Your search keyword '"transcriptomic approach"' showing total 5 results

1. In vitro characterisation of a novel rubber contact allergen in protective gloves.

Author

Ávila, Renato Ivan, Ljungberg Silic, Linda, Carreira‐Santos, Sofía, Merényi, Gábor, Bergendorff, Ola, and Zeller, Kathrin S.

Subjects

*LATEX gloves, *ALLERGENS, *SAFETY gloves, *CONTACT dermatitis, *DENDRITIC cells

Abstract

Background Objectives Methods Results Conclusions Allergic contact dermatitis (ACD) from protective gloves is often caused by rubber additives, such as accelerators. However, while accelerator‐free rubber gloves are available, they still cause ACD in some individuals.A new allergen, 2‐cyаnоethyl dimethyldithiocarbamate, (CEDMC), has recently been identified in accelerator‐free gloves, and we here provide a first in vitro characterisation of CEDMC in a dendritic cell (DC)‐like cell model along with three reference sensitizer rubber chemicals, consisting of tetraethylthiuram disulfide (TETD) and two xanthogenates.Cellular responses after the exposure to the rubber chemicals were assessed using a transcriptomic approach, multiplex cytokine secretion profiling, and flow cytometry to determine DC model activation marker expression and apoptosis induction.CEDMC and all other sensitizers were classified as strong skin sensitizers with the transcriptomic approach. They all significantly increased IL‐8 secretion and exposure to all except one increased CD86 DC activation marker expression. When tested, CEDMC induced apoptosis, however, delayed compared to TETD.The in vitro data corroborate CEDMC, TETD, and investigated xanthogenates as skin sensitizers. Transcriptomic analyses further reveal unique cellular responses induced by CEDMC, which together with future study can contribute to better understanding of cellular mechanisms underlying the sensitising capacity of rubber chemicals. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chronic dietary exposure to a glyphosate-based herbicide alters ovarian functions in young female broilers.

Author

Mathias, Freville, Anthony, Estienne, Christelle, Ramé, Gaëlle, Lefort, Benoît, Piégu, Marine, Chahnamian, Pascal, Froment, and Joëlle, Dupont

Subjects

*GENE expression, *GLYPHOSATE, *HERBICIDES, *GENE expression profiling, *MESSENGER RNA, *CHICKEN embryos, *FOOD consumption

Abstract

Glyphosate (GLY)-based herbicide (GBH) formulations are widely used pesticides in agriculture. The European Union recently decided to extend the use of GLY in Europe until 2034. Previously, we showed that chronic dietary GBH exposure in adult hens resulted in a reversible increase in early mortality in chicken embryos. In this present study, we investigated the GBH effects on metabolism and ovarian functions by using a transcriptomic approach in vivo in young female broilers and in vitro in ovarian explant cultures. We exposed 11-day-old female broilers to 13 mg GLY equivalent/kg body weight/d (GBH13, n = 20), 34 mg GLY equivalent/kg body weight/d (GBH34, n = 20), or a standard diet (control [CT], n = 20) for 25 d. These 2 GBH concentrations correspond to approximatively one-eighth and one-third of the no observed adverse effect level (NOAEL) as defined by European Food Safety Authority in birds. During this period, we evaluated body weight, fattening, food intake, and the weight of organs (including the ovaries). Chronic dietary GBH exposure dose dependently reduced food intake, body weight, and fattening, but increased oxidative stress and relative ovary weight. We analyzed the ovarian gene expression profile in CT, GBH13, and GBH34 broilers with RNA sequencing and showed that differentially expressed genes are mainly enriched in pathways related to cholesterol metabolism, steroidogenesis, and RNA processing. With quantitative polymerase chain reaction and western blotting, we confirmed that GBH decreased ovarian STAR and CYP19A1 messenger RNA and protein expression, respectively. Furthermore, we confirmed that GBH altered steroid production in ovarian explants. We have identified potential regulatory networks associated with GBH. These data provide valuable support for understanding the ovarian transcriptional regulatory mechanism of GBH in growing broilers. [ABSTRACT FROM AUTHOR]

Published

2024

3. Toxicogenomic responses of low level anticancer drug exposures in Daphnia magna.

Author

Russo, Chiara, Isidori, Marina, Deaver, Jessica A., and Poynton, Helen C.

Subjects

*DAPHNIA magna, *ANTINEOPLASTIC agents, *BIOLOGICAL tags, *DNA damage, *BIOCHEMICAL genetics

Abstract

Graphical abstract Highlights • Daphnia magna neonates were exposed to genotoxic levels of the anticancer drugs: imatinib mesylate, cisplatinum, etoposide. • RNA-seq analysis was performed to uncover insights into the mechanism of action of these compounds. • Differentially expressed transcripts were related to cell cycle regulation and G-protein coupled receptor (GPCR) signaling. • Angiotensin converting enzyme and DNA topoisomerase II are potential biomarkers of anticancer drug exposure. Abstract The use of anticancer drugs in chemotherapy is increasing, leading to growing environmental concentrations of imatinib mesylate (IMA), cisplatinum (CDDP), and etoposide (ETP) in aquatic systems. Previous studies have shown that these anticancer drugs cause DNA damage in the crustacean Daphnia magna at low, environmentally relevant concentrations. To explore the mechanism of action of these compounds and the downstream effects of DNA damage on D. magna growth and development at a sensitive life stage, we exposed neonates to low level concentrations equivalent to those that elicit DNA damage (IMA: 2000 ng/L, ETP: 300 ng/L, CDDP: 10 ng/L) and performed transcriptomic analysis using an RNA-seq approach. RNA sequencing generated 14 million reads per sample, which were aligned to the D. magna genome and assembled, producing approximately 23,000 transcripts per sample. Over 90% of the transcripts showed homology to proteins in GenBank, revealing a high quality transcriptome assembly, although functional annotation was much lower. RT-qPCR was used to identify robust biomarkers and confirmed the downregulation of an angiotensin converting enzyme-like gene (ance) involved in neuropeptide regulation across all three anticancer drugs and the down-regulation of DNA topoisomerase II by ETP. RNA-seq analysis also allowed for an in depth exploration of the differential splicing of transcripts revealing that regulation of different gene isoforms predicts potential impacts on translation and protein expression, providing a more meaningful assessment of transcriptomic data. Enrichment analysis and investigation of affected biological processes suggested that the DNA damage caused by ETP and IMA influences cell cycle regulation and GPCR signaling. This dysregulation is likely responsible for effects to neurological system processes and development, and overall growth and development. Our transcriptomic approach provided insight into the mechanisms that respond to DNA damage caused by anticancer drug exposure and generated novel hypotheses on how these chemicals may impact the growth and survival of this ecologically important zooplankton species. [ABSTRACT FROM AUTHOR]

Published

2018

4. Dietary exposure of 17-alpha ethinylestradiol modulates physiological endpoints and gene signaling pathways in female largemouth bass (Micropterus salmoides).

Author

Colli-Dula, Reyna-Cristina, Martyniuk, Christopher J., Kroll, Kevin J., Prucha, Melinda S., Kozuch, Marianne, Barber, David S., and Denslow, Nancy D.

Subjects

*XENOESTROGENS, *BIRTH control, *SEWAGE & the environment, *ENDOCRINE disruptors, *LARGEMOUTH bass, *VITELLOGENINS

Abstract

17Alpha-ethinylestradiol (EE2), used for birth control in humans, is a potent estrogen that is found in wastewater at low concentrations (ng/l). EE2 has the ability to interfere with the endocrine system of fish, affecting reproduction which can result in population level effects. The objective of this study was to determine if dietary exposure to EE2 would alter gene expression patterns and key pathways in the liver and ovary and whether these could be associated with reproductive endpoints in female largemouth bass during egg development. Female LMB received 70 ng EE2/g feed (administered at 1% of body weight) for 60 days. EE2 dietary exposure significantly reduced plasma vitellogenin concentrations by 70%. Hepatosomatic and gonadosomatic indices were also decreased with EE2 feeding by 38.5% and 40%, respectively. Transcriptomic profiling revealed that there were more changes in steady state mRNA levels in the liver compared to the ovary. Genes associated with reproduction were differentially expressed, such as vitellogenin in the liver and aromatase in the gonad. In addition, a set of genes related with oxidative stress ( e.g. glutathione reductase and glutathione peroxidase) were identified as altered in the liver and genes associated with the immune system ( e.g. complement component 1, and macrophage-inducible C-type lectin) were altered in the gonad. In a follow-up study with 0.2 ng EE2/g feed for 60 days, similar phenotypic and gene expression changes were observed that support these findings with the higher concentrations. This study provides new insights into how dietary exposure to EE2 interferes with endocrine signaling pathways in female LMB during a critical period of reproductive oogenesis. [ABSTRACT FROM AUTHOR]

Published

2014

5. An Altered Circadian Clock Coupled with a Higher Photosynthesis Efficiency Could Explain the Better Agronomic Performance of a New Coffee Clone When Compared with a Standard Variety.

Author

Toniutti, Lucile, Breitler, Jean-Christophe, Guittin, Charlie, Doulbeau, Sylvie, Etienne, Hervé, Campa, Claudine, Lambot, Charles, Herrera Pinilla, Juan-Carlos, and Bertrand, Benoît

Subjects

*COFFEE, *PHOTOSYNTHESIS, *CHLOROPHYLL, *PATHOGENIC microorganisms, *CARBON metabolism, *GENE expression in plants

Abstract

In a context where climate change is threatening coffee productivity, the management of coffee leaf rust is a challenging issue. Major resistant genes, which have been used for many years, are systematically being overcome by pathogens. Developing healthy plants, able to defend themselves and be productive even when attacked by the pathogen, should be part of a more sustainable alternative approach. We compared one hybrid (GPFA124), selected for its good health in various environments including a reduced rust incidence, and the cv. 'Caturra', considered as a standard in terms of productivity and quality but highly susceptible to rust, for phenotypic variables and for the expression of genes involved in the circadian clock and in primary photosynthetic metabolism. The GPFA124 hybrid showed increased photosynthetic electron transport efficiency, better carbon partitioning, and higher chlorophyll content. A strong relationship exists between chlorophyll a fluorescence and the expression of genes related to the photosynthetic electron transport chain. We also showed an alteration of the amplitude of circadian clock genes in the clone. Our work also indicated that increased photosynthetic electron transport efficiency is related to the clone's better performance. Chlorophyll a fluorescence measurement is a good indicator of the coffee tree's physiological status for the breeder. We suggest a connection between the circadian clock and carbon metabolism in coffee tree. [ABSTRACT FROM AUTHOR]

Published

2019