TCF7L2 regulates postmitotic differentiation programs and excitability patterns in the thalamus

Lipiec, Marcin Andrzej; Koziński, Kamil; Zajkowski, Tomasz; Bem, Joanna; Urban-Ciećko, Joanna; Dąbrowski, Michał; Chakraborty, Chaitali; Szewczyk, Łukasz Mateusz; Toval, Ángel; Ferrán, José Luis; Nagalski, Andrzej; Wisniewska, M.

doi:10.1101/515874

Cited by 4 publications

(4 citation statements)

References 88 publications

(109 reference statements)

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“…In a resting state fMRI study, the habenula showed significant connectivity with the thalamus; however, the authors did not report differential connectivity in this tract between participants with low and high subclinical depression scores (46). Animal studies using mice reported that the TCF7L2 gene, known as a risk factor for schizophrenia and autism (47), affected the connectivity and cell clustering of the thalamo-habenular region (48). Since this is a cross-sectional study, we are unable to determine the cause of the higher number of right habenula-left mediodorsal thalamus tracts in patients with MDD than in NCs.…”

Section: Discussionmentioning

confidence: 96%

Thalamo-Habenular Connection Differences Between Patients With Major Depressive Disorder and Normal Controls

Cho

Kim

et al. 2021

Front. Psychiatry

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Background: The thalamus and habenula are thought to be key brain regions in the etiology of major depressive disorder (MDD); however, few studies have investigated the structural connection between them. We compared the number of white matter tracts between the thalamus and habenula between patient with MDD and normal controls (NCs).Methods: The habenula and thalamus region of interest masks were extracted from brain magnetic resonance imaging data and individual tractography analysis was performed. First, we compared the number of fiber connections from the habenula to the thalamus between the MDD (n = 34) and NC (n = 37) groups and also compared hemispherical differences to investigate possible asymmetries.Results: There was a significant difference in the number of tracts in the right habenula-left mediodorsal thalamus pair between the two groups. For hemispherical fiber connections, the waytotal ratio of the right ipsilateral tract between the thalamus and habenula was significantly higher than that of the left ipsilateral tract in both groups.Conclusion: The number of right habenula-left mediodorsal thalamus tracts was higher in patients with MDD than in NCs. These results indicate that MDD is related to the disintegration of the left thalamus-right habenula tract function with an increased number of tracts as a compensational mechanism.

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Section: Discussionmentioning

confidence: 96%

Thalamo-Habenular Connection Differences Between Patients With Major Depressive Disorder and Normal Controls

Cho

Kim

et al. 2021

Front. Psychiatry

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“…The unique patterns of transcription factor activities might also regulate the development of patterning and connectivity of the MHb and LHb (Quina et al, 2009). Recently, Lipiec et al (2019) found that transcription factor Tcf7l2 regulates the development of anatomical segregations and axonal patterns of the habenula through Tcf7l2 knockout assays, whereas Tcf7l2 also regulates nicotine sensitivity and nAChR function in the MHb in adult rodents (Duncan et al, 2019). Consistent with their findings, our SCENIC analysis showed that Tcf7l2 regulates a variety of DEGs, including ion channels, neurotransmission, and cytoskeleton-related genes in the MHb and the LHb.…”

Section: Transcriptional Definition Of Habenular Cellular Propertiesmentioning

confidence: 99%

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Hashikawa

Rossi

et al. 2020

Neuron

104

116

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“…In addition to cellular properties in the adult habenula, the unique patterns of transcription factor activities might regulate the development of patterning and connectivity of the MHb and LHb (Quina et al, 2009). Recently, Lipiec et al found that transcription factor Tcf7l2 regulates the development of anatomical segregations and axonal patterns of the habenula through Tcf7l2 knockout assays (Lipiec et al, 2019). Consistent with their findings, our SCENIC analysis showed that Tcf7l2 regulates a variety of DEGs including ion channels, neurotransmission and cytoskeleton related genes in the MHb and the LHb (Figure S3).…”

Section: Transcriptional Controls On Habenular Cellular Properties Tmentioning

confidence: 99%

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Hashikawa

Basiri

et al. 2019

Preprint

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SummaryThe habenula complex is appreciated as a critical regulator of motivated and pathological behavioral states via its output to midbrain nuclei. Despite this, transcriptional definition of cell populations that comprise both the medial (MHb) and lateral habenular (LHb) subregions in mammals remain undefined. To resolve this, we performed single-cell transcriptional profiling and highly multiplexed in situ hybridization experiments of the mouse habenula complex in naïve mice and those exposed to an acute aversive stimulus. Transcriptionally distinct neuronal cell types identified within the MHb and LHb, were spatially defined, and differentially engaged by aversive stimuli. Cell types identified in mice, also displayed a high degree of transcriptional similarity to those previously described in zebrafish, highlighting the well conserved nature of habenular cell types across the phylum. These data identify key molecular targets within habenula cell types, and provide a critical resource for future studies.

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TCF7L2 regulates postmitotic differentiation programs and excitability patterns in the thalamus

Cited by 4 publications

References 88 publications

Thalamo-Habenular Connection Differences Between Patients With Major Depressive Disorder and Normal Controls

Thalamo-Habenular Connection Differences Between Patients With Major Depressive Disorder and Normal Controls

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

Transcriptional and Spatial Resolution of Cell Types in the Mammalian Habenula

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