Until recently, retention of introns in mature mRNAs has been regarded as a consequence of mis‐splicing. Intron‐retaining transcripts are thought to be non‐functional because they are readily degraded by nonsense‐mediated decay. However, recent advances in next‐generation sequencing technologies have enabled the detection of numerous transcripts that retain introns. As we review herein, intron‐retaining mRNAs play an essential conserved role in normal physiology and an emergent role in diverse diseases. Intron retention should no longer be overlooked as a key mechanism that (...) independently reduces gene expression in normal biology. Exploring its contribution to the development and/or maintenance of diseases is of increasing importance. (shrink)

Epidemiological evidence supports a health‐promoting effect of the Mediterranean Diet (MedDiet), especially in the prevention of cardiovascular diseases. These cardiovascular benefits have been attributed to a number of components of the MedDiet such as monounsaturated fatty acids, antioxidant vitamins and phytochemicals. However, the underlying mechanisms remain unknown. Likewise, little is known about the genes that define inter‐individual variation in response to the MedDiet, although the TCF7L2 gene is emerging as an illustrative candidate for determining relative risk of cardiovascular events in (...) response to the MedDiet. Moreover, omics technologies are providing evidence supporting potential mechanisms, some of them implicating epigenetics (i.e. microRNAs, methylation), and certain data suggest that some traditional foods could contribute via microRNAs possibly acting as exogenous regulators of gene expression. Future research should aim at increasing and consolidating the nutrigenetic and nutrigenomic knowledge of the MedDiet in order to provide sound, personalized and optimized nutritional recommendations. (shrink)