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SPOP protein contributes to cancer: Research

ANI Jan 24, 2023

SPOP is the most frequently mutated protein in prostate cancer and has been linked to endometrial, uterine, and other cancers. Despite their importance, the mechanisms by which SPOP mutations cause cancer remain unknown.

Cryo-electron microscopy (cryo-EM) was used by researchers at St. Jude Children's Research Hospital to capture the first 3D structure of the entire SPOP assembly.

The findings were published in the journal Molecular Cell. They discovered previously unknown SPOP interfaces that harbour clusters of cancer-causing mutations.

The normal function of SPOP is to control the level of specific proteins within a cell. When SPOP is dysregulated through mutations, it can cause dramatic effects in the cell because protein levels are altered, triggering abnormal behaviours. SPOP may not be the fire that sets cancer ablaze, but it can light the fuse if mismanaged.

"The prostate cancer-associated mutations are well understood," said corresponding author Tanja Mittag, PhD, St. Jude Department of Structural Biology, adding, "They are in the substrate-binding site and prevent SPOP from recognising its substrates. But mutations found in patients with endometrial and other cancers were puzzling. The mutated sites did not seem important for SPOP function, at least looking at previous structures."

Determining the 3D structure of SPOP using cryo-EM allowed the researchers to gain insights into the underlying mechanisms that drive the function of this protein both in its normal state and when mutated in cancer.

By looking at how the SPOP oligomer assembles, the researchers were able to identify key interactions between regions of the protein, which had not been seen before. These were exactly the regions that are mutated in endometrial cancer.

"Once we had the 3D structure of SPOP, we could see that the pieces of the puzzle that had been missing were inherently important for understanding how SPOP functions in cancer," said co-first author Matthew Cuneo, PhD, St. Jude Department of Structural Biology, adding, "We were now able to see that what we initially thought to be regions of SPOP without functional importance are actually key to SPOP assembly and biology."

Previous studies had demonstrated that the SPOP protein assembles into long filaments. However, scientists could tell that the full picture had yet to be uncovered, as certain mutations unexpectedly affected this filament.

For example, mutations in the MATH domain [the part of SPOP that binds substrates] affected the propensity of the protein to assemble and hang around in cells.

The researchers also observed how a single mutation could dramatically affect how the protein forms filaments. Mutating the interface that locks the MATH domain in place completely changed the assembly of the proteins from a single to a double filament with intertwined MATH domains.

Discovering these additional protein interfaces in the filament using cryo-EM helped further explain how SPOP mutations contribute to cancer.

"Taking a broader view to look at the full-length protein gave us a deeper understanding of how mutations affect SPOP," said co-first author Brian O'Flynn, PhD, St. Jude Department of Structural Biology, adding, "The scale of the change just from one point mutation is huge. It was unexpected to see that."

Researchers in the field have already experimented with drugs that target the MATH domain of SPOP. Drugs could now be developed to target specifically the mutant forms of SPOP in endometrial cancer. One of the implications of this work is that one day it might be possible to differentially target SPOP based on its functional form within the cell.

"In addition to the questions that this research answers, what's exciting is that for scientists asking about SPOP, the possibilities have really opened up," O'Flynn added.

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