Longitudinal accumulation of glial activation measured by TSPO-PET predicts later brain atrophy in multiple sclerosis.

Abstract

In multiple sclerosis (MS), accumulation of disability is driven by CNS-compartmentalized inflammation. This inflammatory process involves activated microglia and astrocytes, which contribute to neuroaxonal damage which in turn accelerates disease progression. Activated glial cells express 18-kDa translocator protein (TSPO), and TSPO-binding radioligands and positron emission tomography (PET) imaging can be used to quantitate glial activation in vivo. The aim of this study was to evaluate the longitudinal evolution of glial activation in untreated cohorts of relapsing remitting MS (RRMS) and secondary progressive MS (SPMS) patients over one-year follow-up, and to explore how a change in glial activation associates with later imaging and clinical outcomes. Eighteen untreated MS patients (RRMS n = 8, SPMS n = 10) were studied. Expanded disability status scale (EDSS), brain MRI and TSPO-PET scans using [¹¹C]PK11195 were performed at baseline and one year later. Distribution volume ratio (DVR) of [¹¹C]PK11195-binding, and the proportion of TSPO-high voxels at baseline in the normal appearing white matter (NAWM) and other regions of interest were compared to the respective parameters in follow-up scans. Chronic lesions were phenotyped at baseline and at follow-up according to their TSPO-PET-binding patterns, and TSPO-expressing lesions were further characterized using postmortem immunopathological staining. Extended follow-up was obtained after 4-11 years with EDSS available for 18 patients and MR imaging available from 13 patients. TSPO-signal was higher among SPMS compared to RRMS patients at baseline. During one-year follow-up, TSPO uptake remained stable in RRMS patients in all regions of interest. Among the SPMS patients, the proportion of active voxels in the NAWM increased significantly over one-year follow-up. A greater proportion of lesions acquired a rim-active phenotype among SPMS compared to RRMS. According to forward-type stepwise multiple linear regression, change in the proportion of active voxels in the NAWM over one year and baseline body-mass-index were best predictors of later development of brain atrophy (R2 = 0.69). Our study provides novel information about the natural evolution of CNS-compartmentalized inflammation and demonstrates an important link between NAWM TSPO-signal and later adverse outcomes among MS patients, supporting the notion that diffuse glial activation in the NAWM contributes to disease progression.