Sex-dependent neuronal effects of α-synuclein reveal that GABAergic transmission is neuroprotective of sleep-controlling neurons
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Sex-dependent neuronal effects of α-synuclein reveal that GABAergic transmission is neuroprotective of sleep-controlling neurons. / Santos, Altair Brito Dos; Thaneshwaran, Siganya; Ali, Lara Kamal; Leguizamón, César Ramón Romero; Wang, Yang; Kristensen, Morten Pilgaard; Langkilde, Annette E.; Kohlmeier, Kristi A.
Research Square-Preprint, 2023.Research output: Working paper › Preprint › Research
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T1 - Sex-dependent neuronal effects of α-synuclein reveal that GABAergic transmission is neuroprotective of sleep-controlling neurons
AU - Santos, Altair Brito Dos
AU - Thaneshwaran, Siganya
AU - Ali, Lara Kamal
AU - Leguizamón, César Ramón Romero
AU - Wang, Yang
AU - Kristensen, Morten Pilgaard
AU - Langkilde, Annette E.
AU - Kohlmeier, Kristi A.
N1 - This work is licensed under a CC BY 4.0 License
PY - 2023
Y1 - 2023
N2 - BackgroundSleep disorders (SDs) are a symptom of the prodromal phase of neurodegenerative disorders that are mechanistically linked to the protein α-synuclein (α-syn) including Parkinson’s disease (PD). SDs during the prodromal phase could result from neurodegeneration induced in state-controlling neurons by accumulation of α-syn predominant early in the disease, and consistent with this, we reported the monomeric form of α-syn (monomeric α-syn; α-synM) caused cell death in the laterodorsal tegmental nucleus (LDT), which controls arousal as well as the sleep and wakefulness state. However, we only examined the male LDT, and since sex is considered a risk factor for the development of α-syn-related diseases including prodromal SDs, the possibility exists of sex-based differences in α-synM effects. Accordingly, we examined the hypothesis that α-synM exerts differential effects on membrane excitability, intracellular calcium, and cell viability in the LDT of females compared to males.MethodsPatch clamp electrophysiology, bulk load calcium imaging, and cell death histochemistry were used in LDT brain slices to monitor responses to α-synM and effects of GABA receptor acting agents.ResultsConsistent with our hypothesis, we found opposite effects of α-synM on female LDT neurons when compared to male. In the females, α-synM induced a decrease in membrane excitability and reductions in intracellular calcium which were reliant on functional GABAergic receptors, as well as decreased the amplitude and frequency of spontaneous excitatory postsynaptic currents (sEPSCs) with a concurrent reduction in action potential firing rate. Cell viability studies showed higher α-syn-mediated neurodegeneration in males compared to females, that depended on inhibitory amino acid transmission. Further, GABA receptor agonists reduced cell death in males.ConclusionsWhen taken together, we conclude that α-synM induces a sex-dependent effect on LDT neurons involving a GABA receptor-mediated mechanism which is neuroprotective. Understanding the potential sex differences in neurodegenerative processes, especially those occurring early in the disease, could enable implementation of sex-based strategies to identify prodromal PD cases, and promote efforts to illuminate new directions for tailored treatment and management of PD.
AB - BackgroundSleep disorders (SDs) are a symptom of the prodromal phase of neurodegenerative disorders that are mechanistically linked to the protein α-synuclein (α-syn) including Parkinson’s disease (PD). SDs during the prodromal phase could result from neurodegeneration induced in state-controlling neurons by accumulation of α-syn predominant early in the disease, and consistent with this, we reported the monomeric form of α-syn (monomeric α-syn; α-synM) caused cell death in the laterodorsal tegmental nucleus (LDT), which controls arousal as well as the sleep and wakefulness state. However, we only examined the male LDT, and since sex is considered a risk factor for the development of α-syn-related diseases including prodromal SDs, the possibility exists of sex-based differences in α-synM effects. Accordingly, we examined the hypothesis that α-synM exerts differential effects on membrane excitability, intracellular calcium, and cell viability in the LDT of females compared to males.MethodsPatch clamp electrophysiology, bulk load calcium imaging, and cell death histochemistry were used in LDT brain slices to monitor responses to α-synM and effects of GABA receptor acting agents.ResultsConsistent with our hypothesis, we found opposite effects of α-synM on female LDT neurons when compared to male. In the females, α-synM induced a decrease in membrane excitability and reductions in intracellular calcium which were reliant on functional GABAergic receptors, as well as decreased the amplitude and frequency of spontaneous excitatory postsynaptic currents (sEPSCs) with a concurrent reduction in action potential firing rate. Cell viability studies showed higher α-syn-mediated neurodegeneration in males compared to females, that depended on inhibitory amino acid transmission. Further, GABA receptor agonists reduced cell death in males.ConclusionsWhen taken together, we conclude that α-synM induces a sex-dependent effect on LDT neurons involving a GABA receptor-mediated mechanism which is neuroprotective. Understanding the potential sex differences in neurodegenerative processes, especially those occurring early in the disease, could enable implementation of sex-based strategies to identify prodromal PD cases, and promote efforts to illuminate new directions for tailored treatment and management of PD.
U2 - 10.21203/rs.3.rs-2941679/v1
DO - 10.21203/rs.3.rs-2941679/v1
M3 - Preprint
BT - Sex-dependent neuronal effects of α-synuclein reveal that GABAergic transmission is neuroprotective of sleep-controlling neurons
PB - Research Square-Preprint
ER -
ID: 359726761