Analysis of microRNA turnover in mammalian cells following Dicer1 ablation

Although microRNAs (miRNAs) are key regulators of gene expression, little is known of their overall persistence in the cell following processing. Characterization of such persistence is key to the full appreciation of their regulatory roles. Accordingly, we measured miRNA decay rates in mouse embryonic fibroblasts following loss of Dicer1 enzymatic activity. The results confirm the inherent stability of miRNAs, the intracellular levels of which were mostly affected by cell division. Using the decay rates of a panel of six miRNAs representative of the global trend of miRNA decay, we establish a mathematical model of miRNA turnover and determine an average miRNA half-life of 119 h (i.e. ∼5 days). In addition, we demonstrate that select miRNAs turnover more rapidly than others. This study constitutes, to our knowledge, the first in-depth characterization of miRNA decay in mammalian cells. Our findings indicate that miRNAs are up to 10× more stable than messenger RNA and support the existence of novel mechanism(s) controlling selective miRNA cellular concentration and function

B-cell tolerance breakdown in Sjögren's syndrome: focus on BAFF.

International audienceSjögren's syndrome (SS) is an autoimmune epithelitis hallmarked by a destruction of epithelial cells, the subsequent lymphocytic infiltration of exocrine glands and their ensuing dryness. Given the prominent role currently assigned to B cells in SS, it is not surprising that the B cell activating factor belonging to the Tumor Necrosis Factor family (BAFF) is involved in its pathogenesis. When overexpressed, this cytokine leads to self-reactive B cells emergence at the transitional B-cell stage. BAFF overexpression that has been observed in SS, is associated with B-cell tolerance breakdown and autoantibody production. Furthermore, BAFF is responsible for the abnormal distribution of B cells subsets and B-cell hyperactivity described in the blood. In the salivary glands, a minority of B-cell clusters represent ectopic germinal center cells, while the majority manifest features consistent with transitional type 2 (T2) and marginal-zone (MZ)-like B cells. Interestingly, both types of B-cell cluster include autoreactive B cells and BAFF is associated with expansion of T2 B cells and MZ-like B cells in the salivary glands. Finally, BAFF plays a major role in B-cell repopulation after their depletion by rituximab in SS