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Literature DB >> 27296553

Naturally Existing Oncolytic Virus M1 Is Nonpathogenic for the Nonhuman Primates After Multiple Rounds of Repeated Intravenous Injections.

Haipeng Zhang^1,2, Yuan Lin^1,3, Kai Li¹, Jiankai Liang¹, Xiao Xiao¹, Jing Cai¹, Yaqian Tan¹, Fan Xing¹, Jialuo Mai¹, Yuan Li¹, Wenli Chen¹, Longxiang Sheng¹, Jiayu Gu¹, Wenbo Zhu¹, Wei Yin^1,4, Pengxin Qiu¹, Xingwen Su¹, Bingzheng Lu¹, Xuyan Tian¹, Jinhui Liu¹, Wanjun Lu¹, Yunling Dou⁵, Yijun Huang¹, Bing Hu⁶, Zhuang Kang⁶, Guangping Gao⁷, Zixu Mao⁸, Shi-Yuan Cheng⁹, Ling Lu^10,11, Xue-Tao Bai¹¹, Shoufang Gong⁷, Guangmei Yan^1,12, Jun Hu^1,13.

Abstract

Cancers figure among the leading causes of morbidity and mortality worldwide. The number of new cases is expected to rise by about 70% over the next 2 decades. Development of novel therapeutic agents is urgently needed for clinical cancer therapy. Alphavirus M1 is a Getah-like virus isolated from China with a genome of positive single-strand RNA. We have previously identified that alphavirus M1 is a naturally existing oncolytic virus with significant anticancer activity against different kinds of cancer (e.g., liver cancer, bladder cancer, and colon cancer). To support the incoming clinical trial of intravenous administration of alphavirus M1 to cancer patients, we assessed the safety of M1 in adult nonhuman primates. We previously presented the genome sequencing data of the cynomolgus macaques (Macaca fascicularis), which was demonstrated as an ideal animal species for virus infection study. Therefore, we chose cynomolgus macaques of either sex for the present safety study of oncolytic virus M1. In the first round of administration, five experimental macaques were intravenously injected with six times of oncolytic virus M1 (1 × 10(9) pfu/dose) in 1 week, compared with five vehicle-injected control animals. The last two rounds of injections were further completed in the following months in the same way as the first round. Body weight, temperature, complete blood count, clinical biochemistries, cytokine profiles, lymphocytes subsets, neutralizing antibody, and clinical symptoms were closely monitored at different time points. Magnetic resonance imaging was also performed to assess the possibility of encephalitis or arthritis. As a result, no clinical, biochemical, immunological, or medical imaging or other pathological evidence of toxicity was found during the whole process of the study. Our results in cynomolgus macaques suggested the safety of intravenous administration of oncolytic virus M1 in cancer patients in the future.

Entities: Disease Species

Mesh：

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Year: 2016 PMID： 27296553 PMCID： PMC5076484 DOI： 10.1089/hum.2016.038

Source DB: PubMed Journal: Hum Gene Ther ISSN： 1043-0342 Impact factor: 5.695

21 in total

1. Severe encephalitis in cynomolgus macaques exposed to aerosolized Eastern equine encephalitis virus.

Authors: Douglas S Reed; Matthew G Lackemeyer; Nicole L Garza; Sarah Norris; Scott Gamble; Lawrence J Sullivan; Cathleen M Lind; Jo Lynne Raymond
Journal: J Infect Dis Date: 2007-06-21 Impact factor: 5.226

2. Protection from arthritis and myositis in a mouse model of acute chikungunya virus disease by bindarit, an inhibitor of monocyte chemotactic protein-1 synthesis.

Authors: Nestor E Rulli; Michael S Rolph; Anon Srikiatkhachorn; Surapee Anantapreecha; Angelo Guglielmotti; Suresh Mahalingam
Journal: J Infect Dis Date: 2011-10-01 Impact factor: 5.226

3. Activation of Cyclic Adenosine Monophosphate Pathway Increases the Sensitivity of Cancer Cells to the Oncolytic Virus M1.

Authors: Kai Li; Haipeng Zhang; Jianguang Qiu; Yuan Lin; Jiankai Liang; Xiao Xiao; Liwu Fu; Fang Wang; Jing Cai; Yaqian Tan; Wenbo Zhu; Wei Yin; Bingzheng Lu; Fan Xing; Lipeng Tang; Min Yan; Jialuo Mai; Yuan Li; Wenli Chen; Pengxin Qiu; Xingwen Su; Guangping Gao; Phillip W L Tai; Jun Hu; Guangmei Yan
Journal: Mol Ther Date: 2015-09-16 Impact factor: 11.454

Review 4. Infections and arthritis.

Authors: Ashish Jacob Mathew; Vinod Ravindran
Journal: Best Pract Res Clin Rheumatol Date: 2015-05-27 Impact factor: 4.098

5. γδ T Cells Play a Protective Role in Chikungunya Virus-Induced Disease.

Authors: Kristin M Long; Martin T Ferris; Alan C Whitmore; Stephanie A Montgomery; Lance R Thurlow; Charles E McGee; Carlos A Rodriguez; Jean K Lim; Mark T Heise
Journal: J Virol Date: 2015-10-21 Impact factor: 5.103

Review 6. Cell carriers for oncolytic viruses: Fed Ex for cancer therapy.

Authors: Candice Willmon; Kevin Harrington; Timothy Kottke; Robin Prestwich; Alan Melcher; Richard Vile
Journal: Mol Ther Date: 2009-08-18 Impact factor: 11.454

7. Toxicology profiles of a novel p53-armed replication-competent oncolytic adenovirus in rodents, felids, and nonhuman primates.

Authors: Changqing Su; Hui Cao; Shuping Tan; Yao Huang; Xiaoyuan Jia; Lixin Jiang; Kai Wang; Ying Chen; Ju Long; Xinyuan Liu; Mengchao Wu; Xiaobing Wu; Qijun Qian
Journal: Toxicol Sci Date: 2008-08-14 Impact factor: 4.849

8. Isolation of eastern equine encephalitis virus from Aedes albopictus in Florida.

Authors: C J Mitchell; M L Niebylski; G C Smith; N Karabatsos; D Martin; J P Mutebi; G B Craig; M J Mahler
Journal: Science Date: 1992-07-24 Impact factor: 47.728

9. Interaction of alphaviruses with human peripheral leukocytes: in vitro replication of Venezuelan equine encephalomyelitis virus in monocyte cultures.

Authors: N H Levitt; H V Miller; R Edelman
Journal: Infect Immun Date: 1979-06 Impact factor: 3.441

10. Genomic analysis of a Chinese isolate of Getah-like virus and its phylogenetic relationship with other Alphaviruses.

Authors: Jin-Sheng Wen; Wen-Zhong Zhao; Jian-Wei Liu; Hong Zhou; Jian-Ping Tao; Hui-Jun Yan; Yu Liang; Jing-Jiao Zhou; Li-Fang Jiang
Journal: Virus Genes Date: 2007-06-15 Impact factor: 2.198

18 in total

1. Recent advances of oncolytic virus in cancer therapy.

Authors: Moumita Mondal; Jingao Guo; Ping He; Dongming Zhou
Journal: Hum Vaccin Immunother Date: 2020-02-20 Impact factor: 3.452

Review 2. Trial Watch: Oncolytic viro-immunotherapy of hematologic and solid tumors.

Authors: Jonathan G Pol; Sarah Lévesque; Samuel T Workenhe; Shashi Gujar; Fabrice Le Boeuf; Derek R Clements; Jean-Eudes Fahrner; Laetitia Fend; John C Bell; Karen L Mossman; Jitka Fucikova; Radek Spisek; Laurence Zitvogel; Guido Kroemer; Lorenzo Galluzzi
Journal: Oncoimmunology Date: 2018-08-27 Impact factor: 8.110

3. Selective replication of oncolytic virus M1 results in a bystander killing effect that is potentiated by Smac mimetics.

Authors: Jing Cai; Yuan Lin; Haipeng Zhang; Jiankai Liang; Yaqian Tan; Webster K Cavenee; Guangmei Yan
Journal: Proc Natl Acad Sci U S A Date: 2017-06-12 Impact factor: 11.205

4. Deficiency of the IRE1α-Autophagy Axis Enhances the Antitumor Effects of the Oncolytic Virus M1.

Authors: Kai Li; Cheng Hu; Fan Xing; Mingshi Gao; Jiankai Liang; Xiao Xiao; Jing Cai; Yaqian Tan; Jun Hu; Wenbo Zhu; Wei Yin; Yuan Li; Wenli Chen; Bingzheng Lu; Jialuo Mai; Pengxin Qiu; Xingwen Su; Guangmei Yan; Haipeng Zhang; Yuan Lin
Journal: J Virol Date: 2018-02-26 Impact factor: 5.103