Zika virus infection can stunt neonatal brain development, a condition known as microcephaly, in which babies are born with abnormally small heads. To determine how best to prevent and treat the viral infection, scientists first need to understand how the pathogen gets inside brain cells.
Employing different approaches to answer different questions, two research teams at University of California San Diego School of Medicine independently identified the same molecule v5 integrin as Zika virus key to entering brain stem cells.
In a pair of papers published January 16, 2020 by Cell Press, the researchers also found ways to take advantage of the integrin to both block Zika virus from infecting cells and turn it into something good: a way to shrink brain cancer stem cells.
Integrins are molecules embedded in cell surfaces. They play important roles in cell adherence and communication, and are known to be involved in cancer progression and metastasis. Several other integrins are known entry points for other viruses, including adenovirus, foot-and-mouth disease virus and rotavirus, but v5 was not previously known for its role in viral infections.
One team, led by Tariq Rana, PhD, professor and chief of the Division of Genetics in the Department of Pediatrics at UC San Diego School of Medicine and Moores Cancer Center, used CRISPR gene editing to systematically delete every gene in a 3D culture of human glioblastoma (brain cancer) stem cells growing in a laboratory dish. Then they exposed each variation to Zika virus to determine which genes, and the proteins they encode, are required for the virus to enter the cells. The virus was for the first time labeled with green fluorescent protein (GFP) to allow the researchers to visualize viral entry into the cells.
Their study, published in Cell Reports, uncovered 92 specific human brain cancer stem cell genes that Zika virus requires to infect and replicate in the cells. But one gene stood out, the one that encodes v5 integrin.
Integrins are well known as molecules that many different viruses use as doorknobs to gain entry into human cells, Rana said. I was expecting to find Zika using multiple integrins, or other cell surface molecules also used by other viruses. But instead we found Zika uses v5, which is unique. When we further examined v5 expression in brain, it made perfect sense because v5 is the only integrin member enriched in neural stem cells, which Zika preferentially infects. Therefore, we believe that v5 is the key contributor to Zikas ability to infect brain cells.
The second study, published in Cell Stem Cell, was led by Jeremy Rich, MD, professor in the Department of Medicine at UC San Diego School of Medicine and director of neuro-oncology and of the Brain Tumor Institute at UC San Diego Health. Knowing that many viruses use integrins for entry into human cells, Richs team inhibited each integrin with a different antibody to see which would have the greatest effect.
When we blocked other integrins, there was no difference. You might as well be putting water on a cell, said Rich, who is also a faculty member in the Sanford Consortium for Regenerative Medicine and Sanford Stem Cell Clinical Center at UC San Diego Health. But with v5, blocking it with an antibody almost completely blocked the ability of the virus to infect brain cancer stem cells and normal brain stem cells.
Richs team followed up by inhibiting v5 in a glioblastoma mouse model with either an antibody or by deactivating the gene that encodes it. Both approaches blocked Zika virus infection and allowed the treated mice to live longer than untreated mice. They also found that blocking the v5 integrin in glioblastoma tumor samples removed from patients during surgery blocked Zika virus infection.
Ranas team also blocked v5 in mice, treating them daily with cilengitide or SB273005, two experimental cancer drugs that target the integrin. Six days after Zika virus infection, the brains of their drug-treated mice contained half as much virus as mock-treated mice.
The neat thing is that these findings not only help advance the Zika virus research field, but also opens the possibility that we could similarly block the entry of multiple viruses that use other integrins with antibodies or small molecule inhibitors, Rana said.
Rana and team are now engineering a mouse model that lacks v5 integrin in the brain a tool that would allow them to definitively prove the molecule is necessary for Zika viral entry and replication.
Rich is a neuro-oncologist who specializes in diagnosing and treating patients with glioblastoma, a particularly aggressive and deadly type of brain tumor. When he first saw how the Zika virus shrinks brain tissue, it reminded him of what he hopes to achieve when hes treating a patient with glioblastoma. In 2017, he and collaborators published a study in which they determined that Zika virus selectively targets and kills glioblastoma stem cells, which tend to be resistant to standard treatments and are a big reason why glioblastomas recur after surgery and result in shorter patient survival rates.
Richs latest study helps account for the virus preference for glioblastoma stem cells over healthy brain cells. The v5 integrin is made up of two separate subunits v and 5. The team found that glioblastoma stem cells produce a lot of both the v subunit (associated with stem cells) and 5 subunit (associated with cancer cells). Together, these units form the v5 integrin, which, the team discovered, plays an important role in glioblastoma stem cell survival. Those high levels of v5 integrin also help explain why, in the study, glioblastoma stem cells were killed by Zika virus at much higher rates than normal stem cells or other brain cell types.
It turns out that the very thing that helps cancer cells become aggressive cancer stem cells is the same thing Zika virus uses to infect our cells, Rich said.
To see how this might play out in a more realistic model of human disease, Richs team partnered with an expert in human brain disease modeling Alysson Muotri, PhD, professor at UC San Diego School of Medicine, director of the UC San Diego Stem Cell Program and a member of the Sanford Consortium for Regenerative Medicine, and team. Pinar Mesci, PhD, a postdoctoral researcher in Muotris lab, generated a new brain tumor model, where human glioblastoma tumors were transplanted into human brain organoids, laboratory mini-brains that can be used for drug discovery. The researchers discovered that Zika virus selectively eliminates glioblastoma stem cells from the brain organoids. Inhibiting v5 integrin reversed that anti-cancer activity, further underscoring the molecules crucial role in Zika virus ability to destroy cells.
Now Richs team is partnering with other research groups to perform targeted drug studies. In addition to searching for drugs to block Zika virus, as Ranas group is doing, Rich is interested in genetic modifications to the virus that could help better target its destruction to brain cancer cells, while leaving healthy cells alone.
While we would likely need to modify the normal Zika virus to make it safer to treat brain tumors, we may also be able to take advantage of the mechanisms the virus uses to destroy cells to improve the way we treat glioblastoma, Rich said. We should pay attention to viruses. They have evolved over many years to be very good at targeting and entering specific cells in the body.
Zika virus was perhaps best known in 2015-16, when a large outbreak affected primarily Latin America, but also several other regions of the world. While that particular epidemic has passed, Zika virus has not gone away. Smaller, local outbreaks continue and this past summer, the first few cases of native Zika virus infection were recorded in Europe. Scientists warn Zika could continue to spread as climate change affects the habitat range of the mosquito that carries it. The virus can also be transmitted from pregnant mother to fetus, and via sexual contact. More than half of all people on Earth are at risk for Zika virus infection, and there is no safe and effective treatment or vaccine.
Co-authors of Ranas study, published January 16, 2020 in Cell Reports, include: Shaobo Wang, Qiong Zhang, Shashi Kant Tiwari, Gianluigi Lichinchi, Edwin H. Yau, Hui Hui, Wanyu Li, UC San Diego; and Frank Furnari, UC San Diego and Ludwig Institute for Cancer Research.
This research was funded, in part, by the National Institutes of Health (grants AI125103, CA177322, DA039562, DA046171 and DA049524).
Co-authors of Richs study, published January 16, 2020 in Cell Stem Cell, also include: Zhe Zhu, Jean A. Bernatchez, Xiuxing Wang, Hiromi I. Wettersten, Sungjun Beck, Alex E. Clark, Qiulian Wu, Sara M. Weis, Priscilla D. Negraes, Cleber A. Trujillo, Jair L. Siqueira-Neto, David A. Cheresh, UC San Diego; Ryan C. Gimple, Leo J.Y. Kim, UC San Diego and Case Western Reserve University; Simon T. Schafer, Fred H. Gage, Salk Institute for Biological Studies; Briana C. Prager, UC San Diego, Case Western Reserve University and Cleveland Clinic; Rekha Dhanwani, Sonia Sharma, La Jolla Institute for Allergy and Immunology; Alexandra Garancher, Robert J. Wechsler-Reya, Sanford Burnham Prebys Medical Discovery Institute; Stephen C. Mack, Baylor College of Medicine, Texas Childrens Hospital; Luiz O. Penalva, Childrens Cancer Research Institute; Jing Feng, Zhou Lan, Rong Zhang, Alex W. Wessel, Michael S. Diamond, Hongzhen Hu, Washington University School of Medicine; Sanjay Dhawan, and Clark C. Chen, University of Minnesota.
The research was funded, in part, by the National Institutes of Health (grants CA217065, CA217066, CA203101, CA159859, CA199376, NS097649-01, CA240953-01, NS096368, R01DK103901,R01AA027065, MH107367, N5105969, CA045726, CA050286, CA197718, CA154130, CA169117, CA171652, NS087913, NS089272), California Institute for Regenerative Medicine (CIRM, grants FA1-00607, DISC209649) and International Rett Syndrome Foundation.
Disclosures: Tariq Rana is a co-founder of, member of the scientific advisory board for, and has equity interest in ViRx Pharmaceuticals. Alysson Muotri is a co-founder and has equity interest in TISMOO, a company dedicated to genetic analysis focusing on therapeutic applications customized for autism spectrum disorder and other neurological disorders. David Cheresh is a co-founder of TargeGen and AlphaBeta Therapeutics, a new but currently unfunded company developing an antibody to integrin v5 involved in cancer treatment. The terms of these arrangements have been reviewed and approved by UC San Diego in accordance with its conflict of interest policies. In addition, Michael Diamond, of Washington University School of Medicine, is a consultant for Inbios and Atreca and serves on the Scientific Advisory Board of Moderna.
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Zika Virus' Key into Brain Cells ID'd, Leveraged to Block Infection and Kill Cancer Cells - UC San Diego Health
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