A39 Triad of neuronal vulnerability in huntington’s disease: huntingtin proteostasis, inclusion body formation and mitochondrial function

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IntroductionThe preferential vulnerability of striatal medium spiny neurons is a pathological hallmark in Huntington’s Disease (HD). Striatal neurons have been proposed to differ from other less vulnerable neuronal populations, namely in their proteostasis of mutant huntingtin (mHtt) and in mitochondrial function. However, it remains unclear whether and how these differences interact to condition neuronal survival.AimsAssess how mHtt proteostasis and mitochondrial function change over time in striatal vs. cortical neurons, and whether they correlate with vulnerability.MethodsLongitudinal survival analysis in neuronal HD models expressing mHtt was performed using fluorescence microscopy. NAD(P)H levels were measured using fluorescence lifetime imaging and oxygen consumption was measured using cell respirometry.ResultsIn striatal and cortical neurons, mHtt inclusion body (IB) formation correlated with higher survival and lower risk of mitochondrial membrane potential (MMP) loss. Striatal neurons displayed higher risks of death and of MMP loss, despite having lower levels of mHtt than their cortical counterparts, which correlated with a lower risk of IB formation. The mHtt concentration threshold for IB formation was similar in striatal and cortical neurons. Striatal neurons presented lower levels of NAD(P)H and reduced maximal respiration capacity.ConclusionThe higher vulnerability of striatal neurons in HD may be attributed to a decreased ability to cope with a soluble and toxic form of mHtt due to a combination of lower risk of IB formation and lower energetic resources.AcknowledgementsFundação para a Ciência e a Tecnologia P2020-PTDC/NEU-NMC/0412/2014, POCI-01-0145-FEDER- 016577, 3599-PPCDT; SFRH/BD/108733/2015; UID/QUI/50006/2013

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