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UV radiation damage leads to ribosome roadblocks, causing early skin cell death

UV radiation damage leads to ribosome roadblocks, causing early skin cell death

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UV radiation damage leads to ribosome roadblocks, causing early skin cell death
UV radiation damage can force an injured cell to decide between survival and cellular suicide. New research from Rachel Green’s laboratory shows DNA isn’t the only trigger. Immediately after UV exposure, ribosomes activate a widespread life-or-death pathway (pink), which is more pervasive than the DNA-initiated response (green). Credit: Zhong Yeow and Niladri Sinha

In a recent study, researchers at Johns Hopkins Medicine suggest that the cell’s messenger RNA (mRNA)—the major translator and regulator of genetic material—along with a critical protein called ZAK—spurs the cell’s initial response to UV radiation damage and plays a critical role in whether the cell lives or dies.

While UV radiation has long been known to damage DNA, it also damages mRNA, and the latest findings, published in Cell, indicate that mRNAs act as first responders in telling the cells how to manage the stress.

“RNA is a canary in the coal mine. It’s telling the cell, ‘We’ve got major damage here and we need to do something,'” says Rachel Green, Ph.D., a Bloomberg Distinguished Professor of Molecular Biology and Genetics and Daniel Nathans Director of the Department of Molecular Biology and Genetics at the Johns Hopkins University School of Medicine. Green, also an investigator at Howard Hughes Medical Institute, is the corresponding author of the new study.

ZAK is a key player in a process that identifies cellular damage by sensing the collisions of ribosomes, tiny macromolecular machines that help RNA translate the language of genes into the language of proteins. Collisions occur when ribosomes move along UV-damaged mRNAs and, unable to decode the damaged message, cause stalled ribosomes to get “rear-ended” by upstream ribosomes. Ribosome collisions activate ZAK, which triggers a cellular signaling program known as the ribotoxic stress response. ZAK then instigates a cascade of downstream events that decide the cell’s fate.

A more comprehensive understanding of how cellular life-and-death decisions are made upon encountering UV radiation could help investigators understand underlying causes of skin and other cancers, says Niladri Sinha, Ph.D., Jane Coffin Childs Memorial Fund Postdoctoral Fellow at Johns Hopkins School of Medicine. Companies developing drugs that target ribosomes may also find that ZAK could be a driver of cell death across cancer types, he says.

The findings indicate that ZAK senses the extent of cellular damage and responds depending on how much UV radiation the cell receives, offering a more nuanced understanding of UV-caused cell death and identifying new ways to keep ZAK’s activity under control, Green says.

“There are graded ways that ZAK responds; it’s not all or nothing,” she says.

The research also “very clearly shows” that for example, a skin cell’s fate in the immediate aftermath of UV radiation is “driven primarily by the extent of colliding ribosomes and ZAK signaling,” Green says.

“In this regime, DNA damage and the well-characterized DNA damage response pathway, including the key protein p53, do not significantly determine cell fate decisions,” she says.

DNA damage repair is critical and occurs in a subset of cells that are copying their genetic material, but these pathways are not the major “deciders” of cell fate, she says.

Green co-led the research with Sergi Regot, Ph.D., associate professor of molecular biology and genetics at the Johns Hopkins University School of Medicine, and Alban Ordureau, Ph.D., assistant member of the Cell Biology Program at Memorial Sloan Kettering Cancer Center’s Sloan Kettering Institute and an assistant professor at Weill Cornell.

To conduct their research, the scientists exposed human cellular models to a UV lamp mimicking the sun’s radiation. Using proteomics to understand cell signaling in an approach led by Ordureau, they evaluated ZAK’s role and made predictions about how cells would respond to different levels of stress. From there, live cell imaging experiments led by Regot, in addition to in-house ribosome biochemistry—the workhorse of Green’s laboratory—helped characterize how cellular death is regulated as a consequence of ZAK-mediated UV radiation.

In the future, the researchers plan to investigate cell types with different protein synthesis regimes, including those in melanoma and other cancers. The researchers suspect that fast-growing cells will rely on ZAK-mediated regulation more than others, Green says.

More information:
Niladri K. Sinha et al, The ribotoxic stress response drives UV-mediated cell death, Cell (2024). DOI: 10.1016/j.cell.2024.05.018

Journal information:
Cell


Provided by
Johns Hopkins University School of Medicine


Citation:
UV radiation damage leads to ribosome roadblocks, causing early skin cell death (2024, July 2)
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