The processes of DNA replication and transcription may introduce torsional (or twisting) strains in the DNA structure. These topological problems are relieved by an enzyme called topoisomerase II (TOP2) via a series of reactions. An important enzyme in this regard, TOP2 has an evolutionarily conserved structure comprising an N-terminal ATPase domain, catalytic core, and a C-terminal domain. Notably, humans have two kinds of TOP2–TOP2A, essential for cell division processes, and TOP2B, an important player in the proliferation and gene expression of neurons.
A series of previous studies revealed that missense mutations in the catalytic domain of TOP2B can lead to deleterious consequences. Recently, in patients with autism spectrum disorder and global developmental delay, a heterozygous germline mutation (i.e., a genetic mutation in a reproductive cell that is later reflected in every cell of the offspring) was discovered in the ATPase domain of TOP2B. In this mutation, histidine is substituted by tyrosine in the 58th position, and therefore, it is called H58Y (henceforth, referred to as TOP2B H58Y) substitution. Interestingly, this mutation does not cause extensive structural changes in TOP2B. So, researchers surmised that it causes a functional change unrelated to TOP2B’s catalytic activity.
In order to understand the biological significance of the H58Y mutation better, a group of researchers carried out a comprehensive set of experiments. Their results are published in Scientific Reports. Explaining the motivation behind the study, the senior author says, “Recent advances in genome analysis have revealed a number of gene mutations associated with diseases. Despite these advancements, however, the effect of these mutations on proteins remains unknown. This study provides an example of how mutations affect protein behavior in cells.”
Fluorescence recovery after photobleaching (FRAP) is a method of monitoring intracellular molecular movements. Using FRAP analysis, the team compared the nuclear dynamics of wild-type TOP2B (TOP2B WT) with TOP2B H58Y. Mobility is an important feature of nuclear proteins, and it is crucial for executing various biological functions. Interestingly, TOP2B H58Y was significantly less mobile in comparison to TOP2B WT.
The reduced mobility of TOP2B H58Y was further confirmed by its insensitivity to an inhibitor of TOP2, ICRF-187, which reduces TOP2 mobility by clamping it to DNA. Although TOP2B H58Y did not react to ICRF-187, its response to a TOP2 poison, etopside, which inhibits proliferation, was similar to TOP2B. This result suggested that the mutant enzyme retained some of its catalytic potential.
The team’s experiments also revealed the mechanism underlying the low protein mobility. They found that G180I, which affects the binding of ATP to TOP2B, could restore the mobility of TOP2B H58Y. These results, therefore, showed that TOP2B H58Y’s restrained movements were mediated by ATPase activity.
These experiments have shed light on a rare example of how a disease-associated mutation could altered nuclear dynamics, thus providing a platform to understand the biological relevance of such mutations. Further experiments are necessary for providing insights into the functional impact of the mutated protein’s reduced mobility, and the molecular processes underlying autism. Optimistic about the significance of their results, the senior author concludes that these experiments “can be an important clue for understanding the cause of autism.”
https://www.nature.com/articles/s41598-022-24883-2
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fdisease-8208&filter=22
Protein movements are affected by an autism-associated mutation
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