobiotic and the processes related to its toxicity resulting from large doses or chronic exposure to DMSO. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effects of Organic Xenobiotics on Tenebrio molitor Larvae and Their Parasite Gregarina polymorpha.

Author

Lazurska, Viktoriia and Brygadyrenko, Viktor

Subjects

*MALEIC anhydride, *PHENYL ethers, *TENEBRIO molitor, *SUCCINIC anhydride, *XENOBIOTICS

Abstract

Simple Summary: Substances that are absent in the biosphere, but have been synthesized by humans in recent decades, are called xenobiotics. They are released into the environment in large volumes and can actively affect invertebrates and their intestinal parasites or commensals. Such an influence of xenobiotics on parasite–host relationships remained poorly studied until recently. In this article, the host–parasite system "larva of Tenebrio molitor—Gregarina polymorpha" under the influence of 24 organic compounds is investigated. We found that several substances increase the mortality of T. molitor larvae, and substances such as diphenyl ether, benzyl alcohol, catechol, and 3-aminobenzoic acid, on the contrary, reduce the number of parasites (G. polymorpha) without significantly affecting host insects (larva of T. molitor). Thus, various xenobiotics can destroy the parasite–host relationship, having a greater effect on the host in some cases and on the parasite in other cases. Environmental contamination with xenobiotics affects organisms and the symbiotic relations between them. A convenient object to study relationships between parasites and their hosts is the host–parasite system "Tenebrio molitor Linnaeus, 1758 (Coleoptera, Tenebrionidae)—Gregarina polymorpha (Hammerschmidt, 1838) Stein, 1848 (Eugregarinorida, Gregarinidae)". For this experiment, we took 390 T. molitor larvae and 24 organic compounds. Groups of mealworms, 15 in each, were subjected to those compounds for 10 days. Then, we recorded the vitality of both the larvae of T. molitor and G. polymorpha. To assess how G. polymorpha had affected the hosts' wellbeing, we looked for changes in the larvae's body mass and compared them to the number of gregarines in their intestines. The vitality of the larvae was inhibited by cyclopentanol and 2-naphthol. The intensity of gregarine invasion was reduced by diphenyl ether, benzyl alcohol, catechol, and 3-aminobenzoic acid. No effect on the number of gregarines was produced by 3,4,5-trihydroxybenzoic acid, cyclohexanemethanol, phenol, benzalkonium chloride, maleic anhydride, cyclohexanol, resorcin, benzoic acid, 2-methylfuran, terpinen-4-ol, 1-phenylethylamine, dibutyl phthalate, 3-furancarboxylic acid, 5-methyl furfural, 6-aminohexanoic acid, succinic anhydride, o-xylene, and benzaldehyde. In the infected T. molitor individuals, the mean number of G. polymorpha equaled 45 specimens per host. The groups of smaller mealworms had fewer gregarines. Positive correlation was seen between growth rates of T. molitor larvae and the intensity of invasion by gregarines. [ABSTRACT FROM AUTHOR]

Published

2024

7. Relevance of gut microbiome research in food safety assessment

Author

Manuel Garrido-Romero, Florencio Pazos, Elisa Sánchez-Martínez, Carlos Benito, José Ángel Gómez-Ruiz, Gonzalo Borrego-Yaniz, Cameron Bowes, Hermann Broll, Alberto Caminero, Eleonora Caro, Mónica Chagoyen, Marianne Chemaly, Antonio Fernández-Dumont, Haris Gisavi, Georgia Gkrintzali, Sangeeta Khare, Abelardo Margolles, Ana Márquez, Javier Martín, Caroline Merten, Antonia Montilla, Ana Muñoz-Labrador, Jorge Novoa, Konstantinos Paraskevopoulos, Cyrielle Payen, Helen Withers, Patricia Ruas-Madiedo, Lorena Ruiz, Yolanda Sanz, Rodrigo Jiménez-Saiz, and F. Javier Moreno

Subjects

Epithelial barrier, gut microbiota, metabolism, risk assessment, xenobiotic, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

The gut microbiome is indispensable for the host physiological functioning. Yet, the impact of non-nutritious dietary compounds on the human gut microbiota and the role of the gut microbes in their metabolism and potential adverse biological effects have been overlooked. Identifying potential hazards and benefits would contribute to protecting and harnessing the gut microbiome’s role in supporting human health. We discuss the evidence on the potential detrimental impact of certain food additives and microplastics on the gut microbiome and human health, with a focus on underlying mechanisms and causality. We provide recommendations for the incorporation of gut microbiome science in food risk assessment and identify the knowledge and tools needed to fill these gaps. The incorporation of gut microbiome endpoints to safety assessments, together with well-established toxicity and mutagenicity studies, might better inform the risk assessment of certain contaminants in food, and/or food additives.

Published

2024

8. Constitutive Androstane Receptor Regulates Germ Cell Homeostasis, Sperm Quality, and Male Fertility via Akt‐Foxo1 Pathway

Author

Mélusine Monrose, Hélène Holota, Guillaume Martinez, Christelle Damon‐Soubeyrand, Laura Thirouard, Emmanuelle Martinot, Edwige Battistelli, Angélique deHaze, Stéphanie Bravard, Christelle Tamisier, Françoise Caira, Charles Coutton, Anne‐Laure Barbotin, Angèle Boursier, Laila Lakhal, Claude Beaudoin, and David H. Volle

Subjects

constitutive androstane receptor, Foxo1, repro‐toxicity, spermatogonia, xenobiotic, Science

Abstract

Abstract Male sexual function can be disrupted by exposure to exogenous compounds that cause testicular physiological alterations. The constitutive androstane receptor (Car) is a receptor for both endobiotics and xenobiotics involved in detoxification. However, its role in male fertility, particularly in regard to the reprotoxic effects of environmental pollutants, remains unclear. This study aims to investigate the role of the Car signaling pathway in male fertility. In vivo, in vitro, and pharmacological approaches are utilized in wild‐type and Car‐deficient mouse models. The results indicate that Car inhibition impaired male fertility due to altered sperm quality, specifically histone retention, which is correlated with an increased percentage of dying offspring in utero. The data highlighted interactions among Car, Akt, Foxo1, and histone acetylation. This study demonstrates that Car is crucial in germ cell homeostasis and male fertility. Further research on the Car signaling pathway is necessary to reveal unidentified causes of altered fertility and understand the harmful impact of environmental molecules on male fertility and offspring health.

Published

2024

9. Comparative genomics based exploration of xenobiotic degradation patterns in Glutamicibacter, Arthrobacter, and Pseudarthrobacter isolated from diverse ecological habitats

Author

Nisha Ghimire, Byeollee Kim, So-Ra Han, and Tae-Jin Oh

Subjects

Xenobiotic, KEGG pathway, Arthrobacter, Pseudarthrobacter, Glutamicibacter, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Xenobiotics pose a substantial threat to environmental integrity by disrupting normal ecosystems. The genus Arthrobacter, known for its metabolic versatility can degrade several xenobiotic compounds. Arthrobacter strains have also undergone frequent taxonomic revisions and reclassifications to strains including Pseudarthrobacter and Glutamicibacter. Here, we present the complete genome sequence of Glutamicibacter protophormiae strain NG4, isolated from a coastal area surrounded by chemical plants. Further, through comparative genomics involving 55 strains from Glutamicibacter, Arthrobacter, and Pseudarthrobacter, we elucidated taxonomic relationships and xenobiotic degradation potential. Our genomics-based findings revealed a generally even distribution of xenobiotic-degrading genes and pathways among the studied strains. Glutamicibacter species emerged as potential candidate for steroid degradation. A significant number of host-specific and environmental isolates predominantly possessed pathways for 4-hydroxybenzoate (4-HB) degradation and only the environmental isolates possessed benzoate degradation pathway. Certain Arthrobacter and Pseudarthrobacter species isolated from the environmental settings were identified as potential degraders of toluene, xylene, and phenanthrene. Notably, most strains contained pathways for azathioprine, capecitabine, and 5-fluorouridine pharmaceutical drug metabolism. Overall, our findings shed light on microbial metabolic diversity among 55 strains isolated from diverse sources and hint the importance of strict environmental monitoring. Further, for the application of the putative xenobiotic degrading strains, experimental validation is required in the future.

Published

2024

10. Small phenolic compounds as potential endocrine disruptors interacting with estrogen receptor alpha

Author

Raul Alva-Gallegos, Eduard Jirkovský, Přemysl Mladěnka, and Alejandro Carazo

Subjects

endocrine disruptor, xenobiotic, catechol, estrogenicity, cytotoxicity, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

The human body is regularly exposed to simple catechols and small phenols originating from our diet or as a consequence of exposure to various industrial products. Several biological properties have been associated with these compounds such as antioxidant, anti-inflammatory, or antiplatelet activity. Less explored is their potential impact on the endocrine system, in particular through interaction with the alpha isoform of the estrogen receptor (ERα). In this study, human breast cancer cell line MCF-7/S0.5 was employed to investigate the effects on ERα of 22 closely chemically related compounds (15 catechols and 7 phenols and their methoxy derivatives), to which humans are widely exposed. ERα targets genes ESR1 (ERα) and TFF1, both on mRNA and protein level, were chosen to study the effect of the tested compounds on the mentioned receptor. A total of 7 compounds seemed to impact mRNA and protein expression similarly to estradiol (E2). The direct interaction of the most active compounds with the ERα ligand binding domain (LBD) was further tested in cell-free experiments using the recombinant form of the LBD, and 4-chloropyrocatechol was shown to behave like E2 with about 1/3 of the potency of E2. Our results provide evidence that some of these compounds can be considered potential endocrine disruptors interacting with ERα.

Published

2024

11. The aryl hydrocarbon receptor as a tumor modulator: mechanisms to therapy.

Author

Chaudhry, Kanita A. and Bianchi-Smiraglia, Anna

Subjects

ARYL hydrocarbon receptors, TRANSCRIPTION factors, CANCER invasiveness, CARCINOGENS

Abstract

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor that is widely recognized to play important, but complex, modulatory roles in a variety of tumor types. In this review, we comprehensively summarize the increasingly controversial role of AhR as a tumor regulator and the mechanisms by which it alters tumor progression based on the cancer cell type. Finally, we discuss new and emerging strategies to therapeutically modulate AhR, focusing on novel agents that hold promise in current human clinical trials as well as existing FDAapproved drugs that could potentially be repurposed for cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Exploring biodegradative efficiency: a systematic review on the main microplastic-degrading bacteria.

Author

Freire da Silva, Milena Roberta, Silva Souza, Karolayne, Motteran, Fabricio, Alexandre de Araújo, Lívia Caroline, Singh, Rishikesh, Bhadouria, Rahul, and Melo de Oliveira, Maria Betânia

Subjects

BIODEGRADATION, BACTERIA, ENVIRONMENTAL degradation, BACILLUS (Bacteria), RHODOCOCCUS, ECOSYSTEMS

Abstract

Introduction: Microplastics (MPs) are widely distributed in the environment, causing damage to biota and human health. Due to their physicochemical characteristics, they become resistant particles to environmental degradation, leading to their accumulation in large quantities in the terrestrial ecosystem. Thus, there is an urgent need for measures to mitigate such pollution, with biological degradation being a viable alternative, where bacteria play a crucial role, demonstrating high efficiency in degrading various types of MPs. Therefore, the study aimed to identify bacteria with the potential for MP biodegradation and the enzymes produced during the process. Methods: The methodology used followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) protocol. Results and Discussion: The research yielded 68 eligible studies, highlighting bacteria from the genera Bacillus, Pseudomonas, Stenotrophomonas, and Rhodococcus as the main organisms involved in MP biodegradation. Additionally, enzymes such as hydrolases and alkane hydroxylases were emphasized for their involvement in this process. Thus, the potential of bacterial biodegradation is emphasized as a promising pathway to mitigate the environmental impact of MPs, highlighting the relevance of identifying bacteria with biotechnological potential for large-scale applications in reducing MP pollution. [ABSTRACT FROM AUTHOR]

Published

2024

13. Profiling the dynamic adaptations of CAZyme-Producing microorganisms in the gastrointestinal tract of South African goats

Author

Kgodiso J. Rabapane and Tonderayi S. Matambo

Subjects

Goat, Gastrointestinal, Xenobiotic, Lignocellulose, CAZymes, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The gastrointestinal tract of goats serves as a habitat for anaerobic microbial populations that work together to break down complex plant material, including lignocellulose. This study explored the microbial diversity and metabolic profiles across different gastrointestinal tract compartments. Significant diversity differences among the compartments were observed (ANOSIM p

Published

2024

14. Effects of trichlorfon on ecotoxicological biomarkers in farmed Colossoma macropomum (tambaqui)

Author

A. P. C. Carvalho, H. C. M. Silva, A. L. S. Gomes, W. L. P. Duncan, A. J. Mota, R. F. Artoni, G. Carvalho-Zilse, and D. A. Matoso

Subjects

pesticide, organophosphate, xenobiotic, Amazonian fish, gene expression, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Producers of fish have been looking for viable alternatives for the management of Colossoma macropomum (tambaqui) in confinement systems in order to avoid the harm and subsequent losses caused by parasitic diseases. One alternative used by farmers is pesticides, such as trichlorfon, which has a genotoxic effect. Thus, this study aimed to evaluate the changes in gene expression due to the side effects of trichlorfon in tambaqui. Two treatments were used based on LC50-96h of 0.870 mg/L using 30% and 50% trichlorfon with exposure periods of 48, 72 and 96 h. For differential expression of the genes in the liver, real-time PCR was performed for the AChE, GST, CYP2J6, CYP2C8, 18S and GAPDH genes. After 96 h of exposure to trichlorfon, an alteration in the gene expression profile of the antioxidant defense system (GST) of the tambaqui was observed. It was also observed that this organophosphate did not affect the expression of genes related to the isoenzymes that are responsible for the biotransformation of xenobiotics in phase I (2J6 and 2C8) and cholinesterase AChE. It was concluded that the reduction in gene expression of GST suggests a decrease in metabolization capacity in phase II.

Published

2024

15. Bioinformatic evaluation of the impact of miRNAs on the expression of detoxification-related genes in Zebrafish (Danio rerio)

Author

Mahdi Banaee and Ahmad Ali Badr

Subjects

reef evolution, micrornas, xenobiotic, biotransformation, target scan, diana databases, Ecology, QH540-549.5

Abstract

Zebrafish (Danio rerio) stands as a valuable model organism for delving into molecular mechanisms, notably detoxification. MicroRNAs (miRNAs), small non-coding RNA molecules, serve as post-transcriptional regulators of gene expression, potentially shaping the complex network of genes engaged in detoxification pathways. This study employs bioinformatic analysis, utilizing Target Scan and DIANA databases, to explore the potential of miRNAs in modulating the expression of detoxification-associated genes in zebrafish. By meticulously scrutinizing miRNA and mRNA datasets in zebrafish, we pinpoint candidate miRNAs predicted to target established detoxification genes. Leveraging bioinformatic algorithms, we dissect the plausible interactions between these miRNAs and their target detoxification genes, which include pgp, gpx1a, gpx3, aldh3b1, gstm3, cyp3c1, gstp1, gpx1b, cyp17a1, sod1, sod2, gsto2, gstz1, akr7a3, gsr, ahr1b, cat, ahr2, and abcb4. Moreover, we assess the conservation of miRNA-target interactions across species and scrutinize potential miRNA binding sites within the 3' untranslated regions (UTRs) of target mRNAs. Our findings unveil the intricate regulatory interplay between miRNAs and genes involved in detoxification in zebrafish, providing a cornerstone for future experimental validations. This study significantly contributes to our evolving understanding of miRNA-mediated gene regulation within the context of detoxification pathways in zebrafish

Published

2024

16. MOLECULAR CHARACTERIZATION OF INDIGENOUS ATRAZINE DEGRADERS FROM AGRICULTURAL FIELDS IN LAGOS, SOUTHWEST NIGERIA

Author

Olusola Abayomi OJO-OMONIYI, Adebowale Olakunle KUYE, and Godwin Sewanu FASINU

Subjects

atrazine, bioremediation, dna, herbicide, microorganisms, xenobiotic, Food processing and manufacture, TP368-456

Abstract

Two composite soil samples were obtained from Lagos state agricultural field at Ikorodu and Lagos State University (LASU) agricultural field, both fields having over 10 years history of Atrazine application. The soil samples were obtained from 0 - 30cm depth with sterile soil auger. The control soil samples with no previous history of Atrazine application were obtained from Badagry beach at the same depth. Physico-chemical analysis of both composite soil samples (mean pH 4.93) and composite water samples obtained from nearby freshwater stream (mean pH 4.55) at the same depth were determined. Analysis of variance (ANOVA) showed there was significant relationship among the parameter and across the locations the result was not significantly different at 0.05 level of significance. Serial dilution technique was engaged to obtain indigenous microbial population while bacterial atrazine - degraders were obtained using minimal salt medium supplemented with 3% atrazine and fungal species with Sabouraud Dextrose agar (SDA) supplemented with atrazine at 5% respectively. Biodegradation / Time-Course study revealed Atrazine concentration reduction using Spectrophotometric analysis. DNA of some selected isolates were extracted and sequenced using 16S rRNA and ITS methods. The genetic data of these isolates were submitted to the NCBI GeneBank database. The selected Atrazine degraders identities were confirmed as follows; Pseudomonas alcaligenes (MT355448.1), Bacillus mycoides (JX144699.1) and Aspergillus aculeatus (LC496490.1) in the NCBI database.

Published

2024

17. Modulation of the Mas-Related G Protein-Coupled Receptor X2 (MRGPRX2) by Xenobiotic Compounds and Its Relevance to Human Diseases

Author

Alicja Dziadowiec, Iwona Popiolek, Mateusz Kwitniewski, and Grzegorz Porebski

Subjects

xenobiotic, MRGPRX2, mast cell, polyphenols, flavonoids, coumarins, Therapeutics. Pharmacology, RM1-950, Toxicology. Poisons, RA1190-1270

Abstract

Mast cells (MCs) are immune cells that reside in tissues; particularly in the skin, and in the gastrointestinal and respiratory tracts. In recent years, there has been considerable interest in the Mas-Related G Protein-Coupled Receptor X2 (MRGPRX2), which is present on the surface of MCs and can be targeted by multiple exogenous and endogenous ligands. It is potentially implicated in non-IgE-mediated pseudoallergic reactions and inflammatory conditions such as asthma or atopic dermatitis. In this paper, we review natural products and herbal medicines that may potentially interact with MRGPRX2. They mainly belong to the classes of polyphenols, flavonoids, coumarins, and alkaloids. Representative compounds include rosmarinic acid, liquiritin from licorice extract, osthole, and sinomenine, respectively. While evidence-based medicine studies are still required, these compounds have shown diverse effects, such as antioxidant, analgesic, anti-inflammatory, or neuroprotective. However, despite potential beneficial effects, their use is also burdened with risks of fatal reactions such as anaphylaxis. The role of MRGPRX2 in these reactions is a subject of debate. This review explores the literature on xenobiotic compounds from herbal medicines that have been shown to act as MRGPRX2 ligands, and their potential clinical significance.

Published

2024

18. C‐section increases cecal abundance of the archetypal bile acid and glucocorticoid modifying Lachnoclostridium [clostridium] scindens in mice

Author

Adams, Sean H, Wright, Rachel, Piccolo, Brian D, Moody, Becky, Sikes, James, Avaritt, Nathan, Chintapalli, Sree V, and Ou, Xiawei

Subjects

Digestive Diseases, Nutrition, Life Below Water, Animals, Bile Acids and Salts, Cecum, Cesarean Section, Clostridium, Female, Glucocorticoids, Mice, Pregnancy, birth type, developmental programming, maternal microbiome, vaginal birth, xenobiotic, Physiology, Clinical Sciences, Medical Physiology

Abstract

In humans and animal models, Cesarean section (C-section) has been associated with alterations in the taxonomic structure of the gut microbiome. These changes in microbiota populations are hypothesized to impact immune, metabolic, and behavioral/neurologic systems and others. It is not clear if birth mode inherently changes the microbiome, or if C-section effects are context-specific and involve interactions with environmental and other factors. To address this and control for potential confounders, cecal microbiota from ~3 week old mice born by C-section (n = 16) versus natural birth (n = 23) were compared under matched conditions for housing, cross-fostering, diet, sex, and genetic strain. A total of 601 unique species were detected across all samples. Alpha diversity richness (i.e., how many species within sample; Chao1) and evenness/dominance (i.e., Shannon, Simpson, Inverse Simpson) metrics revealed no significant differences by birth mode. Beta diversity (i.e., differences between samples), as estimated with Bray-Curtis dissimilarities and Aitchison distances (using log[x + 1]-transformed counts), was also not significantly different (Permutational Multivariate ANOVA [PERMANOVA]). Only the abundance of Lachnoclostridium [Clostridium] scindens was found to differ using a combination of statistical methods (ALDEx2, DESeq2), being significantly higher in C-section mice. This microbe has been implicated in secondary bile acid production and regulation of glucocorticoid metabolism to androgens. From our results and the extant literature we conclude that C-section does not inherently lead to large-scale shifts in gut microbiota populations, but birth mode could modulate select bacteria in a context-specific manner: For example, involving factors associated with pre-, peri-, and postpartum environments, diet or host genetics.

Published

2022

19. Pollutants in Breast Milk: A Scoping Review of the Most Recent Data in 2024.

Author

Serreau, Raphaël, Terbeche, Yasmine, and Rigourd, Virginie

Subjects

WORLD Wide Web, BREAST milk, DESCRIPTIVE statistics, SYSTEMATIC reviews, MEDLINE, POLLUTANTS, LITERATURE reviews, RESEARCH, ORGANIC compounds

Abstract

Perinatal exposure to pollutants, including persistent organic pollutants (POPs) and heavy metals, poses significant risks to both mothers and children, marking this period as highly vulnerable. Despite the well-acknowledged benefits of breastfeeding, there exists a gap in comprehensive understanding regarding the impact of environmental pollutants on breast milk, underscoring the critical need for this study. Our research addresses this gap by exploring the intersection of environmental health and lactation, situated within the broader 'One Health' concept, thus contributing a novel perspective to the existing body of knowledge. This scoping review aims to examine recent research on the persistent presence of organic pollutants (POPs) and heavy metals in breast milk, thereby elucidating the environmental setting's impact on milk quality. We seek to highlight the innovative angle of our study by emphasizing the 'One Health' concept, which has not been thoroughly explored in the context of lactation and environmental pollutants. We performed a scoping review, consulting two online databases to identify articles published from 1995 to 2023 that reported on pollutants in breast milk, using the PRISMA checklist. This methodological approach underlines the comprehensive and up-to-date nature of our literature review, ensuring the relevance and timeliness of our findings. From a total of 54 relevant articles, findings indicate that POPs are present in higher concentrations in breast milk the longer the lactation period. These findings highlight the persistent and bioaccumulative nature of such contaminants, offering new insights into their long-term implications for maternal and infant health. This exposure does not appear time-sensitive, suggesting pollutants accumulated in maternal fat compartments can be excreted into human milk years after exposure, a novel finding that underscores the importance of considering long-term environmental exposures in lactation research. The presence of POPs and heavy metals in both infant formula and maternal milk underscores a critical need for further comparative studies to understand the health implications better. Our discussion extends the current dialogue on the safety of breastfeeding in polluted environments, providing a new framework for assessing risks and benefits. While breastfeeding remains the WHO-recommended nutrition for optimal infant growth, the findings emphasize the importance of continued risk reduction policies to protect mothers and infants from environmental contaminants in breast milk. Our conclusion calls for an integrated approach, combining public health, environmental science, and clinical practice to develop effective strategies for reducing exposure to environmental pollutants. This multidisciplinary perspective is a significant contribution to the field, paving the way for future research and policy development. [ABSTRACT FROM AUTHOR]

Published

2024

20. Utility of metagenomics for bioremediation: a comprehensive review on bioremediation mechanisms and microbial dynamics of river ecosystem.

Author

Yadav, Rakeshkumar and Dharne, Mahesh

Subjects

MICROBIAL remediation, ECOSYSTEM dynamics, ECOLOGICAL disturbances, BIOREMEDIATION, METAGENOMICS, PERSISTENT pollutants

Abstract

Global industrialization has contributed substantial amounts of chemical pollutants in rivers, resulting in an uninhabitable state and impacting different life forms. Moreover, water macrophytes, such as water hyacinths, are abundantly present in polluted rivers, significantly affecting the overall water biogeochemistry. Bioremediation involves utilizing microbial metabolic machinery and is one of the most viable approaches for removing toxic pollutants. Conventional techniques generate limited information on the indigenous microbial population and their xenobiotic metabolism, failing the bioremediation process. Metagenomics can overcome these limitations by providing in-depth details of microbial taxa and functionality-related information required for successful biostimulation and augmentation. An in-depth summary of the findings related to pollutant metabolizing genes and enzymes in rivers still needs to be collated. The present study details bioremediation genes and enzymes functionally mined from polluted river ecosystems worldwide using a metagenomic approach. Several studies reported a wide variety of pollutant-degrading enzymes involved in the metabolism of dyes, plastics, persistent organic pollutants, and aromatic hydrocarbons. Additionally, few studies also noted a shift in the microbiome of the rivers upon exposure to contaminants, crucially affecting the ecological determinant processes. Furthermore, minimal studies have focused on the role of water-hyacinth–associated microbes in the bioremediation potentials, suggesting the need for the bioprospecting of these lesser-studied microbes. Overall, our study summarizes the prospects and utilities of the metagenomic approach and proposes the need to employ it for efficient bioremediation. [ABSTRACT FROM AUTHOR]

Published

2024

21. Modulation of the Mas-Related G Protein-Coupled Receptor X2 (MRGPRX2) by Xenobiotic Compounds and Its Relevance to Human Diseases.

Author

Dziadowiec, Alicja, Popiolek, Iwona, Kwitniewski, Mateusz, and Porebski, Grzegorz

Subjects

*XENOBIOTICS, *G protein coupled receptors, *ROSMARINIC acid, *MAST cells, *HERBAL medicine

Abstract

Mast cells (MCs) are immune cells that reside in tissues; particularly in the skin, and in the gastrointestinal and respiratory tracts. In recent years, there has been considerable interest in the Mas-Related G Protein-Coupled Receptor X2 (MRGPRX2), which is present on the surface of MCs and can be targeted by multiple exogenous and endogenous ligands. It is potentially implicated in non-IgE-mediated pseudoallergic reactions and inflammatory conditions such as asthma or atopic dermatitis. In this paper, we review natural products and herbal medicines that may potentially interact with MRGPRX2. They mainly belong to the classes of polyphenols, flavonoids, coumarins, and alkaloids. Representative compounds include rosmarinic acid, liquiritin from licorice extract, osthole, and sinomenine, respectively. While evidence-based medicine studies are still required, these compounds have shown diverse effects, such as antioxidant, analgesic, anti-inflammatory, or neuroprotective. However, despite potential beneficial effects, their use is also burdened with risks of fatal reactions such as anaphylaxis. The role of MRGPRX2 in these reactions is a subject of debate. This review explores the literature on xenobiotic compounds from herbal medicines that have been shown to act as MRGPRX2 ligands, and their potential clinical significance. [ABSTRACT FROM AUTHOR]

Published

2024

22. Early Developmental Exposure to Triclosan Impacts Fecal Microbial Populations, IgA and Functional Activities of the Rat Microbiome.

Author

Lahiani, Mohamed, Gokulan, Kuppan, Sutherland, Vicki, Cunny, Helen C., Cerniglia, Carl E., and Khare, Sangeeta

Subjects

*MICROORGANISM populations, *AMNIOTIC liquid, *TRICLOSAN, *GUT microbiome, *MICROBIAL genes, *BACTERIAL communities, *BREAST milk

Abstract

Triclosan (TCS), a broad-spectrum antibacterial chemical, is detected in human urine, breast milk, amniotic fluid, and feces; however, little is known about its impact on the intestinal microbiome and host mucosal immunity during pregnancy and early development. Pregnant female rats were orally gavaged with TCS from gestation day (GD) 6 to postpartum (PP) day 28. Offspring were administered TCS from postnatal day (PND) 12 to 28. Studies were conducted to assess changes in the intestinal microbial population (16S-rRNA sequencing) and functional analysis of microbial genes in animals exposed to TCS during pregnancy (GD18), and at PP7, PP28 and PND28. Microbial abundance was compared with the amounts of TCS excreted in feces and IgA levels in feces. The results reveal that TCS decreases the abundance of Bacteroidetes and Firmicutes with a significant increase in Proteobacteria. At PND28, total Operational Taxonomic Units (OTUs) were higher in females and showed correlation with the levels of TCS and unbound IgA in feces. The significant increase in Proteobacteria in all TCS-treated rats along with the increased abundance in OTUs that belong to pathogenic bacterial communities could serve as a signature of TCS-induced dysbiosis. In conclusion, TCS can perturb the microbiome, the functional activities of the microbiome, and activate mucosal immunity during pregnancy and early development. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evaluation of the Effects of Wastewater Irrigation on Heavy Metal Accumulation in Vegetables and Human Health in the Cauliflower Example.

Author

Ugulu, Ilker, Khan, Zafar I., Bibi, Shehnaz, Ahmad, Kafeel, Munir, Mudasra, and Memona, Hafsa

Abstract

The goals of the present research were to determine the heavy metal contents in the water-soil-cauliflower samples in industrial wastewater irrigated areas and to assess the health risks of these metals to the people. Metal analyses were carried out using the atomic absorption spectrophotometer equipped with a graphite furnace. The metal readings in the cauliflower specimens ranged from 1.153 to 1.389, 0.037 to 0.095, 0.61 to 0.892, 0.625 to 0.921, 1.165 to 2.399, 0.561 to 0.652, 0.565 to 0.585, 0.159 to 0.218 and 1.268 to 1.816 mg/kg for Cd, Co, Cr, Cu, Fe, Ni, Pb, Zn and Mn, respectively. Statistics revealed that, with the exception of Pb and Co (p > 0.05), there was no statistically significant variation in the metal concentrations in the cauliflower samples according to the irrigation type. Pb, Ni, and Cr had HRI values below 1.0 and did not seem to be a hazard to human health, in contrast to Cd, Co, Cr, Cu, Fe, Ni, Pb, Zn and Mn, which glanced to constitute a health risk. Regular monitoring of vegetables irrigated with wastewater is strongly advised to reduce health hazards to people. [ABSTRACT FROM AUTHOR]

Published

2024

24. Bioinformatic evaluation of the impact of miRNAs on the expression of detoxification-related genes in Zebrafish (Danio rerio).

Author

Banaee, Mahdi and Badr, Ahmad Ali

Subjects

ZEBRA danio, GENE expression, MICRORNA, BRACHYDANIO, NON-coding RNA

Abstract

Zebrafish (Danio rerio) stands as a valuable model organism for delving into molecular mechanisms, notably detoxification. MicroRNAs (miRNAs), small non-coding RNA molecules, serve as post-transcriptional regulators of gene expression, potentially shaping the complex network of genes engaged in detoxification pathways. This study employs bioinformatic analysis, utilizing Target Scan and DIANA databases, to explore the potential of miRNAs in modulating the expression of detoxification-associated genes in zebrafish. By meticulously scrutinizing miRNA and mRNA datasets in zebrafish, we pinpoint candidate miRNAs predicted to target established detoxification genes. Leveraging bioinformatic algorithms, we dissect the plausible interactions between these miRNAs and their target detoxification genes, which include pgp, gpx1a, gpx3, aldh3b1, gstm3, cyp3c1, gstp1, gpx1b, cyp17a1, sod1, sod2, gsto2, gstz1, akr7a3, gsr, ahr1b, cat, ahr2, and abcb4. Moreover, we assess the conservation of miRNA-target interactions across species and scrutinize potential miRNA binding sites within the 3' untranslated regions (UTRs) of target mRNAs. Our findings unveil the intricate regulatory interplay between miRNAs and genes involved in detoxification in zebrafish, providing a cornerstone for future experimental validations. This study significantly contributes to our evolving understanding of miRNAmediated gene regulation within the context of detoxification pathways in zebrafish. [ABSTRACT FROM AUTHOR]

Published

2024

25. Phylogenomics of the Ecdysteroid Kinase-like (EcKL) Gene Family in Insects Highlights Roles in Both Steroid Hormone Metabolism and Detoxification.

Author

Scanlan, Jack L and Robin, Charles

Subjects

*INSECT genes, *STEROID hormones, *INSECT genomes, *INSECT adaptation, *ECDYSONE, *MOLTING, *GENE families

Abstract

The evolutionary dynamics of large gene families can offer important insights into the functions of their individual members. While the ecdysteroid kinase-like (EcKL) gene family has previously been linked to the metabolism of both steroid molting hormones and xenobiotic toxins, the functions of nearly all EcKL genes are unknown, and there is little information on their evolution across all insects. Here, we perform comprehensive phylogenetic analyses on a manually annotated set of EcKL genes from 140 insect genomes, revealing the gene family is comprised of at least 13 subfamilies that differ in retention and stability. Our results show the only two genes known to encode ecdysteroid kinases belong to different subfamilies and therefore ecdysteroid metabolism functions must be spread throughout the EcKL family. We provide comparative phylogenomic evidence that EcKLs are involved in detoxification across insects, with positive associations between family size and dietary chemical complexity, and we also find similar evidence for the cytochrome P450 and glutathione S-transferase gene families. Unexpectedly, we find that the size of the clade containing a known ecdysteroid kinase is positively associated with host plant taxonomic diversity in Lepidoptera, possibly suggesting multiple functional shifts between hormone and xenobiotic metabolism. Our evolutionary analyses provide hypotheses of function and a robust framework for future experimental studies of the EcKL gene family. They also open promising new avenues for exploring the genomic basis of dietary adaptation in insects, including the classically studied coevolution of butterflies with their host plants. [ABSTRACT FROM AUTHOR]

Published

2024

26. Pathological and Biochemical Methods for Detection of Uranium Pollution in the Diyala-bridge Region, Iraq.

Author

Obaid, Hashim M. and Al. Kaisi, Bushra I.

Subjects

*GRANULOMA, *XENOBIOTICS, *ATHEROSCLEROSIS, *HEMATOXYLIN & eosin staining, *CARCINOMA, *HEMORRHAGE diagnosis

Abstract

Background: The present study comprised two distinct experiments. The first experiment involved a field survey conducted in the Diyala Bridge area of Baghdad, Iraq, spanning from December 2021 to May 2022. Soil, milk, and blood samples were collected from locally grazed cattle to ascertain uranium concentrations. In the second experiment, rats were subjected to poisoning with Uranyl acetate. Upon completion of the experiment, samples of liver, kidneys, and blood were collected for histopathological and biochemical analyses. Methods: Twenty-four albino male rats were divided equally and randomly into two groups i.e., control group and intoxicated group. Uranyl acetate was given daily for 120 days by 0.05 mg/kg to the latter group. At the end of the experiment liver and kidney sample were taken for histopathological examination and stained by Masson-trichrome stain. Results: The finding of eosin and hematoxylin stain and biochemical assay for CuZn-SOD U/mg and catalase K/mg protein were showed significantly elevated while liver tissue showed necrosis atrophy atherosclerosis cirrhosis and carcinoma characterized by irregular cell mitotic figure extensive fibrous tissue, tissue kidney presented interstitial hemorrhage and multiple granuloma. Conclusion: Intoxicant by Uranyl acetate showed significant elevating for CuZn-SOD U/mg and catalase K/mg protein, in contrast liver tissue showed necrosis atrophy atherosclerosis cirrhosis and carcinoma, tissue kidney presented interstitial hemorrhage and multiple granulomas. [ABSTRACT FROM AUTHOR]

Published

2024

27. High-Throughput Sequencing as a Tool for Detecting Microbial Communities in Lake Ecosystem and Its Implications in Fish Farming in Lake Buluan, Mindanao, Philippines.

Author

Tabugo, Sharon Rose, Dalayap, Rodelyn, Malaco, Amera, Alotaibi, Amal, and Cordero, Mary Anne

Subjects

*FISH farming, *NUCLEOTIDE sequencing, *BACTERIAL toxins, *ECOSYSTEMS, *BACTERIAL communities, *MICROBIAL diversity, *MICROBIAL communities, *CYANOBACTERIA, *BACTERIOPLANKTON

Abstract

Lake Buluan, the third-largest lake in the Philippines, is renowned for its diverse ecosystem, including various endemic fish species and fish pens dedicated to aquaculture. This study focused on analyzing the microbial community diversity in the lake using metabarcoding of the V3-V4 16S rRNA gene amplicon sequencing on llumina MiSeq platform. A total of six amplicon libraries were created, representing sites inside and outside fishing pens. After quality control and processing 917,192 amplicon sequence variants (ASVs) were obtained. The most abundant ASVs belonged to genera such as Cylindrospermopsis, Sphaerospermopsis, Stenotrophomonas, Vibrio, Anabaena, Microcystis, Serratia, Elizabethkingia and some unidentified genera that belong to phyla Verrucomicrobia, Planctomycetes, Chloroflexi, Firmicutes, Actinobacteria, Bacteroidetes and Acidobacteria. As assessed by the Shannon index, the microbial community's alpha diversity was high inside fish pens. In addition, the pH level significantly influences the composition of bacterial communities (BCC), leading to the notable presence of bacteria from the phylum Firmicutes, certain Proteobacteria, and Cyanobacteria. The analysis revealed an increased abundance of bacteria associated with toxin production, antibiotic resistance, and opportunistic pathogens. This poses risks to human health, water quality, and ecological systems. This information may impact fish farming practices in the area. Moreover, the predicted functions of the bacterial communities, analyzed using the PICRUSt algorithm within the Parallel-Meta Suite (PMS), indicated their involvement in metabolism and environmental information processing. Notably, the presence of bacteria involved in xenobiotic biodegradation suggests potential applications in bioremediation, including the breakdown of pollutants, hydrocarbons, and heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

28. MOLECULAR CHARACTERIZATION OF INDIGENOUS ATRAZINE DEGRADERS FROM AGRICULTURAL FIELDS IN LAGOS, SOUTHWEST NIGERIA.

Author

OJO-OMONIYI, Olusola Abayomi, KUYE, Adebowale Olakunle, and FASINU, Godwin Sewanu

Subjects

*ATRAZINE, *AGRICULTURE, *SOIL depth, *SOIL sampling, *MICROORGANISM populations

Abstract

Two composite soil samples were obtained from Lagos state agricultural field at Ikorodu and Lagos State University (LASU) agricultural field, both fields having over 10 years history of Atrazine application. The soil samples were obtained from 0 - 30cm depth with sterile soil auger. The control soil samples with no previous history of Atrazine application were obtained from Badagry beach at the same depth. Physico-chemical analysis of both composite soil samples (mean pH 4.93) and composite water samples obtained from nearby freshwater stream (mean pH 4.55) at the same depth were determined. Analysis of variance (ANOVA) showed there was significant relationship among the parameter and across the locations the result was not significantly different at 0.05 level of significance. Serial dilution technique was engaged to obtain indigenous microbial population while bacterial atrazine - degraders were obtained using minimal salt medium supplemented with 3% atrazine and fungal species with Sabouraud Dextrose agar (SDA) supplemented with atrazine at 5% respectively. Biodegradation / Time-Course study revealed Atrazine concentration reduction using Spectrophotometric analysis. DNA of some selected isolates were extracted and sequenced using 16S rRNA and ITS methods. The genetic data of these isolates were submitted to the NCBI GeneBank database. The selected Atrazine degraders identities were confirmed as follows; Pseudomonas alcaligenes (MT355448.1), Bacillus mycoides (JX144699.1) and Aspergillus aculeatus (LC496490.1) in the NCBI database. [ABSTRACT FROM AUTHOR]

Published

2024

29. The aryl hydrocarbon receptor as a tumor modulator: mechanisms to therapy

Author

Kanita A. Chaudhry and Anna Bianchi-Smiraglia

Subjects

AhR, cancer biology, therapeutics, immune regulation, xenobiotic, tumor promoter, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor that is widely recognized to play important, but complex, modulatory roles in a variety of tumor types. In this review, we comprehensively summarize the increasingly controversial role of AhR as a tumor regulator and the mechanisms by which it alters tumor progression based on the cancer cell type. Finally, we discuss new and emerging strategies to therapeutically modulate AhR, focusing on novel agents that hold promise in current human clinical trials as well as existing FDA-approved drugs that could potentially be repurposed for cancer therapy.

Published

2024

30. Extra-corporeal detoxification in insects

Author

Jing Yang, Yiwen Wang, Abeer El Wakil, and Bernard Moussian

Subjects

Xenobiotic, Insecticide, Detoxification, Drosophila, Kin selection, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Upon uptake of toxins, insects launch a detoxification program. This program is deployed in multiple organs and cells to raise their tolerance against the toxin. The molecular mechanisms of this program inside the insect body have been studied and understood in detail. Here, we report on a yet unexplored extra-corporeal detoxification of insecticides in Drosophila melanogaster. Wild-type D. melanogaster incubated with DDT, a contact insecticide, in a closed environment died as expected. However, incubation of a second cohort in the same environment after removal of the dead flies was not lethal. The effect was significantly lower if the flies of the two cohorts were unrelated. Incubation assays with Chlorpyrifos, another contact insecticide, yielded identical results, while incubation assays with Chlorantraniliprole, again a contact insecticide, was toxic for the second cohort of flies. A cohort of flies incubated in a DDT environment after an initial incubation of a honeybee survived treatment. Together, our data suggest that insects including Apis mellifera and D. melanogaster have the capacity to modify their proximate environment. Consequently, in their ecological niche, following individuals might be saved from intoxication thereby facilitating colonisation of an attractive site.

Published

2024

31. The Silent Threat: Exploring the Ecological and Ecotoxicological Impacts of Chlorinated Aniline Derivatives and the Metabolites on the Aquatic Ecosystem

Author

Daniela Rebelo, Sara C. Antunes, and Sara Rodrigues

Subjects

xenobiotic, chloroaniline, water quality, aquatic ecotoxicology, Therapeutics. Pharmacology, RM1-950, Toxicology. Poisons, RA1190-1270

Abstract

The growing concern over the environmental impacts of industrial chemicals on aquatic ecosystems has prompted increased attention and regulation. Aromatic amines have drawn scrutiny due to their potential to disturb aquatic ecosystems. 4-chloroaniline and 3,4-dichloroaniline are chlorinated derivatives of aniline used as intermediates in the synthesis of pharmaceuticals, dyes, pesticides, cosmetics, and laboratory chemicals. While industrial applications are crucial, these compounds represent significant risks to aquatic environments. This article aims to shed light on aromatic amines’ ecological and ecotoxicological impacts on aquatic ecosystems, given as examples 4-chloroaniline and 3,4-dichloroaniline, highlighting the need for stringent regulation and management to safeguard water resources. Moreover, these compounds are not included in the current Watch List of the Water Framework Directive, though there is already some information about aquatic ecotoxicity, which raises some concerns. This paper primarily focuses on the inherent environmental problem related to the proliferation and persistence of aromatic amines, particularly 4-chloroaniline and 3,4-dichloroaniline, in aquatic ecosystems. Although significant research underscores the hazardous effects of these compounds, the urgency of addressing this issue appears to be underestimated. As such, we underscore the necessity of advancing detection and mitigation efforts and implementing improved regulatory measures to safeguard the water bodies against these potential threats.

Published

2023

32. MicroRNAs in the Regulation of Solute Carrier Proteins Behind Xenobiotic and Nutrient Transport in Cells

Author

Yi, Colleen and Yu, Ai-Ming

Subjects

Medical Biochemistry and Metabolomics, Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Cancer, Genetics, Biotechnology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Aetiology, Underpinning research, microRNA, nutrient, xenobiotic, therapy, cancer, solute carrier, regulation, Biochemistry and cell biology, Medical biochemistry and metabolomics

Abstract

Altered metabolism, such as aerobic glycolysis or the Warburg effect, has been recognized as characteristics of tumor cells for almost a century. Since then, there is accumulating evidence to demonstrate the metabolic reprogramming of tumor cells, addiction to excessive uptake and metabolism of key nutrients, to support rapid proliferation and invasion under tumor microenvironment. The solute carrier (SLC) superfamily transporters are responsible for influx or efflux of a wide variety of xenobiotic and metabolites that are needed for the cells to function, as well as some medications. To meet the increased demand for nutrients and energy, SLC transporters are frequently dysregulated in cancer cells. The SLCs responsible for the transport of key nutrients for cancer metabolism and energetics, such as glucose and amino acids, are of particular interest for their roles in tumor progression and metastasis. Meanwhile, rewired metabolism is accompanied by the dysregulation of microRNAs (miRNAs or miRs) that are small, noncoding RNAs governing posttranscriptional gene regulation. Studies have shown that many miRNAs directly regulate the expression of specific SLC transporters in normal or diseased cells. Changes of SLC transporter expression and function can subsequently alter the uptake of nutrients or therapeutics. Given the important role for miRNAs in regulating disease progression, there is growing interest in developing miRNA-based therapies, beyond serving as potential diagnostic or prognostic biomarkers. In this article, we discuss how miRNAs regulate the expression of SLC transporters and highlight potential influence on the supply of essential nutrients for cell metabolism and drug exposure toward desired efficacy.

Published

2022

33. Effects of Organic Xenobiotics on Tenebrio molitor Larvae and Their Parasite Gregarina polymorpha

Author

Viktoriia Lazurska and Viktor Brygadyrenko

Subjects

Eugregarinorida, pollutants, xenobiotic, changes in body mass, parasitic system, Biology (General), QH301-705.5

Abstract

Environmental contamination with xenobiotics affects organisms and the symbiotic relations between them. A convenient object to study relationships between parasites and their hosts is the host–parasite system “Tenebrio molitor Linnaeus, 1758 (Coleoptera, Tenebrionidae)—Gregarina polymorpha (Hammerschmidt, 1838) Stein, 1848 (Eugregarinorida, Gregarinidae)”. For this experiment, we took 390 T. molitor larvae and 24 organic compounds. Groups of mealworms, 15 in each, were subjected to those compounds for 10 days. Then, we recorded the vitality of both the larvae of T. molitor and G. polymorpha. To assess how G. polymorpha had affected the hosts’ wellbeing, we looked for changes in the larvae’s body mass and compared them to the number of gregarines in their intestines. The vitality of the larvae was inhibited by cyclopentanol and 2-naphthol. The intensity of gregarine invasion was reduced by diphenyl ether, benzyl alcohol, catechol, and 3-aminobenzoic acid. No effect on the number of gregarines was produced by 3,4,5-trihydroxybenzoic acid, cyclohexanemethanol, phenol, benzalkonium chloride, maleic anhydride, cyclohexanol, resorcin, benzoic acid, 2-methylfuran, terpinen-4-ol, 1-phenylethylamine, dibutyl phthalate, 3-furancarboxylic acid, 5-methyl furfural, 6-aminohexanoic acid, succinic anhydride, o-xylene, and benzaldehyde. In the infected T. molitor individuals, the mean number of G. polymorpha equaled 45 specimens per host. The groups of smaller mealworms had fewer gregarines. Positive correlation was seen between growth rates of T. molitor larvae and the intensity of invasion by gregarines.

Published

2024

34. Toxicology

Author

Fil, Laura J., Olympia, Robert P., editor, Werley, Elizabeth Barrall, editor, Lubin, Jeffrey S., editor, and Yoon-Flannery, Kahyun, editor

Published

2023

35. Different Mice Strains in Biomarker Responses to Toxic Agents: The Example of Acetaminophen

Author

Bavia, Lorena, Guiloski, Izonete Cristina, Carvalho Carneiro, Milena, Prodocimo, Maritana Mela, Patel, Vinood B., Series Editor, Preedy, Victor R., Series Editor, and Rajendram, Rajkumar, editor

Published

2023

36. Effects of Xenobiotics and Their Degradation in Aquatic Life

Author

Iqram ul Haq, Mir, Umer Aziz, Rehman, Sabeehah, Wani, Rasy Fayaz Choh, Hussain, Mir Shabir, Shah, Ishteyaq Majeed, Rather, Mohd Ashraf, editor, Amin, Adnan, editor, Hajam, Younis Ahmad, editor, Jamwal, Ankur, editor, and Ahmad, Irfan, editor

Published

2023

37. Water Contamination Through Xenobiotics and Their Toxic Effects on Aquatic Animals

Author

Maqbool, Nafee, Shah, Ishteyaq Majeed, Galib, Shams M., Ahmad, Fayaz, Rather, Mohd Ashraf, editor, Amin, Adnan, editor, Hajam, Younis Ahmad, editor, Jamwal, Ankur, editor, and Ahmad, Irfan, editor

Published

2023

38. Exploring biodegradative efficiency: a systematic review on the main microplastic-degrading bacteria

Author

Milena Roberta Freire da Silva, Karolayne Silva Souza, Fabricio Motteran, Lívia Caroline Alexandre de Araújo, Rishikesh Singh, Rahul Bhadouria, and Maria Betânia Melo de Oliveira

Subjects

bacteria, bioremediation, synthetic polymers, microorganisms, xenobiotic, Microbiology, QR1-502

Abstract

IntroductionMicroplastics (MPs) are widely distributed in the environment, causing damage to biota and human health. Due to their physicochemical characteristics, they become resistant particles to environmental degradation, leading to their accumulation in large quantities in the terrestrial ecosystem. Thus, there is an urgent need for measures to mitigate such pollution, with biological degradation being a viable alternative, where bacteria play a crucial role, demonstrating high efficiency in degrading various types of MPs. Therefore, the study aimed to identify bacteria with the potential for MP biodegradation and the enzymes produced during the process.MethodsThe methodology used followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) protocol.Results and DiscussionThe research yielded 68 eligible studies, highlighting bacteria from the genera Bacillus, Pseudomonas, Stenotrophomonas, and Rhodococcus as the main organisms involved in MP biodegradation. Additionally, enzymes such as hydrolases and alkane hydroxylases were emphasized for their involvement in this process. Thus, the potential of bacterial biodegradation is emphasized as a promising pathway to mitigate the environmental impact of MPs, highlighting the relevance of identifying bacteria with biotechnological potential for large-scale applications in reducing MP pollution.

Published

2024

39. The Silent Threat: Exploring the Ecological and Ecotoxicological Impacts of Chlorinated Aniline Derivatives and the Metabolites on the Aquatic Ecosystem.

Author

Rebelo, Daniela, Antunes, Sara C., and Rodrigues, Sara

Subjects

*ANILINE derivatives, *ECOLOGICAL impact, *WATER management, *AROMATIC amines, *ECOSYSTEMS, *BODIES of water, *MICROPOLLUTANTS

Abstract

The growing concern over the environmental impacts of industrial chemicals on aquatic ecosystems has prompted increased attention and regulation. Aromatic amines have drawn scrutiny due to their potential to disturb aquatic ecosystems. 4-chloroaniline and 3,4-dichloroaniline are chlorinated derivatives of aniline used as intermediates in the synthesis of pharmaceuticals, dyes, pesticides, cosmetics, and laboratory chemicals. While industrial applications are crucial, these compounds represent significant risks to aquatic environments. This article aims to shed light on aromatic amines' ecological and ecotoxicological impacts on aquatic ecosystems, given as examples 4-chloroaniline and 3,4-dichloroaniline, highlighting the need for stringent regulation and management to safeguard water resources. Moreover, these compounds are not included in the current Watch List of the Water Framework Directive, though there is already some information about aquatic ecotoxicity, which raises some concerns. This paper primarily focuses on the inherent environmental problem related to the proliferation and persistence of aromatic amines, particularly 4-chloroaniline and 3,4-dichloroaniline, in aquatic ecosystems. Although significant research underscores the hazardous effects of these compounds, the urgency of addressing this issue appears to be underestimated. As such, we underscore the necessity of advancing detection and mitigation efforts and implementing improved regulatory measures to safeguard the water bodies against these potential threats. [ABSTRACT FROM AUTHOR]

Published

2023

40. Bacteria isolated from explosive contaminated environments transform pentaerythritol tetranitrate (PETN) under aerobic and anaerobic conditions.

Author

Avila-Arias, Helena, Casallas, Francy-Carolina, Arbeli, Ziv, García Gutiérrez, Andrea, Fajardo Gomez, Carlos Andres, Herrera Castillo, Denis Yohana, Carvajal Ramirez, Sandra, Tamayo-Figueroa, Diana Paola, Benavides López de Mesa, Joaquín, and Roldan, Fabio

Subjects

*PENTAERYTHRITOL tetranitrate, *GAMMAPROTEOBACTERIA, *BACTERIA, *ENVIRONMENTAL reporting, *BACTERIAL growth

Abstract

Pentaerythritol tetranitrate (PETN) is a nitrate ester explosive that may be persistent with scarce reports on its environmental fate and impacts. Our main objective was to isolate and characterize bacteria that transform PETN under aerobic and anaerobic conditions. Biotransformation of PETN (100 mg L−1) was evaluated using mineral medium with (M + C) and without (M − C) additional carbon sources under aerobic conditions and with additional carbon sources under anaerobic conditions. Here, we report on the isolation of 12 PETN-transforming cultures (4 pure and 8 co-cultures) from environmental samples collected at an explosive manufacturing plant. The highest transformation of PETN was observed for cultures in M + C under aerobic conditions, reaching up to 91% ± 2% in 2 d. Under this condition, PETN biotransformation was observed in conjunction with the release of nitrites and bacterial growth. No substantial transformation of PETN (<45%) was observed during 21 d in M − C under aerobic conditions. Under anaerobic conditions, five cultures could transform PETN (up to 52% ± 13%) as the sole nitrogen source, concurrent with the formation of two unidentified metabolites. PETN-transforming cultures belonged to Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, and Actinobacteria. In conclusion, we isolated 12 PETN-transforming cultures belonging to diverse taxa, suggesting that PETN transformation is phylogenetically widespread. [ABSTRACT FROM AUTHOR]

Published

2023

41. Studying the inhibition activity of rutin on xenobiotic inducible lambda-class glutathione transferases (GSTLs) along with its 2d- and 3d pharmacophore pattern

Author

Soujanya, K. and Shekar, C. Chandra

Published

2023

42. Mechanisms of Environment-Induced Autoimmunity.

Author

Pollard, K, Cauvi, David, Mayeux, Jessica, Toomey, Christopher, Peiss, Amy, Hultman, Per, and Kono, Dwight

Subjects

adaptive, animal model, autoimmunity, environment, inflammation, innate, xenobiotic, Autoantibodies, Autoimmune Diseases, Autoimmunity, Environmental Exposure, Humans, Inflammation

Abstract

Although numerous environmental exposures have been suggested as triggers for preclinical autoimmunity, only a few have been confidently linked to autoimmune diseases. For disease-associated exposures, the lung is a common site where chronic exposure results in cellular toxicity, tissue damage, inflammation, and fibrosis. These features are exacerbated by exposures to particulate material, which hampers clearance and degradation, thus facilitating persistent inflammation. Coincident with exposure and resulting pathological processes is the posttranslational modification of self-antigens, which, in concert with the formation of tertiary lymphoid structures containing abundant B cells, is thought to promote the generation of autoantibodies that in some instances demonstrate major histocompatibility complex restriction. Under appropriate gene-environment interactions, these responses can have diagnostic specificity. Greater insight into the molecular and cellular requirements governing this process, especially those that distinguish preclinical autoimmunity from clinical autoimmunedisease, may facilitate determination of the significance of environmental exposures in human autoimmune disease.

Published

2021

43. Coordinate regulation of systemic and kidney tryptophan metabolism by the drug transporters OAT1 and OAT3

Author

Granados, Jeffry C, Richelle, Anne, Gutierrez, Jahir M, Zhang, Patrick, Zhang, Xinlian, Bhatnagar, Vibha, Lewis, Nathan E, and Nigam, Sanjay K

Subjects

Medical Biochemistry and Metabolomics, Biomedical and Clinical Sciences, Kidney Disease, Microbiome, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Animals, Kidney, Mice, Organic Anion Transport Protein 1, Organic Anion Transporters, Sodium-Independent, Oxidative Stress, Protein Transport, Signal Transduction, Tryptophan, chronic kidney disease, drug transport, drug transporters, gut microbiome, kidney, kidney metabolism, organ crosstalk, tryptophan, uremic toxins, xenobiotic, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

How organs sense circulating metabolites is a key question. Here, we show that the multispecific organic anion transporters of drugs, OAT1 (SLC22A6 or NKT) and OAT3 (SLC22A8), play a role in organ sensing. Metabolomics analyses of the serum of Oat1 and Oat3 knockout mice revealed changes in tryptophan derivatives involved in metabolism and signaling. Several of these metabolites are derived from the gut microbiome and are implicated as uremic toxins in chronic kidney disease. Direct interaction with the transporters was supported with cell-based transport assays. To assess the impact of the loss of OAT1 or OAT3 function on the kidney, an organ where these uptake transporters are highly expressed, knockout transcriptomic data were mapped onto a "metabolic task"-based computational model that evaluates over 150 cellular functions. Despite the changes of tryptophan metabolites in both knockouts, only in the Oat1 knockout were multiple tryptophan-related cellular functions increased. Thus, deprived of the ability to take up kynurenine, kynurenate, anthranilate, and N-formylanthranilate through OAT1, the kidney responds by activating its own tryptophan-related biosynthetic pathways. The results support the Remote Sensing and Signaling Theory, which describes how "drug" transporters help optimize levels of metabolites and signaling molecules by facilitating organ cross talk. Since OAT1 and OAT3 are inhibited by many drugs, the data implies potential for drug-metabolite interactions. Indeed, treatment of humans with probenecid, an OAT-inhibitor used to treat gout, elevated circulating tryptophan metabolites. Furthermore, given that regulatory agencies have recommended drugs be tested for OAT1 and OAT3 binding or transport, it follows that these metabolites can be used as endogenous biomarkers to determine if drug candidates interact with OAT1 and/or OAT3.

Published

2021

44. Mancozeb associated with water deficit: Physiological and biochemical responses of soybean plants

Author

Julia Renata Schneider, Andressa Carlot De Bona, Mariele Müller, and Geraldo Chavarria

Subjects

Xenobiotic, Fungicide, Reactive oxygen species, Oxidative stress, Water stress, Combined stress, Plant ecology, QK900-989

Abstract

Can oxidative stress from xenobiotics be intensified under water deficit conditions? Based on the hypothesis that the exposure to a xenobiotic aggravates the oxidative damages induced by water deficit, soybean plants were cultivated in pots eqquipped with soil water potential sensors to continuously monitor soil moisture levels. The experiment was conducted in 2020, in a protected environment, using a randomized block design with three replications. To comprehensively evaluate physiological and biochemical responses of plants, we conducted a range of analyses, including measurements of stomatal conductance, leaf temperature, chlorophyll, chlorophyll fluorescence, relative water content, membrane damage, electrical conductivity, lipid peroxidation, concentration of reactive oxygen species – hydrogen peroxide and superoxide, activity of antioxidative enzymes – ascorbate peroxidase, superoxide dismutase, catalase, non-enzymatic compounds – non protein thiols, nitric oxide and proline. Plants that received the application of the fungicide mancozeb showed 1 °C higher temperature compared to the control plants. Irrigated soybean plants had higher nitric oxide content when treated with mancozeb, but under water deficit the higher content was observed in control plants. No deleterious effects of mancozeb as a xenobiotic were observed when applied at the recommended dose for soybean cultivation, even under water deficit conditions. The plants exhibited deleterious effects caused by water deficit, particularly in relation to oxidative stress induced by water shortage. The combination of two stresses (water deficit and xenobiotics) did not result in the maximization of negative effects caused by water stress. By refuting the working hypothesis, it becomes evident that the application of mancozeb to plants under water deficit conditions did not exacerbate the damage induced by this stress. Responses to this combination are contingent upon various factors, including the stress duration, its severity, the plant species involved, and, in the case of xenobiotics, their inherent properties and mode of action within the plant.

Published

2023

45. Protective Effect of Aquilaria crassna Leaf Extract against Benzo[a]pyrene-Induced Toxicity in Neuronal Cells and Caenorhabditis elegans : Possible Active Constituent Includes Clionasterol.

Author

Pattarachotanant, Nattaporn, Rangsinth, Panthakarn, Warayanon, Watis, Leung, George Pak-Heng, Chuchawankul, Siriporn, Prasansuklab, Anchalee, and Tencomnao, Tewin

Abstract

Aquilaria crassna (AC) is a beneficial plant widely used to alleviate various health ailments. Nevertheless, the neuroprotection, antiaging, and xenobiotic detoxification against high benzo[a]pyrene induction have not been investigated. This study aimed to investigate the effects of ethanolic extract of AC leaves (ACEE) in vitro using SH-SY5Y cells and in vivo using Caenorhabditis elegans (C. elegans). Neuroprotective activities and cell cycle progression were studied using SH-SY5Y cells. Additionally, C. elegans was used to determine longevity, health span, and transcriptional analysis. Furthermore, ACEE possible active compounds were analyzed by gas chromatograph–mass spectrometry (GC-MS) analysis and the possible active compounds were evaluated using a molecular docking study. First, ACEE possessed neuroprotective effects by normalizing cell cycle progression via the regulation of AhR/CYP1A1/cyclin D1 pathway. Next, ACEE played a role in xenobiotic detoxification in high B[a]P-induced C. elegans by the amelioration of lifespan reduction, and body length and size decrease through the reduction in gene expression in hexokinase (hxk) and CYP35 pathway. Finally, phytochemicals of ACEE were identified and we uncovered that clionasterol was the possible active constituent in powerfully inhibiting both CYP1A1 and hexokinase II receptor. Essentially, ACEE was recognized as a potential alternative medicine to defend against high B[a]P effects on neurotoxicity and xenobiotic detoxification. [ABSTRACT FROM AUTHOR]

Published

2023

46. Response of the Bone Marrow Stem Cells and the Microenvironment to Stress : Marrow Adipose Tissue and Leukemia

Author

Uçkan-Çetinkaya, Duygu, Muratoğlu, Bihter, Haider, Khawaja H., Section editor, Aramini, Beatrice, Section editor, Gonzalez, Elio A. Prieto, Section editor, and Haider, Khawaja Husnain, editor

Published

2022

47. Uptake of Organic Pollutants and the Effects on Plants

Author

Zeb, Bibi Saima, Hayat, Malik Tahir, Zeb, Tahseen, Khan, Faisal Younas, Abbasi, Haleema Zeb, Nawaz, Iffat, Ebadi, AbdolGhaffar, El-Ramady, Hassan, Editor-in-Chief, Alshaal, Tarek, Series Editor, Olle, Margit, Series Editor, Eichler-Löbermann, Bettina, Series Editor, Schnug, Ewald, Series Editor, and Mahmood, Qaisar, editor

Published

2022

48. Pharmaceutical Pollutants in Water: Origin, Toxicity Hazards, and Treatment

Author

Dhanalakshmi, Ravikumar, Priya, Ponmudi, Sivamurugan, Vajiravelu, Hashmi, Muhammad Zaffar, Series Editor, Strezov, Vladimir, Series Editor, Vasanthy, M., editor, Sivasankar, V., editor, and Sunitha, T. G., editor

Published

2022

49. Does Industrial Wastewater Irrigation Cause Potentially Toxic Metal Contamination and Risk to Human Health? Sugar Industry Wastewater and Radish Examples.

Author

Ugulu, Ilker, Bibi, Shehnaz, Khan, Zafar I., Ahmad, Kafeel, Munir, Mudasra, and Malik, Ifra S.

Abstract

The goal of this study was to appraise potentially toxic metal contents in the soil-radish system in industrial wastewater irrigated areas. The analysis of metals in water, soil and radish samples were performed with spectrophotometric method. The potentially toxic metal values in the wastewater irrigated radish samples were ranged from 1.25 to 1.41, 0.02 to 0.10, 0.77 to 0.81, 0.72 to 0.80, 0.92 to 1.19, 0.69 to 0.78, 0.08 to 0.11, 1.64 to 1.67 and 0.49 to 0.63 mg/kg for Cd, Co, Cr, Cu, Fe, Ni, Pb, Zn and Mn, respectively. The potentially toxic metal values in the soil and radish samples irrigated with wastewater were lower than the maximum allowable limits, except for Cd. The results of the Health Risk Index evaluation conducted in this study also showed that the accumulations of Co, Cu, Fe, Mn, Cr, and Zn, especially Cd, pose a health risk in terms of consumption. [ABSTRACT FROM AUTHOR]

Published

2023

50. Biodegradation of the trifluralin herbicide by Pseudomonas fluorescens.

Author

Faramarzi, M., Avarseji, Z., Gholamalipuor Alamdari, E., and Taliei, F.

Subjects

PSEUDOMONAS fluorescens, TRIFLURALIN, MUPIROCIN, CHEMICAL oxygen demand, HIGH performance liquid chromatography, BIODEGRADATION

Abstract

Trifluralin is a xenobiotic pre-emergence and relatively stable herbicide in the soil from the dinitroanilines family. The present study was conducted with the aim of biodegradation and acceleration of its detoxification process in soil by Pseudomonas fluorescens. The experiment was based on a completely randomized design that gauged the effect of P. fluorescens on the biodegradation of the trifluralin in four media types, including medium with carbon, nitrogen, carbon + nitrogen, and, without carbon + nitrogen. Population growth, chemical oxygen demand, and trifluralin concentration were measured 24, 48, and 72 h after inoculation. Results indicated that 72 h after inoculation, the maximum and minimum values of population growth were 20.28 × 106 and 1.32 × 106 cell mL−1 and the highest and lowest percentage of chemical oxygen demand removal was recorded as 42.29 and 19.5% from carbon + nitrogen and without carbon + nitrogen medium respectively. Based on High-Performance Liquid Chromatography results, the highest biodegradation rate was obtained in carbon + nitrogen (63.97%) and carbon medium (45.05%). According to the results, the highest and the lowest percentage of trifluralin biodegradation occurred in the nutrient-rich and nutrient-free medium. It could be concluded that P. fluorescens requires an energy source for decomposition, and alone it is not able to break down the structure of trifluralin to use it as a food source, however, with the help of carbon and nitrogen sources as an energy starter; it is decomposed by the possibly co-metabolic method. It seems that fertile soil is needed to activate the degradation capacity of P. fluorescens. [ABSTRACT FROM AUTHOR]

Published

2023