Tomás Zambrano scite author profile

Major depressive disorder (MDD) is a chronic disease whose neurological basis and pathophysiology remain poorly understood. Initially, it was proposed that genetic variations were responsible for the development of this disease. Nevertheless, several studies within the last decade have provided evidence suggesting that environmental factors play an important role in MDD pathophysiology. Alterations in epigenetics mechanism, such as DNA methylation, histone modification and microRNA expression could favor MDD advance in response to stressful experiences and environmental factors. The aim of this review is to describe genetic alterations, and particularly altered epigenetic mechanisms, that could be determinants for MDD progress, and how these alterations may arise as useful screening, diagnosis and treatment monitoring biomarkers of depressive disorders.

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Involvement of cytochrome P450 in cisplatin treatment: implications for toxicity

Quintanilha

Sousa

Visacri

et al. 2017

Cancer Chemother Pharmacol

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We observed that there is an important relationship between CYP450 and cisplatin, involving increased toxicity. However, the possible mechanisms described for the involvement of CYP450 enzymes in nephrotoxicity and hepatotoxicity induced by cisplatin need to be confirmed by further studies. Therefore, there is a need for a deeper investigation focusing on cisplatin toxicity mediated by CYP450 enzymes, which would undoubtedly contribute to a better understanding of the mechanisms that have been implicated so far.

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Identification of pharmacogenetic predictors of lipid-lowering response to atorvastatin in Chilean subjects with hypercholesterolemia

Rosales

Alvear

Cuevas

et al. 2012

Clinica Chimica Acta

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Polyphenol-Rich Extract from Propolis Reduces the Expression and Activity ofStreptococcus mutansGlucosyltransferases at Subinhibitory Concentrations

Veloz

Saavedra

Alvear

et al. 2016

BioMed Research International

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Tooth decay is an infectious disease, whose main causative agent identified is Streptococcus mutans (S. mutans). Diverse treatments have been used to eradicate this microorganism, including propolis. To date, it has been shown that polyphenols from Chilean propolis inhibit S. mutans growth and biofilm formation. However, the molecular mechanisms underlying this process are unclear. In the present study, we assessed the effect of Chilean propolis on the expression and activity of the glycosyltransferases enzymes and their related genes. Polyphenol-rich extract from propolis inhibited gene expression of glycosyltransferases (GtfB, GtfC, and GtfD) and their related regulatory genes, for example, VicK, VicR, and CcpA. Moreover, the treatment inhibited glucosyltransferases activity measured by the formation of sucrose-derived glucans. Additionally, an inhibitory effect was observed in the expression of SpaP involved in sucrose-independent virulence of S. mutans. In summary, our results suggest that Chilean propolis has a dose-dependent effect on the inhibition of genes involved in S. mutans virulence and adherence through the inhibition of glucosyltransferases, showing an anticariogenic potential of polyphenols from propolis beyond S. mutans growth inhibition.

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Statins differentially modulate microRNAs expression in peripheral cells of hyperlipidemic subjects: A pilot study

Zambrano

Hirata

et al. 2018

European Journal of Pharmaceutical Sciences

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Tomás Zambrano

Epigenetic Modifications of Major Depressive Disorder

Involvement of cytochrome P450 in cisplatin treatment: implications for toxicity

Identification of pharmacogenetic predictors of lipid-lowering response to atorvastatin in Chilean subjects with hypercholesterolemia

Polyphenol-Rich Extract from Propolis Reduces the Expression and Activity ofStreptococcus mutansGlucosyltransferases at Subinhibitory Concentrations

Statins differentially modulate microRNAs expression in peripheral cells of hyperlipidemic subjects: A pilot study

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