The relationship between BDNF and physical activity on depression.

BACKGROUND/OBJECTIVE: Major depressive disorder (MDD) is one of the leading causes of disease burden and disability worldwide. Brain-derived neurotrophic factor (BDNF) seems to have an important role in the molecular mechanisms underlying MDD aetiology, given its implication in regulating neuronal plasticity. There is evidence that physical activity (PA) improves depressive symptoms, with a key role of BDNF in this effect. We aim to perform a systematic review examining the relationship between the BDNF Val66Met polymorphism and the BDNF protein, PA and MDD. METHODS: Both observational and experimental design original articles or systematic reviews were selected, according to the PRISMA statement. RESULTS: Six studies evaluated the Val66Met polymorphism, suggesting a greater impact of physical activity on depression depending on the Val66Met genotype. More discordant findings were observed among the 13 studies assessing BDNF levels with acute or chronic exercise interventions, mainly due to the high heterogeneity found among intervention designs, limited sample size, and potential bias. CONCLUSIONS: Overall, there is cumulative evidence supporting the potential role of BDNF in the interaction between PA and MDD. However, this review highlights the need for further research with more homogeneous and standardised criteria, and pinpoints important confounding factors that must be considered in future studies to provide robust conclusions.

Online Databases of Genome Editing in Cardiovascular and Metabolic Diseases.

Metabolic and cardiovascular diseases are world-concerning pathologies that affect an important percentage of the population. Nowadays, advances in the genetic background of these diseases allow new approaches to models and therapies, as well as different gene edition trials. Furthermore, technological improvements in gene editing go along with the development of new online and biocomputational tools that provide us alternative ways to explore pathologies. In this chapter, historical gene editing methods are discussed but focusing on CRISPR-Cas system in detail and also online resources available to perform these types of experiments. Here, the different strategies for gene editing and their online tools are gathered, putting the light on its application in the study and treatment of cardiovascular and metabolic diseases.

Zygotic genome activation by the totipotency pioneer factor Nr5a2.

Life begins with a switch in genetic control from the maternal to the embryonic genome during zygotic genome activation (ZGA). Despite its importance, the essential regulators of ZGA remain largely unknown in mammals. On the basis of de novo motif searches, we identified the orphan nuclear receptor Nr5a2 as a key activator of major ZGA in mouse two-cell embryos. Nr5a2 is required for progression beyond the two-cell stage. It binds to its motif within SINE B1/Alu retrotransposable elements found in cis-regulatory regions of ZGA genes. Chemical inhibition suggests that 72% of ZGA genes are regulated by Nr5a2 and potentially other orphan nuclear receptors. Nr5a2 promotes chromatin accessibility during ZGA and binds nucleosomal DNA in vitro. We conclude that Nr5a2 is an essential pioneer factor that regulates ZGA.