D04 Blood-CSF barrier function and CSF flow influence CSF biomarkers in huntington’s disease

Background Cerebrospinal fluid (CSF) biomarkers might be valuable tools to monitor disease progression and response to therapy in Huntington’s disease (HD). CSF flow and blood/CSF-barrier function, both of which can influence CSF biomarker levels, can be measured as CSF-to-serum albumin ratio (QAlb). Methods We analyzed the CSF of 43 mutant Huntingtin gene carriers (HD) and 73 matched controls. In the HD group, five were pre-symptomatic, 18 had early (TFC 11–13), nine moderate (TFC 7–10), 11 advanced HD (TFC 1–6). Results The HD group and controls did not differ in age and gender distribution, CSF cell count and lactate. However, the QAlb was significantly higher in the HD group (HD: 6.1±2.0×10–3, Ctrls: 4.8±1.5×10–3, p=0.0006), even when normalized to the age-dependent upper limit (QAlb/Qlim, HD: 0.84±0.29, Ctrls: 0.67±0.20, p=0.0018). Whereas the QAlb significantly correlated with age in controls (Pearson r=0.36), such a correlation was not observed in the HD group (r=0.15), neither did the QAlb correlate with the disease burden score (r=−0.02). QIgG, QIgA and QIgM corrected for QAlb were unchanged in the HD group. A significant positive correlation of CSF neurofilament light chain (NFL) and soluble TREM2 (sTREM2) levels with QAlb in controls were observed (NFL: r=0.5, sTREM2: r=0.46, p Conclusion In HD CSF, there is an early increase in QAlb that does not increase further with disease progression. Putative CSF biomarkers correlate with QAlb in control subjects. In the case of NFL, decreased CSF flow might lead to a paralleled increase of QAlb and NFL CSF levels. In case of sTREM2, a 17 kDA fragment of TREM2, both the increase in QAlb and sTREM2 might indicate low level inflammation in HD as it seems unlikely that the very low serum levels influence CSF sTREM2.