Cactus garden plants new ideas for understanding cancer

Cactus garden plants new ideas for understanding cancer

April 2, 2019

  • Athena Aktipis, assistant professor, delivers a speech titled “From Cacti to Coral: Cancer is a Part of Life,” at the cactus garden launch at ASU's Tempe campus.


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  • Pamela Winfrey, scientific research curator, Carlo Maley, director of the Arizona Cancer Evolution Center, and Athena Aktipis, assistant professor, gather to launch a cactus garden on the Tempe campus that helps educate people on a new way of looking at cancer.


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April 2, 2019

“From the very beginning I had this idea that cancer isn’t something I need to fight or have to try to beat. It’s a natural thing, and I have to learn to live with it.” When Kevin Moore joined the cancer garden project team, he was dealing with stomach cancer. A landscape architect with the Moore/Swick partnership, in Tempe, Ariz., Moore is now cancer-free.

Moore explained that while working on the project, he learned that “cancer is a natural thing. Part of my body that went rogue, and I had to learn to live with it."

Wednesday evening, Moore gathered around the garden, located between the buildings that make up the Biodesign Institute at Arizona State University, along with a legion of cancer survivors, researchers and the curious to celebrate the completion of phase one. As it turned out, almost every person who joined the project was dealing with cancer in some way. Inspiration ran high.

The garden features an array of crested cacti. During a visit to Arizona nearly a decade ago, Athena Aktipis became curious about the unusual growth patterns, and how and why they occurred. An evolutionary biologist and an assistant professor at the Department of Psychology at Arizona State University, Aktipis became interested in both the scientific and the spiritual possibilities inherent in Arizona’s native flora.

An internationally recognized garden designer, Caspian Robertson, director of Caspian Gardens in in Surrey, England, jumped right into the desert landscape. Moore and his partner, Greg Swick, escorted Robertson to local nurseries, where he was able to select the plants. Todd Briggs and Beth Johannessen of Trueform, a Phoenix-based landscape architecture studio, helped realize Robertson’s design.

The cacti’s odd, sculptural shapes are a result of genetic changes that occur during cell division, some of the same processes that creates cancer in humans. Traditional treatments rely on killing the cancer rather than contending with it.

Reviewing years and years of research, Aktipis and scientific collaborator Carlo Maley began asking, if plants and animals can live with cancer – even thrive – why can’t humans? Thus began a search through the tree of life to gain new insight in the lessons that might be applied across species to reduce the scourge of cancer.

In November 2018, the National Cancer Institute awarded ASU $8.5 million over five years to establish the Arizona Cancer Evolution Center (ACE), located at ASU, which is now a hub for an international league of intrepid explorers who are turning traditional cancer research upside down. Maley is the center director, and Aktipis is part of a team studying organismal evolution and cancer defenses.

Aktipis launched the evening with a talk, “From Cacti to Coral: Cancer is a Part of Life.” Essentially, her message is that every multicellular creature is a candidate for cancer, and many plants and animals grow and survive in the face of cell mutations.

Aktipis combines her knowledge of biology with her research on human generosity, and cooperation and conflict, to characterize the behavior of the rogue cells, calling it “cellular cheating.” She observes that cheating occurs across all forms of life, defining cheating as “breaking shared rules, leading to a fitness advantage for the rule violator,” and in the case of cancer, death and destruction for the cooperating cells.

Aktipis’s former trainee and Biodesign post-doctoral fellow, Amy Boddy, now an assistant professor at University of California Santa Barbara, is leading the ACE team in curating a database with thousands of records of cancer characteristics across species. This allows them to look for patterns, variations and insights that might provide clues as to how humans can live better with cancer.

Aktipis explained that one might surmise that the larger the animal and the longer its life, the more opportunities for cell misbehavior there would be. But this is not actually the pattern that they see – instead some larger animals, like elephants and whales, seem to have lower cancer rates than their smaller counterparts. Aktipis’s partner, Maley, discovered why: he found that elephants have 40 copies of TP53, a cancer suppression gene.  Humans have two copies of TP53, one from each parent. Newsweek featured Maley’s work in an article titled Why Elephants Don’t Get Cancer – and What That Means for Humans.

Today, the Arizona Cancer Evolution Center is studying more than 180,000 multicellular creatures under study, including birds, primates and large carnivores. Ultimately, the question is can we pursue treatments that aim to allow the body to effectively adapt to cancer, as opposed to waging an all-out war on cancerous tumors?

Recently, Aktipis and Maley have received a grant from the Arizona Biomedical Research Centre, part of the Arizona Department of Health Services, to launch a breast cancer clinical trial with the Mayo Clinic using adaptive therapy. Their work was featured in the April edition of Wired magazine, in an article titled “A clever strategy for treating cancer, thanks to Darwin.”

Cancer garden project team member Byron Sampson, landscape architect and associate director of ASU’s Office of the University Architect, lost his father to cancer. Sampson, himself, is a brain tumor survivor.

“What really resonates with me is living with it, instead of battling with it like a war,” said Sampson. “If you look at it differently, it’s just abnormal cell growth. It’s not a bad thing, it’s just different.”

Perhaps the cacti know more than we yet understand. Crested cacti survive in the harsh conditions of the desert, even with mutations and unusual growth patterns. These beautiful plants may have a great deal to teach us about how we can survive and thrive in the face of cancer. “The future is living with cancer rather than dying of it,” predicts Aktipis, as she closed her talk and led guests to the cacti, appropriately a Native American symbol of warmth, protection and endurance.

 

Written by: Dianne Price