There’s been a lot of press about upcoming Covid-19 vaccines built with mRNA – genetic messengers that carry instructions to cells to make proteins to treat or prevent disease.

This same technology was used to treat cancer in mice in the laboratory of Prof. Dan Peer, VP for R&D and head of the Laboratory of Precision Nanomedicine at the Shmunis School of Biomedicine and Cancer Research at Tel Aviv University.

The novel lipid nanoparticle-based delivery system, called CRISPR-LNPs, carries mRNA that encodes for the enzyme Cas9. This enzyme acts as a molecular pair of scissors that snips the cancer cells’ DNA, effectively destroying them.

The results of the study, funded by Israel Cancer Research Fund, were published November 18 in the Science Advances journal.

“This is the first study in the world to prove that the CRISPR genome editing system can be used to treat cancer in a living animal effectively,” said Peer.

“It must be emphasized that this is not chemotherapy. There are no side effects, and a cancer cell treated in this way will never become active again. The molecular scissors of Cas9 cut the cancer cell’s DNA, thereby neutralizing it and permanently preventing replication.”

Peer and his team chose to test the technology on two of the deadliest cancers: glioblastoma and metastatic ovarian cancer.

Glioblastoma is the most aggressive type of brain cancer, with a five-year survival rate of only 3%. A single treatment with CRISPR-LNPs doubled the average life expectancy of mice with glioblastoma tumors, improving their overall survival rate by about 30%.

Ovarian cancer is the most lethal cancer of the female reproductive system; only a third of the patients survive this disease. Treatment with CRISPR-LNPs in a metastatic ovarian cancer mice model increased their overall survival rate by 80%.

“The CRISPR genome editing technology, capable of identifying and altering any genetic segment, has revolutionized our ability to disrupt, repair or even replace genes in a personalized manner,” said Peer.

“Despite its extensive use in research, clinical implementation is still in its infancy because an effective delivery system is needed to safely and accurately deliver the CRISPR to its target cells. The delivery system we developed targets the DNA responsible for the cancer cells’ survival. This is an innovative treatment for aggressive cancers that have no effective treatments today.”

He said the research team now intends “to go on to experiments with blood cancers that are very interesting genetically, as well as genetic diseases such as Duchenne muscular dystrophy. It will probably take some time before the new treatment can be used in humans, but we are optimistic.”

The researchers include, among others, Daniel Rosenblum, Anna Gutkin and Dinorah Friedmann-Morvinski from TAU; Dr. Zvi Cohen, head of neurosurgical oncology at Sheba Medical Center, Dr. Mark Behlke, CSO at Integrated DNA Technologies; and Prof. Judy Lieberman of Boston Children’s Hospital and Harvard Medical School.

“Through Ramot, the technology transfer company of Tel Aviv University, we are already negotiating with international corporations and foundations, aiming to bring the benefits of genetic editing to human patients,” said Peer.

1st published on Israel21c.

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Abigail Klein Leichman

Abigail Klein Leichman is a writer and associate editor at ISRAEL21c. Prior to moving to Israel in 2007, she was a specialty writer and copy editor at a major daily newspaper in New Jersey and has freelanced...

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