Diagnostics (Apr 2021)

Assessment of <sup>18</sup>F-PBR-111 in the Cuprizone Mouse Model of Multiple Sclerosis

  • Valerie L. Jewells,
  • Hong Yuan,
  • Joseph R. Merrill,
  • Jonathan E. Frank,
  • Akhil Patel,
  • Stephanie M. Cohen,
  • Ben Giglio,
  • Nana Nikolaishvili Feinberg,
  • Glenn K. Matsushima,
  • Zibo Li

DOI
https://doi.org/10.3390/diagnostics11050786
Journal volume & issue
Vol. 11, no. 5
p. 786

Abstract

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The study aims to assess site assessment of the performance of 18F-PBR-111 as a neuroinflammation marker in the cuprizone mouse model of multiple sclerosis (MS). 18F-PBR-111 PET imaging has not been well evaluated in multiple sclerosis applications both in preclinical and clinical research. This study will help establish the potential utility of 18F-PBR-111 PET in preclinical MS research and future animal and future human applications. 18F-PBR-111 PET/CT was conducted at 3.5 weeks (n = 7) and 5.0 weeks (n = 7) after cuprizone treatment or sham control (n = 3) in the mouse model. A subgroup of mice underwent autoradiography with cryosectioned brain tissue. T2 weighted MRI was performed to obtain the brain structural data of each mouse. 18F-PBR-111 uptake was assessed in multiple brain regions with PET and autoradiography images. The correlation between autoradiography and immunofluorescence staining of neuroinflammation (F4/80 and CD11b) was measured. Compared to control mice, significant 18F-PBR-111 uptake in the corpus callosum (p p p 18F-PBR-111 uptake regions correlated with microglial/macrophage locations by immunofluorescence staining with F4/80 and CD11b antibodies. 18F-PBR-111 uptake in anatomic locations correlated with activated microglia at histology in the cuprizone mouse model of MS suggests that 18F-PBR-111 has potential for in vivo evaluation of therapy response and potential for use in MS patients and animal studies.

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