Strategic Communications and Marketing News Bureau

Tracking the traffic between our cells

CHAMPAIGN, Ill. — We adjust a lens, and a bright constellation swirls into view – points of colored light hung against a deep-hued backdrop. We track them in their courses, their paths arcing around other, larger objects. Though the images look cosmic, they represent a frontier much tinier and closer to home. The glimmering stars are extracellular vesicles: tiny packages of molecular cargo in nanosized lipid carriers, released by all cells in the body.

Scientists once believed these vesicles were released to remove debris and waste from the cells. We now understand that EVs are readily absorbed by nearby cells, serving as an effective means of cell-to-cell communication, much like how hormones and nerves transmit messages throughout the body. 

In most cases, EVs ensure proper health. However, they also can propagate disease. The most common example is in cancer, where a transformed tumor cell can release EVs that then pass to nearby cells to condition them for later metastases. 

Microscope image

A stream of extracellular vesicles travels through blood vessels near a tumor.

Despite their importance in the body, we currently know very little about how EVs are released, trafficked, transported and distributed, or how they are taken up by cells – possibly at pre-determined locations. Current scientific methods capture only static 2-D snapshots of these biological processes and the attempts to piece together the dynamics. It’s like viewing a single frame from a full-length 3-D IMAX movie, then trying to infer all the characters, their personalities and motives, the setting and plot, and the denouement and final outcome of the entire story from that frame. 

Marni and Stephen Boppart stand back-to-back in front of the Beckman Institute.

Kinesiology and community health professor Marni Boppart, left, and electrical and computer engineering professor Stephen Boppart house their novel cellular cargo-tracking microscope at the Beckman Institute. 

We’ve developed a novel way of imaging EVs label-free and in vivo – while they are still in the fluids, tissues or body. With real-time 3-D imaging, we can reveal the full story of the action, drama, romance, thriller, horror and comedy that is taking place in our biological systems every moment of the day.

We are launching a new project with the goal of not only visualizing EVs in living tissue, but also tracking their dynamics. We have been named 2023 Allen Distinguished Investigators by the Paul G. Allen Family Foundation for this purpose.

We are using a new microscope that collects optical signals we induce by shining light onto the tissue. The microscope is housed at the Beckman Institute for Advanced Science and Technology as a collaboration between the Molecular Muscle Physiology Lab and the Biophotonics Imaging Lab.   

Importantly, we can visualize the EVs where they are located within a tissue, such as near blood vessels or emerging from specific cell types such as tumor cells. The optical signals we collect from the EVs also can tell us properties of the parent cells that produced them, such as the metabolic activity happening within those cells. 


Our ability to capture all these dynamics without the use of labels, dyes or stains is also notable, because any of those can directly affect or perturb the very biological processes we are trying to study. 

In our new roles as Allen Distinguished Investigators, we are focusing on how EVs are involved in the process of aging. Aging does not occur in just a few cells or one tissue at a time, but occurs in a systemic manner. We believe that EVs secreted from senescent cells, or cells in a permanent state of cell cycle arrest, circulate in the body and propagate the aging process. 

The ability to visualize and characterize EVs over their lifespan, in real time, provides a window into the aging process. Perhaps this understanding could even lead to developing therapies to slow the aging process. We are thrilled to be at the forefront of answering some of these questions.

Editor’s notes: Anyone on campus interested in learning more about extracellular vesicles should reach out to either Marni or Stephen Boppart. Together, they founded and currently lead the Extracellular Vesicle Imaging and Therapy (EVIT) Working Group at the Beckman Institute. This group hosts monthly seminars and a yearly workshop in April, with the goal of facilitating knowledge about EVs across campus.

Marni and Stephen Boppart are affiliated with the Beckman Institute and with the Carle Illinois College of Medicine. Stephen Boppart is the Grainger Distinguished Chair of Engineering and is affiliated with the Department of Bioengineering, the Cancer Center at Illinois and the Interdisciplinary Health Sciences Institute.

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