Protein misfolding is a likely culprit in many degenerative disorders. Cystic fibrosis, for instance, is caused by mutations in the CFTR gene that prevent the eponymous protein from assuming its proper configuration. Mutations that impair how other proteins fold have been linked to Alzheimer’s, Parkinson’s, and Huntington’s disease.
Now, a new study demonstrates that drugs commonly used to treat cystic fibrosis work by directly aiding the protein folding process—binding CFTR to ensure that the protein has ample time to bend into shape. The findings, published in Cell, may serve as a roadmap for the development of future medications to treat other diseases caused by misfolded proteins.
“Knowing how these drugs bind the protein enabled us to build a theory of how protein folding correctors work at a fundamental level,” says first author. “When analyzing the structure of a protein bound to a drug, we can usually see just a snapshot of the interaction. However, the structural information we obtained in this study reveals a thermodynamic theory of how the correctors improve the process of CFTR folding.”
It was not until about two decades ago that effective treatments for cystic fibrosis became available. Before that, patients seldom lived past age 30. Many now live well into their 50s.
Scientists understood the contours of the disease well enough. At the heart of this genetic condition is CFTR, a protein channel that sits on the surface of cells lining the lungs and digestive tract. By spitting out chloride ions, the channel attracts water that thins mucus and prevents it from accumulating.
If the protein doesn’t fold correctly, it breaks down inside the cell and never reaches the surface. As a result, mucus accumulates and hardens, making it difficult to breathe and digest. And pathogens caught in the mucus stick around longer, causing frequent infections. Lung disease, GI problems, and infections are therefore common symptoms of cystic fibrosis, along with malnutrition, kidney disease, and infertility.
Even in healthy people, CFTR is prone to misfolding and may degrade before it can do its job (although enough of the protein remains to keep the body healthy). Cystic fibrosis mutations exacerbate the problem, rendering the already-temperamental protein even more unstable.
“When patients have a mutation in the CFTR gene, little or none of the protein reaches the cell’s surface, or those proteins that do reach the surface function inefficiently,” the author says.
Researchers have long known that CFTR malfunction was the root cause of cystic fibrosis. But no treatment appeared to be forthcoming until a massive screening effort yielded two classes of drugs that, fortuitously, made it possible to manage the symptoms of the disease.
It was initially unclear how either medication worked, although both were undeniably effective. In 2019, the lab finally described the mechanism by which the first class of drug, known as potentiators, props open the CFTR channel, ensuring that whatever proteins manage to reach the cell surface can efficiently export chloride and attract water.
But the workings of the second type of drug, known as correctors, left researchers scratching their heads. Some suspected that correctors somehow helped proteins to fold properly in the first place, ensuring that they make it to the cell’s surface. “But how that small molecule helped CFTR fold was completely unknown,” the author says. “There were all kinds of theories.”
The researchers have now solved this puzzle, with the help of cryo-electron microscopy. Thousands of snapshots of the drug in action demonstrated that correctors stabilize CFTR in its earliest stages of biogenesis, nestling into a notch within the protein and holding it in place. This prevents it from degrading prematurely, granting it time to finish folding.
The findings could have wide-ranging implications, enabling the development of novel drugs for a spectrum of illnesses linked to improper protein folding.
“CFTR is not the only protein that folds incorrectly,” the author says. “Hundreds of diseases are caused by proteins failing to form the correct 3D structure. We now have a way to identify molecules that may be used to treat these diseases.”
https://www.cell.com/cell/fulltext/S0092-8674(21)01447-1
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fmechanism-of-cftr&filter=22
How a putative drug prevents misfolding of cystic fibrosis protein
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