How protein aggregation occurs in cells

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How protein aggregation occurs in cells
Graphical abstract. Credit: Molecular Cell (2022). DOI: 10.1016/j.molcel.2022.06.024

Published in the Molecular Cell journal on July 19, a research study out of the Hatters Laboratory showed inappropriate protein aggregation is linked to poor outcomes for cell health and survival—especially in neurons in neurodegenerative diseases.

The study investigated the molecular driving forces that cause misfolded proteins to stick together abnormally and looked at the impact on sticky proteins on the surrounding proteins in a cell, specifically how proteostasis systems detect these sticky proteins to prevent them from aggregating.

The research is a result of a collaboration between Professor Rohit Pappu at Washington University, researchers from the University of Melbourne including Ph.D. student and equal first author, Yoon Hee Choi, Professor David Ascher, Dr. Dezerae Cox and Angelique Haynes and researchers from the University of Leeds.

“We found there were particular proteins that normally regulate protein folding—called molecular chaperones—that are very specific to detecting particular sticker patterns. This is an important finding since it informs how cells detect when proteins are aggregating abnormally,” said Professor Hatters.

Proteins are fundamental to the functioning of cells and cell survival and proliferation requires proteins to fold and bind other proteins.

“When proteins don’t fold properly, intermediate ‘misfolded’ forms—known as unfolded protein deposits (UPODs)—can stick together into aggregates. Such aggregates arise in many disease settings, when the molecular systems that govern protein folding and clearance ‘proteostasis’ break down,” said Choi.

The study highlighted proteins that were less stable were more likely to aggregate and be associated with disease. Findings suggest this is done through the inappropriate aggregation of misfolded forms with different subunits sensing different “sticker” codes that direct the aggregation. The proteins are involved in a wide number of diseases including cancers, congenital disorders, nervous system diseases, disorders of metabolism and skin diseases.

Specific patterns of stickers were found that were important to direct aggregation and which caused other surrounding bystander proteins in the cell to get co-aggregated. The work showed that certain classes of amino acids were the best stickers—tyrosine and phenylalanine—and that the pattern of the amino acids was important for how bystander proteins were inappropriately co-aggregated and how molecular chaperones recognized the aggregates that formed.

“The next step is to better understand the mechanisms of this. This may be useful in future efforts to reprogram cells to better clear out protein aggregates, such as in diseases where they accumulate extensively,” said Professor Hatters.


How chaperones promote correct shapes of proteins even under denaturing stress conditions


More information:
Kiersten M. Ruff et al, Sequence grammar underlying the unfolding and phase separation of globular proteins, Molecular Cell (2022). DOI: 10.1016/j.molcel.2022.06.024

Citation:
How protein aggregation occurs in cells (2022, July 19)
retrieved 20 July 2022
from https://phys.org/news/2022-07-protein-aggregation-cells.html

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