A microscopy technique created at UT Southwestern and powered by machine learning can detect multiple biochemical reactions in single cells in real time. The study found levels of the Xbp1 protein (green) rise in response to repeated or prolonged stress. Each colored hexagon corresponds to a different biochemical reaction tracked in the cells displayed in the center hexagon.
DALLAS Oct. 26, 2021 UT Southwestern researchers have identified a new mechanism by which stress causes cells to stop dividing.
Using techniques created at UT Southwestern, the team identified a protein in yeast that plays a previously unrecognized role in halting the cell cycle, the process by which one cell reproduces itself by splitting into two. After accumulating in response to stressful events, the Xbp1 protein appears to suppress the cell cycle, the study suggests.
The findings, published in the Journal of Cell Biology, appear to solve one long-standing mystery of the cell cycle. If scientists can identify a protein in mammals with a similar function, the research might eventually lead to new ways to accelerate wound healing by encouraging cell division or improve cancer treatment by doing the opposite.
Scientists have been studying this fundamental process for nearly seven decades, said Orlando Argello-Miranda, Ph.D., an Instructor who co-led the study with Assistant Professor Jungsik Noh, Ph.D., both of UTSWs Lyda Hill Department of Bioinformatics. Weve essentially identified a protein that can stop the cell cycle in response to stressful conditions.
Scientists have long known that the cell cycle consists of several defined stages as a cell goes from a resting state to increasing in size as it copies its genetic material or DNA in a process known as DNA replication, condenses its DNA, and finally divides into two daughter cells.
It has long been known that a stressful event such as starvation can send a cell into a protective state known as quiescence. Typically, the cell cycle halts just before DNA replication takes place, Dr. Argello-Miranda explained. However, a minority of cells seem to become quiescent at other points in the process.
To understand why, Dr. Argello-Miranda, Dr. Noh, and their colleagues studied yeast cells challenged by nutritional stress. The researchers were able to study individual cells in that state by using a technique called microfluidics six-color imaging developed at UT Southwestern. That technique combines a technology for cell culture called microfluidics with a six-color fluorescent-microscopy approach pioneered at UTSW in 2018. In microfluidics six-color-imaging, investigators pass cells through a tiny, fluid-filled chamber monitored with a specialized microscope and camera array. The researchers also used machine learning to track and detect up to six biochemical reactions in single cells in real time.
In previous studies in the field, researchers cultured yeast cells in flasks and were unable to track single cells, Dr. Argello-Miranda said. In contrast, we have obtained movies that record how individual cells stop dividing and enter quiescence.
Although most of the starved cells entered quiescence at the expected stage, right before DNA replication, about 7% paused at another stage of the cell cycle, he said.
Using the new techniques to tag and follow specific proteins in individual cells over time, the researchers found that all the starved cells showed elevated levels of a suite of stress response proteins. However, cells that became quiescent at unexpected points in the cell cycle all had an abundance of Xbp1, which the study found is needed to stop the cell cycle after DNA replication.
Further experiments showed that this accumulation of Xbp1 caused the cell cycle to pause, even when the activity of another protein called Cdk1 that encourages cell proliferation is high. A closer look showed that Xbp1 levels werent static rather, they climbed higher after each stressful event an individual cell experienced or the longer a stressful event lasted.
This accumulation was so predictable we could tell how many stressful events a cell had been exposed to by how much Xbp1 was present in the cell nucleus, Dr. Argello-Miranda said. The findings suggest that Xbp1 has a newly discovered function in regulating the cell cycle, allowing yeast cells to remember exposure to stress and to protect themselves by entering quiescence, he added.
Although there is no direct homolog to Xbp1 in mammals, other proteins seem to show similar biochemical activity in mammalian cells. Those proteins will be the subject of future research, he said.
This work was supported by grants from the Cancer Prevention and Research Institute of Texas (RP150596 and RR150058), The Welch Foundation (I-1919-20170325), and the National Institute of General Medical Sciences of the National Institutes of Health (K99GM135487).
Other UTSW researchers who contributed to this study include Ashley J. Marchand, Taylor Kennedy, and Marielle AX Russo.
About UTSouthwestern Medical Center
UTSouthwestern, one of the nations premier academic medical centers, integrates pioneering biomedical research with exceptional clinical care and education. The institutions faculty has received six Nobel Prizes and includes 25 members of the National Academy of Sciences, 16 members of the National Academy of Medicine, and 14 Howard Hughes Medical Institute Investigators. The full-time faculty of more than 2,800 is responsible for groundbreaking medical advances and is committed to translating science-driven research quickly to new clinical treatments. UTSouthwestern physicians provide care in about 80 specialties to more than 117,000 hospitalized patients, more than 360,000 emergency room cases, and oversee nearly 3 million outpatient visits a year.
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UTSW scientists identify protein that stops cell cycle in response to stress - UT Southwestern
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