Your search keyword '"Aranda, Juan F"' showing total 5 results

1. MicroRNAs and Atherosclerosis

Author

Madrigal-Matute, Julio, Rotllan, Noemi, Aranda, Juan F., and Fernández-Hernando, Carlos

Published

2013

2. MicroRNA 199a-5p Attenuates Retrograde Transport and Protects against Toxin-Induced Inhibition of Protein Biosynthesis.

Author

Aranda, Juan F., Rathjen, Stefan, Johannes, Ludger, and Fernández-Hernando, Carlos

Subjects

*MICRORNA, *TOXINS, *PROTEIN synthesis, *GOLGI apparatus, *HOMEOSTASIS

Abstract

Retrograde transport (RT) allows cells to retrieve receptors and other cellular cargoes for delivery to the Golgi apparatus, contributing to the maintenance of cellular homeostasis. This transport route is also commonly used by several bacterial toxins to exert their deleterious actions on eukaryotic cells. While the retrograde transport process has been well characterized, the contribution of microRNAs (miRNAs) in regulating this cellular transport mechanism remains unknown. Here, we determined that mir-199a and mir-199b, members of the intronic miRNA family, coordinate genes regulating RT and endosome trafficking. We demonstrate that miR-199a-5p attenuates the expression of Vps26A, Rab9B, and M6PR, thereby controlling RT from endosomes to the trans-Golgi network (TGN). Importantly, we found that overexpression of a Vps26A construct resistant to the inhibitory action of miR-199a-5p abrogates the effect of miR-199a-5p on RT. Finally, we demonstrate that miR-199-5p overexpression attenuates Shiga toxin type 1 (Stx1)-mediated inhibition of protein biosynthesis. In summary, our work identifies the first noncoding RNA that influences RT and reduces the inhibition of protein biosynthesis caused by bacterial toxins. [ABSTRACT FROM AUTHOR]

Published

2018

3. MicroRNA-148a regulates LDL receptor and ABCA1 expression to control circulating lipoprotein levels.

Author

Goedeke, Leigh, Rotllan, Noemi, Canfrán-Duque, Alberto, Aranda, Juan F, Ramírez, Cristina M, Araldi, Elisa, Lin, Chin-Sheng, Anderson, Norma N, Wagschal, Alexandre, de Cabo, Rafael, Horton, Jay D, Lasunción, Miguel A, Näär, Anders M, Suárez, Yajaira, and Fernández-Hernando, Carlos

Subjects

LOW density lipoprotein receptors, LIPOPROTEIN receptors, LIPOPROTEINS, MICRORNA, CARDIOVASCULAR diseases

Abstract

The hepatic low-density lipoprotein receptor (LDLR) pathway is essential for clearing circulating LDL cholesterol (LDL-C). Whereas the transcriptional regulation of LDLR is well characterized, the post-transcriptional mechanisms that govern LDLR expression are just beginning to emerge. Here we develop a high-throughput genome-wide screening assay to systematically identify microRNAs (miRNAs) that regulate LDLR activity in human hepatic cells. From this screen we identified and characterized miR-148a as a negative regulator of LDLR expression and activity and defined a sterol regulatory element-binding protein 1 (SREBP1)-mediated pathway through which miR-148a regulates LDL-C uptake. In mice, inhibition of miR-148a increased hepatic LDLR expression and decreased plasma LDL-C. Moreover, we found that miR-148a regulates hepatic expression of ATP-binding cassette, subfamily A, member 1 (ABCA1) and circulating high-density lipoprotein cholesterol (HDL-C) levels in vivo. These studies uncover a role for miR-148a as a key regulator of hepatic LDL-C clearance through direct modulation of LDLR expression and demonstrate the therapeutic potential of inhibiting miR-148a to ameliorate an elevated LDL-C/HDL-C ratio, a prominent risk factor for cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2015

4. MicroRNA modulation of lipid metabolism and oxidative stress in cardiometabolic diseases.

Author

Aranda, Juan F., Madrigal-Matute, Julio, Rotllan, Noemi, and Fernández-Hernando, Carlos

Subjects

*MICRORNA, *LIPID metabolism, *OXIDATIVE stress, *HEART metabolism disorders, *GALLSTONES, *LOW density lipoproteins

Abstract

Abstract: The regulation of the metabolism of cholesterol has been one of the most studied biological processes since its first isolation from gallstones in 1784. High levels of plasma low-density lipoprotein (LDL) cholesterol and reduced levels of plasma high-density lipoprotein (HDL) cholesterol are widely recognized as major risk factors of cardiovascular disease. An imbalance in the production of reactive oxygen species can oxidize LDL particles, increasing the levels of the highly proatherogenic oxidized LDL. Furthermore, under pathological scenarios, numerous molecules can function as pro-oxidants, such as iron or (high levels of) glucose. In addition to the classical mechanisms regulating lipid homeostasis, recent studies have demonstrated the important role of microRNAs (miRNAs) as regulators of lipoprotein metabolism, oxidative derivatives of lipoprotein, and redox balance. Here, we summarize recent findings in the field, highlighting the contributions of some miRNAs to lipid- and oxidative-associated pathologies. We also discuss how therapeutic intervention of miRNAs may be a promising strategy to decrease LDL, increase HDL, and ameliorate lipid- and oxidative-related disorders, including atherosclerosis, nonalcoholic fatty liver disease, and metabolic syndrome. [Copyright &y& Elsevier]

Published

2013

5. miR-27b inhibits LDLR and ABCA1 expression but does not influence plasma and hepatic lipid levels in mice.

Author

Goedeke, Leigh, Rotllan, Noemi, Ramírez, Cristina M., Aranda, Juan F., Canfrán-Duque, Alberto, Araldi, Elisa, Fernández-Hernando, Ana, Langhi, Cedric, de Cabo, Rafael, Baldán, Ángel, Suárez, Yajaira, and Fernández-Hernando, Carlos

Subjects

*MICRORNA, *LOW density lipoprotein receptors, *ATP-binding cassette transporters, *PROTEIN expression, *LIPIDS in the body, *BLOOD plasma, *LABORATORY mice

Abstract

Rationale Recently, there has been significant interest in the therapeutic administration of miRNA mimics and inhibitors to treat cardiovascular disease. In particular, miR-27b has emerged as a regulatory hub in cholesterol and lipid metabolism and potential therapeutic target for treating atherosclerosis. Despite this, the impact of miR-27b on lipid levels in vivo remains to be determined. As such, here we set out to further characterize the role of miR-27b in regulating cholesterol metabolism in vitro and to determine the effect of miR-27b overexpression and inhibition on circulating and hepatic lipids in mice. Methods and results Our results identify miR-27b as an important regulator of LDLR activity in human and mouse hepatic cells through direct targeting of LDLR and LDLRAP1. In addition, we report that modulation of miR-27b expression affects ABCA1 protein levels and cellular cholesterol efflux to ApoA1 in human hepatic Huh7 cells. Overexpression of pre-miR-27b in the livers of wild-type mice using AAV8 vectors increased pre-miR-27b levels 50–fold and reduced hepatic ABCA1 and LDLR expression by 50% and 20%, respectively, without changing circulating and hepatic cholesterol and triglycerides. To determine the effect of endogenous miR-27b on circulating lipids, wild-type mice were fed a Western diet for one month and injected with 5 mg/kg of LNA control or LNA anti-miR-27b oligonucleotides. Following two weeks of treatment, the expression of ABCA1 and LDLR were increased by 10–20% in the liver, demonstrating effective inhibition of miR-27b function. Intriguingly, no differences in circulating and hepatic lipids were observed between treatment groups. Conclusions The results presented here provide evidence that short-term modulation of miR-27b expression in wild-type mice regulates hepatic LDLR and ABCA1 expression but does not influence plasma and hepatic lipid levels. [ABSTRACT FROM AUTHOR]

Published

2015