Plasticity of the myelination genomic fabric

Iacobaş, Sanda; Thomas, Neil; Iacobaş, Dumitru A.

doi:10.1007/s00438-012-0673-0

Cited by 18 publications

(22 citation statements)

References 63 publications

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“…Although the RNA was extracted from as homogeneous as possible tissue samples, the analysis provides the average expression levels for the variety of cells composing the myocardium: cardiomyocytes, fibroblasts, endothelial and smooth muscle cells, stem cell niches and supporting cells, nerve endings, immune system cells, etc. However, as we proved in previous publications [41,42], the transcriptome of each cell type is strongly modeled by the heterogeneous cellular environment, so that profiling each cell phenotype separately will give also a false picture. Therefore, we were particularly interested in genes expressed exclusively at cardiomyocyte level, such as those encoding different subunits of certain cardiac-specific voltage-dependent ion channels and transporters.…”

Section: Discussionmentioning

confidence: 83%

Up-Down and Left-Right by the Heart Transcriptome

Iacobaş¹,

Amuzescu²,

Iacobaş³

2019

Preprint

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Myocardium transcriptomes of mouse left and right atria and ventricles were profiled separately to identify the differences that might be responsible for the distinct functional roles of the four heart chambers. In total, 16,886 distinct unigenes have been quantified in all 16 samples collected from four adult male mice from the same litter. 15.76% of the quantified genes on the left and 16.5% on the right exhibited differential expression between the corresponding atrium and ventricle of the same side, while 5.8% in atria and 1.2% in ventricles were differently expressed between the left and the right. Beyond the differentially expressed genes, the study revealed distinct expression control and coordination of ion channels and genes within the cardiac muscle contraction, oxidative phosphorylation, glycolysis/glucogenesis, calcium and adrenergic signaling pathways. Interestingly, while expression of Ank2 (encoding ankyrin-B) oscillates in phase with all its binding partners in the left ventricle, the percentage of synergistically expressed partners of Ank2 is 15% and 37% in the left and right atria and 74% in the right ventricle. The analysis revealed also the high interventricular synchrony of the expression of ion channels.

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Section: Discussionmentioning

confidence: 83%

Up-Down and Left-Right by the Heart Transcriptome

Iacobaş¹,

Amuzescu²,

Iacobaş³

2019

Preprint

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“…In two previously published papers, we have shown that astrocyte-conditioned medium is a major regulator of gene expression in oligodendrocytes even in the absence of cytosol-to-cytosol communication via gap junction channels connecting these two cell types [29,30]. In the present study, we analyzed whether oligodendrocyte-conditioned medium changes significantly the astrocyte transcriptome.…”

Section: Discussionmentioning

confidence: 83%

“…This result is surprising because the oligodendrocytes responded to the presence of astrocytes by increasing the expression of Gjc2 (encoding Cx47), the Cx43 partner in heterocellular gap junction channels [74], by 9.70x. We determined the up-regulation of Gjc2 by re-analyzing the previously reported microarray data on Oli-neu with the same set up [29,30]. It should be noted that increased expression levels for gap junction proteins are not always matched with changes in coupling.…”

Section: Discussionmentioning

confidence: 99%

Oligodendrocytes Remodel the Genomic Fabrics of Functional Pathways in Astrocytes

Iacobaş¹,

Iacobaş²,

Stout³

et al. 2020

Preprint

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We profiled the transcriptomes of primary mouse cortical astrocytes cultured alone or co-cultured with immortalized precursor oligodendrocytes. The experimental set-up (insert systems) prevented formation of gap junction channels but allowed free exchange of the two culture media. The study complements our previously published reports that the genomic fabrics of major functional pathways in oligodendrocytes are substantially remodeled by the proximity of non-touching astrocytes. Here, we present new analysis indicating that the transcriptomic landscape of astrocytes likewise changes significantly in the proximity of non-touching oligodendrocytes. The research was stimulated by the reported transcriptomic similarity between the brains of Cx43KO and Cx32KO mice, both substantially different from that of the Cx36KO mice. Since the three connexins are expressed in different cell types (Cx43 in astrocytes, Cx32 in oligodendrocytes and Cx36 in neurons), altogether these findings support the idea of a “panglial transcriptomic syncytium” in the mouse brain. Going further, our results suggest that integration in a heterocellular tissue modulates not only the expression profile but also the expression control and networking of the genes in each cell phenotype.

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“…As shown in Fig. , pairwise relevant analysis revealed major alterations in the glutamatergic and GABAergic synapse genomic fabric topologies in betamethasone‐exposed animals, as well as the presence of substantial sex differences in controls and sex‐specific alterations in betamethasone‐exposed animals. In addition to the expression levels, this analysis also considers the contribution of expression controls and coordination of the paired genes with respect to the inter‐coordination and stability of the genomic fabric.…”

Section: Transcriptomic Analysis Of the Rat Model Of Infantile Spasmsmentioning

confidence: 86%

“…As a result of transcriptomic networks , by which expressions of individual genes are inter‐related, alteration of one key gene has ripple effects on many others [as observed in knockouts ( and knockdowns (. Moreover, transcriptomic networks may even cross cell boundaries mediated by intercellular signalling . Taken together, these findings indicate that intercellular communication integrates individual cells within multicellular structures so that transcriptomic events in one cell type modulate gene expression in others .…”

Section: Imprinting Effects Of Prenatal Corticosteroids On Gene Exprementioning

confidence: 97%

Prenatal Corticosteroids Modify Glutamatergic andGABAergic Synapse Genomic Fabric: Insights from a Novel Animal Model of Infantile Spasms

Iacobaş

Chachua

et al. 2013

J Neuroendocrinology

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Summary Prenatal exposure to corticosteroids has long-term postnatal somatic and neurodevelopmental consequences. Animal studies indicate that corticosteroid exposure-associated alterations in the nervous system include hypothalamic function. Infants with infantile spasms, a devastating epileptic syndrome of infancy with characteristic spastic seizures, chaotic irregular waves on interictal electroencephalogram (EEG; hypsarhythmia) and mental deterioration, have decreased concentrations of adrenocorticotropic hormone (ACTH) and cortisol in cerebrospinal fluid strongly suggesting hypothalamic dysfunction. We have exploited this feature to develop a model of human infantile spasms by using repeated prenatal exposure to betamethasone and postnatal trigger of developmentally relevant spasms with N-methyl-D-aspartic acid (NMDA). The spasms triggered in prenatally primed rats are more severe compared to prenatally saline-injected ones and respond to ACTH, a treatment of choice for infantile spasms in humans. Using autoradiography and immunohistochemistry, we have identified a link between the spasms in our model and hypothalamus, especially the arcuate nucleus. Transcriptomic analysis of the arcuate nucleus after prenatal priming with betamethasone but before trigger of spasms indicates that prenatal betamethasone exposure down-regulates genes encoding several important proteins participating in glutamatergic and GABAergic transmission. Interestingly, there were significant sex-specific alterations after prenatal betamethasone in synapse-related gene expression but no such sex differences were found in prenatally saline-injected controls. A pair-wise relevance analysis revealed that, although the synapse gene expression in controls was independent of sex, these genes form topologically distinct gene fabrics in males and females and these fabrics are altered by betamethasone in a sex-specific manner. These findings may explain the sex differences in both normal behaviour and occurrence and severity of infantile spasms. Changes in transcript expression and their coordination may contribute to a molecular substrate of permanent neurodevelopmental changes (including infantile spasms) found after prenatal exposure to corticosteroids.

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Plasticity of the myelination genomic fabric

Cited by 18 publications

References 63 publications

Up-Down and Left-Right by the Heart Transcriptome

Up-Down and Left-Right by the Heart Transcriptome

Oligodendrocytes Remodel the Genomic Fabrics of Functional Pathways in Astrocytes

Prenatal Corticosteroids Modify Glutamatergic andGABAergic Synapse Genomic Fabric: Insights from a Novel Animal Model of Infantile Spasms

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