A very special protein synthesis machinery
Sleeping sickness-causing parasites contain an unusual protein synthesis machinery. A team of researchers from ETH Zurich and the University of Bern resolved its very special structure for the first time.
Ribosomes are among the most important molecular machines within the cell that hardly changed in the course of evolution. Their function is to read copies of our genes, or building plans, and to translate them into proteins.
Research groups from ETH Zürich and the University of Bern which are part of the NCCR «RNA & Disease», with financial support by the Swiss National Science Foundation, used electron cryo microscopy in order to obtain the atomic-resolution structure of a very unusual ribosome present in the mitochondria of Trypanosoma brucei, the unicellular parasite that causes sleeping sickness. Their study appeared in the latest issue of “Science”.
Mitochondria are organelles that can be found in each eukaryotic cell. They are the power plants of the cell and contain their own mitochondrial ribosomes (mitoribosomes). They produce a number of proteins that are essential for these power plants. The mitoribosomes of trypanosomes have the same basic function as ribosomes from other organisms, however, they are specialized for the biology of trypanosomes and their structure deviates substantially.
Largest ribosome
All ribosomes are composed of two types of components; ribonucleic acid (RNA) and proteins. Intriguingly, the researchers found that mitoribosomes of trypanosomes are larger than any other ribosomes, including the ones found in humans. “The mitoribosomes of trypanosomes are primarily build up by proteins, whereas the structure of other ribosomes is dominated by RNA. Consequently, in trypanosomal mitoribosomes, proteins took over the architectural role of the RNA building blocks”, says study co-author André Schneider from the Department of Chemistry and Biochemistry of the University of Bern. In analogy, a small wooden house would differ from a big concrete construction, but both would need a roof, stairs, windows and so on.
“Furthermore, the comparison between the protein-dominated mitoribosomes of trypanosomes with the RNA-dominated ribosomes of other organisms allows us to better understand the most basic functional elements and building blocks shared between all ribosomes”, Prof. Schneider explains.
Promising drug target
Trypanosomes are not only an important model system for basic research, but they are also of considerable medical relevance since they cause sleeping sickness, a fatal disease in humans if left untreated. The mitoribosomes are essential for the survival of trypanosomes. As their structure deviates substantially from human ribosomes, they represent a promising drug target to potentially treat sleeping sickness. Comparison between the structures of human and trypanosomal mitochondrial ribosomes could be useful for the identification of selective inhibitors to treat diseases caused by trypanosomes.
Publication:Ramrath DJF, Niemann M, Leibundgut M, Bieri P, Prange C, Horn EK, Leitner A, Boehringer D, Schneider A, Ban N. Evolutionary shift towards protein-based architecture in trypanosomal mitochondrial ribosomes. Science, published online 13th Sept 2018, DOI: 10.1126/science.aau7735 |
«RNA & Disease – The Role of RNA Biology in Disease Mechanisms»The NCCR «RNA & Disease – The Role of RNA Biology in Disease Mechanisms» studies a class of molecules that has long been neglected: RNA (ribonucleic acid) is pivotal for many vital processes and much more complex than initially assumed. For instance, RNA defines the conditions, in a given cell, under which a given gene is or is not activated. If any part of this process of genetic regulation breaks down or does not run smoothly, this can cause heart disease, cancer, brain disease and metabolic disorders.The NCCR brings together Swiss research groups studying different aspects of RNA biology in various organisms such as yeast, plants, roundworms, mice and human cells. Home institutions are the University of Bern and the ETH Zurich. |
Source: ETH Zurich, Corporate Communications
2018/09/14