Sometimes we have mostly vegetables, at other times, meat; sometimes we eat much, at other times, little. Our diet can be quite changeable. This is all the more true for animals, which need to content themselves with what they can find or catch. Therefore, humans and animals must be able to deal with nutritional changes. So far, however, only little is known about how the cells of our body adjust for variable nutrient supply. By studying fruit flies, we have found that microRNAs (miRNAs) play a decisive role in this regulation.

Fig. 1. mir-310s mutants always have larger stomachs (crops) and accumulate more lipids on a diet

miRNAs are tiny RNA shreds that control the activity of genes. Each miRNA can affect many genes and, conversely, one gene can be controlled by multiple miRNAs. Thus, miRNAs simultaneously fine-tune multiple facets of the cell’s machinery.

We investigated the role of a particular miRNA cluster in the fruit flyDrosophila melanogasterand found that the miRNAs of themiR-310sfamily help the flies to quickly adjust their metabolism to the food supply. For this, these miRNAs target several genes of an important cellular signaling pathway at once. Our results have demonstrated, for the first time that miRNAs relay nutrient signals to cellular metabolism.

Flies on sugar diet
Themir-310scaught our attention because, this miRNA family reacted to stress and disease. Therefore, we addressed the question, whether themir-310shelp the animal to deal with unfavorable circumstances. Our analyses showed that flies, which lack themir-310sdue to a mutation have a number of genes changed their activity due to missingmir-310s. Furthermore, the amount of many proteins produced by cells was changed. Importantly, this included many proteins influencing cellular metabolism. This indicated that themir-310sis crucial to adapt the metabolism to the nutrient supply. Does this mean that flies without themir-310sare more sensitive to changes in their diet?

Fig. 2. The mir-310s target multiple components associated with Hh signaling, which ensures fast dietary response and adapts ovulation and egg production

To tackle this question, we have put flies on protein restrictive diet and fed them with sugars only. And indeed, the mutant flies had substantial difficulties adjusting to the shortage of amino acids and other important nutrients; genes important for metabolism reacted completely differently in flies lacking themir-310swhen compared to normal flies. At first glance, the mutant animals appeared quite normal. However, when we investigated their tissues and organs, it became evident that flies without themir-310shad a larger stomach and accumulated more fat. The cellular processing of nutrients appeared to be out of control.

此外,雌性果蝇已经改变了排卵。Importantly, similar-looking ovaries are found in flies with perturbations in the well-known Hedgehog signaling pathway. And there is another commonality: Hedgehog signaling also relays information depending on nutrient supply. This is particularly important in ovaries, since ovulation is highly energy-demanding. That is why we suspected a connection between themir-310sand Hedgehog signaling. Further experiments indeed demonstrated that these miRNAs directly control several factors of the Hedgehog pathway at once and thus, influence the efficiency of egg production in response to diet.

Usually, microRNAs only fine-tune gene expression; however, if they, as is the case here, target several genes of the same signaling pathway simultaneously, their effect can be significantly enhanced. It is well possible that themir-310sfamily is only a first example for many diet-dependent processes that are regulated by microRNAs.

Ibrahim Ömer Çiçek, Frederik Köpper, Halyna R. Shcherbata
Max Planck Research Group of Gene Expression and Signaling,
Max Planck Institute for Biophysical Chemistry,
Göttingen, Germany

Publication

Hedgehog Signaling Strength Is Orchestrated by the mir-310 Cluster of MicroRNAs in Response to Diet.
Çiçek IÖ, Karaca S, Brankatschk M, Eaton S, Urlaub H, Shcherbata HR
Genetics. 2016 Mar

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