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  • Title: Long-term depression-inductive stimulation causes long-term potentiation in mouse Purkinje cells with a mutant thyroid hormone receptor.
    Author: Ninomiya A, Amano I, Kokubo M, Takatsuru Y, Ishii S, Hirai H, Hosoi N, Koibuchi N.
    Journal: Proc Natl Acad Sci U S A; 2022 Nov 08; 119(45):e2210645119. PubMed ID: 36322758.
    Abstract:
    Thyroid hormones (THs) regulate gene expression by binding to nuclear TH receptors (TRs) in the cell. THs are indispensable for brain development. However, we have little knowledge about how congenital hypothyroidism in neurons affects functions of the central nervous system in adulthood. Here, we report specific TH effects on functional development of the cerebellum by using transgenic mice overexpressing a dominant-negative TR (Mf-1) specifically in cerebellar Purkinje cells (PCs). Adult Mf-1 mice displayed impairments in motor coordination and motor learning. Surprisingly, long-term depression (LTD)-inductive stimulation caused long-term potentiation (LTP) at parallel fiber (PF)-PC synapses in adult Mf-1 mice, although there was no abnormality in morphology or basal properties of PF-PC synapses. The LTP phenotype was turned to LTD in Mf-1 mice when the inductive stimulation was applied in an extracellular high-Ca2+ condition. Confocal calcium imaging revealed that dendritic Ca2+ elevation evoked by LTD-inductive stimulation is significantly reduced in Mf-1 PCs but not by PC depolarization only. Single PC messenger RNA quantitative analysis showed reduced expression of SERCA2 and IP3 receptor type 1 in Mf-1 PCs, which are essential for mGluR1-mediated internal calcium release from endoplasmic reticulum in cerebellar PCs. These abnormal changes were not observed in adult-onset PC-specific TH deficiency mice created by adeno-associated virus vectors. Thus, we propose the importance of TH action during neural development in establishing proper cerebellar function in adulthood, independent of its morphology. The present study gives insight into the cellular and molecular mechanisms underlying congenital hypothyroidism-induced dysfunctions of central nervous system and cerebellum.
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