Cancer-killing virus injected into human for the first time in new clinical trial
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Cancer-killing virus injected into human for the first time in new clinical trial

Views: 0     Author: Site Editor     Publish Time: 2022-06-16      Origin: Site


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A recent Phase 1 clinical trial has administered a dose of an experimental anticancer drug called CF33-hNIS, or Vaxinia, to the study’s first participant. This novel therapy involves using an oncolytic virus, a type of virus that can infect and kill cancer cells without harming healthy tissue. Vaxinia, a genetically modified smallpox virus, has been previously shown to be effective against a broad range of cancers in laboratory and animal models. This clinical trial conducted by City of Hope, a cancer research and treatment institute in the United States, in collaboration with Imugene, a biotech company in Australia, will test the novel oncolytic virus in cancer patients with advanced solid tumors. Laboratory studies suggest that Vaxinia may be more effective than the previous generation of oncolytic viruses in reducing the size of tumors, making this therapy especially promising. Dr. Yuman Fong, the chair of the Department of Surgery at City of Hope, told Medical News Today, “The particular importance of CF33/ Vaxinia is that this virus is designed to target all types of cancers. It is one of the first of a new generation of therapeutic viruses that would be much more potent than prior viruses, and it is potentially more selective for cancer while able to spare normal tissues.” Leslie Chong, the CEO of Imugene, told MNT, “We are keen to revolutionize cancer therapy, and no longer are we satisfied with incremental improvements in survival, we want to cure patients. By making cancer into one disease and having a targeted agent to obliterate it, that’s the holy grail of cancer therapeutics!” Oncolytic viruses Oncolytic virusesTrusted Source include viruses found in nature or are genetically engineered to selectively infect and replicate in tumor cells. As oncolytic viruses replicate, they can disintegrate and kill infected tumor cells. When tumor cells burst, they release tumor proteins or antigens, which the immune system recognizes as foreign. The immune response then elicits against these antigens resulting in further death of tumor cells. Additionally, the immune system’s ability to recognize the tumor cells creates a memory against the tumor antigens, which can help prevent cancer recurrence. Besides providing durable protection, a small dose of oncolytic viruses can be effective against the tumor due to the ability of the virus to replicate and spread in the tumor cells. Cancer cells express proteins and receptors on their surface distinct from healthy cells that help them evade the immune system, metastasize, and prevent cell death. Oncolytic viruses use these cancer cell-specific proteins and receptors to target them. Dr. Fong notes, “Interestingly, the same characteristics that eventually make cancer cells resistant to chemotherapy or radiation treatment actually enhance the success of oncolytic viruses, such as CF33-hNIS.” Moreover, the proteins targeted by oncolytic viruses are often common to a broad range of cancers, making these viruses a versatile tool. Using Vaxinia to target tumor cells CF33-hNIS or Vaxinia, developed by the researchers at City of Hope is a genetically modified version of the vaccinia or smallpox virus. The researchers have designed CF33-hNIS to enhance its ability to replicate in tumor cells, facilitating a large immune response against the tumor cells. In addition, the modified vaccinia virus also expresses a protein called human sodium iodide symporter (hNIS), which transports iodide ions into the cells. Thus, tumor cells infected by the virus express hNIS, allowing radioactive iodine uptake. Imaging techniques such as position emission technology (PET) scans can then be used along with radiolabeled iodine as a dye to help track the distribution of the virus in the body and its effectiveness. Moreover, hNIS can also help selectively target tumor cells that accumulate radioactive iodine using radiotherapy.

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