PET imaging tracks Zika virus infection, disease progression in mouse model

Bottom row: The image shows representative PET/CT mouse brain images at days 3, 6 and 10 post-infection with Zika virus. Red area indicates neuroinflammation. Top row: Image represents PBS control mouse brain images. Image courtesy of US Army Medical Research Institute of Infectious Diseases

Small-animal imaging has become an important research tool for preclinical studies of infectious diseases, according to senior author Thomas M. Bocan, Ph.D., of the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID).

“Traditional methods of infectious disease research using animal models have provided limited information about disease progression until the study's endpoint, when investigators could analyze tissues from those animals,” he said. “Imaging studies allow us to gather enhanced information through longitudinal studies of the same animal during the course of the infection.”

Zika virus was initially identified in monkeys in Uganda in 1947, with the first human case detected in 1952, according to the World Health Organization (WHO). The disease gained international attention in May 2015 when it began to spread throughout the Americas.

While the virus is primarily transmitted to people through the bite of an infected mosquito, sexual transmission is also possible. Zika virus infection during pregnancy has been linked to congenital brain abnormalities, including microcephaly, and Zika virus is a trigger of Guillain-Barré syndrome.

Continuing research to investigate the link between Zika virus and a range of neurological disorders requires a better understanding of the pathogenic mechanisms causing severe disease. PET is a highly sensitive molecular imaging technique that can be used to visualize a variety of biological processes in live animal models. The USAMRIID team therefore set out to evaluate the ability and sensitivity of PET imaging, using a probe called [18F]DPA-714 to detect and quantify neuroinflammation in Zika virus-infected mice.

As described in the paper, they found that levels of Zika virus in the mouse brain increased from day 3 to day 10 post-infection. Over this span, the mice also showed a 2- to 6-fold increase in global brain neuroinflammation using [18F]DPA-714 PET imaging.

The work highlights the significant role played by global neuroinflammation in the progression of Zika virus infection. In addition, it demonstrates, for the first time, the ability of [18F]DPA-714 PET imaging to detect and quantify Zika virus-related neuroinflammation disseminated throughout the brains of infected mice.

Noninvasive imaging using PET and other technologies reduces the number of animals in a study by permitting the use of animals as their own controls, according to the authors. In addition, therapeutic agents can be developed and tested using imaging technologies that are directly translatable to the clinic.

“The future is bright for the application of imaging in infectious diseases,” said Bocan. “Measures of virus and bacteria distribution and the consequences of infection can be assessed in real time in the same subject. In addition, treatment with countermeasures can be evaluated with a better understanding of the state of disease progression.”

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USAMRIID's mission is to provide leading edge medical capabilities to deter and defend against current and emerging biological threat agents. Research conducted at USAMRIID leads to medical solutions–vaccines, drugs, diagnostics, and information–that benefit both military personnel and civilians. The Institute plays a key role as the lead military medical research laboratory for the Defense Threat Reduction Agency's Joint Science and Technology Office for Chemical and Biological Defense. USAMRIID is a subordinate laboratory of the U.S. Army Medical Research and Materiel Command. For more information, visit http://www.usamriid.army.mil.

Reference: [18F]DPA-714 PET imaging reveals global neuroinflammation in Zika virus infected mice. Kyle Kuszpit, Bradley S. Hollidge, Xiankun Zeng, Robert G. Stafford, Sharon Daye, Xiang Zhang, Falguni Basuli, Joseph W. Golden, Rolf E. Swenson, Darci R. Smith, Thomas M. Bocan. Molecular Imaging and Biology. DOI: 10.1007/s11307-017-1118-2

Funding: This study was supported by the Defense Advanced Research Projects Agency (DARPA).

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