[RNAissance: is there a future for RNA therapeutics?] / RNAissance: is er een toekomst voor RNA-therapeutica?

The central dogma in molecular biology states that genetic information is transmitted from DNA to RNA to proteins, but not the other way round. Thanks to a recent technological revolution - the 'RNAissance' - it has, however, become clear that RNA is not solely a messenger for passing on the genetic information necessary for protein synthesis, but that RNA also plays an important role in sickness and health. In the past 5 years alone more than 100 therapies with (complementary) RNA molecules have been investigated in Phase 1 trials, and a quarter of these have also been investigated in Phase 2 or 3 trials. The dramatic increase in the number of pharmaceutical companies that are developing RNA therapeutics illustrates the enormous potential of these medicines. Once the toxicity and the costs of RNA therapeutics can be limited, these medicines - personalized or not - could soon be prescribed for patients with a wide range of chronic conditions.

Inflammation, vascular injury and repair in rheumatoid arthritis.

The systemic pro-inflammatory state present in patients with rheumatoid arthritis (RA) accelerates the progression of atherosclerosis through chronic endothelial activation. Uncoupling of endothelial nitric oxide synthase plays a central role in the amplification of oxidative signalling pathways that chronically activate and, ultimately, injure the endothelium. Recent studies indicate that the resultant loss of endothelial integrity in patients with RA may also involve defects in the vascular regenerative potential provided by circulating endothelial progenitor cells (EPC). This is most likely the consequence of endothelial cell dysfunction in the bone marrow stroma, which hampers the mobilisation of these EPC to the circulation. In addition, mediators of systemic inflammation in RA can affect a second pathway of vascular regeneration. Under normal circumstances, myeloid CD14+ cells can adopt a pro-angiogenic phenotype that plays a key role in vascular remodelling and collateral formation. However, the chronic systemic inflammation observed in patients with RA may skew the differentiation of bone marrow and circulating CD14+ cells in such a way that these cells lose their capacity to support collateral formation, increasing the risk of cardiovascular disease. Taken together, in patients with RA, the impaired capacity of circulating cells to support vascular regeneration may comprise a novel pathway in the development of premature atherosclerosis.