Synaptic effects of interleukin-6 on human iPSC-derived dopaminergic neurons
Yiqi Huang, Christina Michalski, Ying Zhou, Chongchong Xu, Weibo Niu, Michael J. Lucido, Jianjun Wang, Yue Feng, Andrew H. Miller, Zhexing Wen

TL;DR
This study explores how inflammation affects dopamine neurons in men and women, revealing sex-specific responses and potential treatments for depression.
Contribution
The study identifies sex-specific effects of IL-6 on dopamine neurons and shows that JAK inhibition can reverse these effects in females.
Findings
IL-6 inhibits dopamine release and synaptic function in female neurons but induces compensatory changes in males.
The lncRNA MIAT mediates male-specific responses to IL-6, and its knockout leads to female-like deficits.
Baricitinib, a JAK inhibitor, reverses IL-6-induced deficits in female dopamine neurons.
Abstract
Increased inflammation has been linked to behavioral pathogenesis in depression. Previous studies have shown that administration of inflammatory stimuli induces motivational deficits associated with reduced activation of the ventral striatum in association with reduced dopamine (DA) availability and release. However, the underlying mechanisms of inflammation-induced DA dysfunction remain largely unknown. Here, we investigated the in vitro effects of the inflammatory cytokine interleukin (IL)-6 on female and male human induced pluripotent stem cell (iPSC)-derived DAergic neurons from healthy volunteers. We identified inhibitory effects of IL-6 on female DA neurons, including reduced DA release, neuronal firing, velocity of synaptic vesicle (SV) transport, and density of docked SV, which was further supported by transcriptomic analyses. In contrast, male DA neurons exhibited an…
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Taxonomy
TopicsTryptophan and brain disorders · Nuclear Receptors and Signaling · Nerve injury and regeneration
