Ania Rashidpour scite author profile

Ania Rashidpour

5Publications

34Citation Statements Received

427Citation Statements Given

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University of Barcelona

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Chitosan-Based Drug Delivery System: Applications in Fish Biotechnology

Rashidpour

Pablos

et al. 2020

Polymers

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Chitosan is increasingly used for safe nucleic acid delivery in gene therapy studies, due to well-known properties such as bioadhesion, low toxicity, biodegradability and biocompatibility. Furthermore, chitosan derivatization can be easily performed to improve the solubility and stability of chitosan–nucleic acid polyplexes, and enhance efficient target cell drug delivery, cell uptake, intracellular endosomal escape, unpacking and nuclear import of expression plasmids. As in other fields, chitosan is a promising drug delivery vector with great potential for the fish farming industry. This review highlights state-of-the-art assays using chitosan-based methodologies for delivering nucleic acids into cells, and focuses attention on recent advances in chitosan-mediated gene delivery for fish biotechnology applications. The efficiency of chitosan for gene therapy studies in fish biotechnology is discussed in fields such as fish vaccination against bacterial and viral infection, control of gonadal development and gene overexpression and silencing for overcoming metabolic limitations, such as dependence on protein-rich diets and the low glucose tolerance of farmed fish. Finally, challenges and perspectives on the future developments of chitosan-based gene delivery in fish are also discussed.

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Metformin counteracts glucose-dependent lipogenesis and impairs transdeamination in the liver of gilthead sea bream (Sparus aurata)

Rashidpour

Silva-Marrero

Seguí

et al. 2019

American Journal of Physiology-Regulatory, Integrative and Comp

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Metformin is an antidiabetic drug with a major impact on regulating blood glucose levels by decreasing hepatic gluconeogenesis, but also by affecting other pathways, including glucose transport and energy/lipid metabolism. Carnivorous fish are considered glucose intolerant, as they exhibit poor ability in using dietary carbohydrates. To increase the current knowledge about the molecular mechanisms by which metformin can improve glucose homeostasis in carnivorous fish, we addressed the effect of intraperitoneal administration of metformin, in the presence or absence of a glucose load, on metabolic rate-limiting enzymes and lipogenic factors in the liver of gilthead sea bream ( Sparus aurata). Hyperglycemia markedly upregulated the expression of glycolytic enzymes (glucokinase and 6-phosphofructo-1-kinase, PFK1) 5 h following glucose administration, while at 24 h posttreatment, it increased isocitrate dehydrogenase (IDH) activity, a key enzyme of the tricarboxylic acid cycle, and the expression of lipogenic factors (PGC1β, Lpin1, and SREBP1). Metformin counteracted glucose-dependent effects, and downregulated glutamate dehydrogenase, alanine aminotransferase, and mammalian target of rapamycin 5 h posttreatment in the absence of a glucose load, leading to decreased long-term activity of PFK1 and IDH. The results of the present study suggest that hyperglycemia enhances lipogenesis in the liver of S. aurata and that metformin may exert specific metabolic effects in fish by decreasing hepatic transdeamination and suppressing the use of amino acids as gluconeogenic substrates. Our findings highlight the role of amino acid metabolism in the glucose-intolerant carnivorous fish model.

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The Administration of Chitosan-Tripolyphosphate-DNA Nanoparticles to Express Exogenous SREBP1a Enhances Conversion of Dietary Carbohydrates into Lipids in the Liver of Sparus aurata

et al. 2019

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In addition to being essential for the transcription of genes involved in cellular lipogenesis, increasing evidence associates sterol regulatory element binding proteins (SREBPs) with the transcriptional control of carbohydrate metabolism. The aim of this study was to assess the effect of overexpression SREBP1a, a potent activator of all SREBP-responsive genes, on the intermediary metabolism of Sparus aurata, a glucose-intolerant carnivorous fish. Administration of chitosan-tripolyphosphate nanoparticles complexed with a plasmid driving expression of the N-terminal transactivation domain of SREBP1a significantly increased SREBP1a mRNA and protein in the liver of S. aurata. Overexpression of SREBP1a enhanced the hepatic expression of key genes in glycolysis-gluconeogenesis (glucokinase and 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase), fatty acid synthesis (acetyl-CoA carboxylase 1 and acetyl-CoA carboxylase 2), elongation (elongation of very long chain fatty acids protein 5) and desaturation (fatty acid desaturase 2) as well as reduced nicotinamide adenine dinucleotide phosphate production (glucose-6-phosphate 1-dehydrogenase) and cholesterol synthesis (3-hydroxy-3-methylglutaryl-coenzyme A reductase), leading to increased blood triglycerides and cholesterol levels. Beyond reporting the first study addressing in vivo effects of exogenous SREBP1a in a glucose-intolerant model, our findings support that SREBP1a overexpression caused multigenic effects that favoured hepatic glycolysis and lipogenesis and thus enabled protein sparing by improving dietary carbohydrate conversion into fatty acids and cholesterol.

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Gene markers of dietary macronutrient composition and growth in the skeletal muscle of gilthead sea bream (Sparus aurata)

Sáez-Arteaga

Silva-Marrero

et al. 2022

Aquaculture

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Dietary cobalt supplementation improves growth and body composition and induces the expression of growth and stress response genes in Tor putitora

Younus

Zuberi

Rashidpour

et al. 2019

Fish Physiol Biochem

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A 90-day randomized feeding experiment was performed to assess the effects of dietary cobalt (Co) supplementation on growth performance, muscle composition, status of iron and manganese in the muscle as well as the expression of growth-related genes in the muscle (myoblast determination protein 1 homolog, MyoD; myogenin) and the stress-related gene heat shock protein 70 KDa (Hsp-70) in the liver of mahseer (Tor putitora). Feeding trial was conducted in triplicate under controlled semi-static conditions, and graded levels of dietary cobalt (0.5-3 mg/kg) were fed to six groups of advanced fry of T. putitora. The results obtained indicated curvilinear relationship of dietary Co levels with body crude protein content and weight gain (%). A positive correlation was observed up to 2 mg Co/kg diet. However, a decreasing trend was found with values over 2 mg Co/kg diet. The expression of muscle growth biomarkers MyoD and myogenin showed a similar response, up-regulation up to 2 mg Co/kg diet and decreased expression at 3 mg Co/kg diet. Indeed, the highest dietary Co supplementation increased the expression of Hsp-70, a key gene expressed in response to stress. Moreover, the muscle content of iron and manganese showed an inverse relationship with the dietary Co supplementation. Our findings suggest that 2 mg/kg Co dietary supplementation stimulates myogenesis and optimize muscle growth and body composition, while higher levels enhanced the expression of stress response genes and impaired growth of T. putitora. KeywordsCobalt chloride • Myoblast determination protein 1 homolog • Myogenin • Heat shock protein 70 KDa • Mahseer

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Ania Rashidpour

Chitosan-Based Drug Delivery System: Applications in Fish Biotechnology

Metformin counteracts glucose-dependent lipogenesis and impairs transdeamination in the liver of gilthead sea bream (Sparus aurata)

The Administration of Chitosan-Tripolyphosphate-DNA Nanoparticles to Express Exogenous SREBP1a Enhances Conversion of Dietary Carbohydrates into Lipids in the Liver of Sparus aurata

Gene markers of dietary macronutrient composition and growth in the skeletal muscle of gilthead sea bream (Sparus aurata)

Dietary cobalt supplementation improves growth and body composition and induces the expression of growth and stress response genes in Tor putitora

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