SciLifeLab and AstraZeneca use cryo-EM to advance biomedicine

SciLifeLab and AstraZeneca use cryo-EM to advance biomedicine
Cryo-EM reconstruction and atomic model derived from fitting in the density map. Credit: A. Amunts

A study published in Science Advances reveals the mechanism by which the receptor tyrosine kinase RET can increase neuronal survival in degenerative diseases. To understand the mechanism of this signalling complex, the study researchers examined the cryo-EM structure in its extracellular region, employing a new approach for data collection.

The resulting structural information shows how two large RET monomers dimerise on the membrane at the last few residues before the transmembrane region. This explains why the assembly of six proteins is required for proper placement of the transmembrane helices, which is the prerequisite for intracellular autophosphorylation of signalling.

The cryo-EM data allowed scientists to propose how the selectivity between RET ligands is achieved, and why it has a potential to trigger different signalling pathways for cellular response. The identified components can be used for drug targeting to improve the survival of neurons, which is important to prevent progression of neurodegenerative diseases such as Alzheimer's and Parkinson's.

Tove Sjogren, head of the Protein Structure section at AstraZeneca R&D, believes that the established cryo-EM collaboration is set to become increasingly important for AstraZeneca: "Thanks to cryo-EM, the structural biology field has seen an incredible development over the past few years. By establishing a collaboration with the Amunts group from SciLifeLab, we have expanded our ability to access know-how and infrastructure in Sweden, which has provided a valuable advantage for us in the endeavours to advance drug discovery."

"Cryo-EM is expected to accelerate the successful enterprise of drug design and structural biology. The collaboration with AstraZeneca is an early step in this direction, and we are fortunate to be involved in such a promising growth," says Alexey Amunts.

The might also have wider national implications. Ratan Bhat, head of strategy and external innovation within the Cardiovascular, Renal and Metabolism group at AstraZeneca adds: "Working with SciLifeLab enables us to access novel technology and science. And it is the interaction with their scientists that we particularly value, because it often provides an innovative thought pathway to address our scientific queries. The cryo-EM collaboration is a benchmark in this regard."

Olli Kallioniemi, the director of SciLifeLab, emphasises that the successful collaborative effort, which allowed overcoming technical difficulties, also illustrates how the SciLifeLab fellows' program contributes to technology development and new service capabilities, "The SciLifeLab fellows' program is key for our infrastructure and the national research community to be at the cutting-edge globally. It further increases the and international standing of cryo-EM at SciLifeLab and in Sweden as a whole."


Explore further

Realization of new image-based structure analysis method for 3-D structural analysis of biology

More information: Janna M. Bigalke et al, Cryo-EM structure of the activated RET signaling complex reveals the importance of its cysteine-rich domain, Science Advances (2019). DOI: 10.1126/sciadv.aau4202
Journal information: Science Advances

Provided by Science For Life Laboratory
Citation: SciLifeLab and AstraZeneca use cryo-EM to advance biomedicine (2019, October 21) retrieved 20 November 2019 from https://phys.org/news/2019-10-scilifelab-astrazeneca-cryo-em-advance-biomedicine.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
11 shares

Feedback to editors

User comments