Thousands of interactions between proteins in human cells identified for first time

Publication Nature Methods

Thanks to the work by Utrecht 木瓜福利影视 researcher Fan Liu and her colleagues, it is now possible to map the interactions between proteins in human cells. Until now, this had only been possible when a small number of proteins were brought together in an artificial setting. 鈥淲e are now able to see which proteins work together and where they are linked鈥, explains Utrecht 木瓜福利影视 Prof. Albert Heck. 鈥淭his is essential in order to understand how proteins operate in a cell under healthy conditions, and what goes wrong in diseases.鈥 The results of their research were published in Nature Methods on 28 September 2015.

The millions of proteins in our cells conduct all of the processes that regulate life, in constantly shifting interactions. These interactions are a lively dynamic of links between proteins - often numbering in the hundreds. Until recently, pharmaceuticals inhibited a single protein, but it is more effective to treat diseases by sabotaging the interactions between proteins. This is because the protein inhibited may actually have another useful, or even vital function in a healthy cell, which often results in undesirable side effects during treatment.

Network in ribosome
Net als mensen, vormen eiwitten in een cel functionele netwerken om samen te werken, bijvoorbeeld voor de vertaling van onze genetische informatie. De figuur laat de gevonden netwerkverbanden zien in het ribosoom, de eiwitsynthesefabriek van de cel

Identifying all of the links at a single glance

The technique for identifying the cooperation between proteins is called 鈥榗ross-linking mass spectrometry鈥. This technique has been available for some time, but until now it could only make these interactions visible if a small number of purified proteins were placed together in a small container. However, only a limited amount of information can be derived in such an artificial setting. But now, thanks to improvements in mass spectrometry sequence analysis and a new search algorithm, researchers can study all of the links between all of the proteins present in a cell at a single glance.

From dozens to thousands

鈥淲e鈥檝e managed to identify around 2,100 of these links, while before we were only able to map out tens or hundreds鈥, according to Albert Heck, Professor of Biomolecular Mass Spectrometry and Proteomics at Utrecht 木瓜福利影视. 鈥淔or example, we have identified more than 100 links in the ribosome, the machine that is responsible for protein synthesis in the cell. Plus, we鈥檝e been able to differentiate between the partners that collaborate with one another all the time from those with more superficial partnerships in this protein complex.鈥

Publication

Proteome-wide profiling of protein assemblies by cross-linking mass spectrometry
Fan Liu, Dirk Rijkers, Harm Post and Albert Heck (all from Utrecht 木瓜福利影视)
Nature Methods, online publication 28 September 2015,

This work was partly supported by , a programme of the financed by the Netherlands Organisation for Scientific Research () as part of the National Roadmap Large-scale Research Facilities of the Netherlands (project number 184.032.201).