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The RNase, REGE-1, specifically degrades the mRNA of a fat loss-promoting transcription factor, ETS-4. Thus, the accumulation of ETS-4 in REGE-1-depleted animals triggers fat loss (red dye reveals fat).

November 04, 2016

Molecular mechanism controlling fat accumulation elucidated


Scientists in Rafal Ciosk’s group at the FMI have identified a novel regulator of fat accumulation in the nematode C. elegans. An RNase, REGE-1, degrades the mRNA encoding a fat loss promoting transcription factor, ETS-4. The RNase and the transcription factor form an autoregulatory module controlling fat metabolism.

Since the 1980s, the prevalence of obesity worldwide has more than doubled. Today, almost 2 out of 5 adults are overweight. In addition, overweight and obesity are known to be major risk factors for cardiovascular and musculoskeletal diseases, diabetes and some cancers. What is less well understood are the molecular mechanisms controlling fat accumulation or metabolism.

Rafal Ciosk’s group at the Friedrich Miescher Institute for Biomedical Research (FMI) has now identified a novel player in fat regulation – an RNase. RNases are enzymes that promote the degradation of RNAs. Most interestingly, they remove RNA that is no longer needed, thus playing an important role in post-transcriptional regulation.

The scientists showed that, in C. elegans, a previously uncharacterized RNase, REGE-1, promotes the accumulation of body fat by degrading the mRNA that encodes a fat-loss-promoting transcription factor, ETS-4. First author Cornelia Habacher, a PhD student in the Ciosk lab, comments: “This is the first instance where fat metabolism is post-transcriptionally regulated by an RNase. We knew of a couple of microRNAs that targeted certain RNAs in fat regulation, but an RNase is new.” Once ETS-4 mRNA is degraded, its effects are lost and fat accumulates in these worms.

The scientists also showed that ETS-4, in turn, induces REGE-1 transcription. Ciosk explains: “REGE-1 and ETS-4 appear to form an autoregulatory module. We believe this type of fat regulation is important when an organism needs to rapidly adapt its fat metabolism – for example, when faced with an environmental change.”

Two of the authors of this study, Cornelia Habacher and Richard Venz (an MSc student), were awarded the FMI’s Chiquet-Ehrismann Prize, which honors particularly creative projects.

Original publication
Habacher C, Guo Y, Venz R, Kumari P, Neagu A, Gaidatzis D, Harvald EB, Færgeman NJ, Gut H, Ciosk R. (2016) Ribonuclease-mediated control of body fat. Dev. Cell. Advance online publication

More about Rafal Ciosk
Rafal Ciosk is a Senior group leader at the FMI. His research focuses on mRNA regulation, including interactions with RNA-binding proteins. He is also interested in how RNA-based regulatory mechanisms affect fundamental biological processes, such as maintenance of tissue homeostasis by self-renewing stem cells or cell-fate remodeling during development.
» More about Rafal Ciosk

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