How the extracellular matrix shapes neural development

Long, Katherine R.; Huttner, Wieland B.

doi:10.1098/rsob.180216

Cited by 180 publications

(164 citation statements)

References 123 publications

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“…Previous comparisons of cellular attachment to HA and laminin could not be found in the literature, but comparisons of HA and laminin attachment to other molecules have produced mixed results [15][16][17][18]. Both HA and laminin have been found to increase axon extension separately [3] and in combination [14], but increased neurite extension was not observed in the present study ( Figure 3). These inconsistencies in and with the literature could be due to changes in a number of physical and chemical factors between studies that play a role in neural cell attachment and differentiation [50].…”

Section: Discussioncontrasting

confidence: 71%

“…Due to its relatively low content in neural tissue [1], the effects of the extracellular matrix (ECM) on neural cell and tissue function have been understudied. However, recent evidence indicates that a number of ECM properties, including biochemical composition, have significant effects on the behavior and function of neural cell types and tissue [2][3][4]. This has significant ramifications for the development of biomaterials to support therapeutic and in vitro models of the central nervous system (CNS).…”

Section: Introductionmentioning

confidence: 99%

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Effect of Laminin Derived Peptides IKVAV and LRE Tethered to Hyaluronic Acid on hiPSC Derived Neural Stem Cell Morphology, Attachment and Neurite Extension

Perera

Callahan

2020

JFB

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Low neural tissue extracellular matrix (ECM) content has led to the understudy of its effects on neural cells and tissue. Hyaluronic acid (HA) and laminin are major neural ECM components, but direct comparisons of their cellular effects could not be located in the literature. The current study uses human-induced pluripotent stem-cell-derived neural stem cells to assess the effects of HA, laminin, and HA with laminin-derived peptides IKVAV and LRE on cellular morphology, attachment, neurite extension and ECM remodeling. Increased attachment was observed on HA with and without IKVAV and LRE compared to laminin. Cellular morphology and neurite extension were similar on all surfaces. Using a direct binding inhibitor of Cav2.2 voltage gated calcium channel activity, a known binding partner of LRE, reduced attachment on HA with and without IKVAV and LRE and altered cellular morphology on surfaces with laminin or IKVAV and LRE. HA with IKVAV and LRE reduced the fluorescent intensity of fibronectin staining, but did not alter the localization of ECM remodeling enzymes matrix metalloprotease 2 and 9 staining compared to HA. Overall, the data indicate HA, IKVAV and LRE have complementary effects on human-induced pluripotent stem-cell-derived neural stem cell behavior.

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Section: Discussioncontrasting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Effect of Laminin Derived Peptides IKVAV and LRE Tethered to Hyaluronic Acid on hiPSC Derived Neural Stem Cell Morphology, Attachment and Neurite Extension

Perera

Callahan

2020

JFB

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“…Matrigel or more defined collagen gels were shown in 2009 to support the formation of 3D intestinal organoids from intestinal stem cells or small explants grown in the gel (Ootani et al 2009;Sato et al 2009). The combination of physical properties such as rigidity of the gel along with additional signaling cues present in basement membrane ligands of Matrigel means that it can support organoid formation by providing both a scaffold and influencing various biological functions such as tissue polarity and cell migration (Long and Huttner 2019). Indeed, the addition of Matrigel at various stages of 3D brain organoid protocols appears to have the effect of rapidly promoting the formation of polarized neural tube-like buds from neuroepithelial tissue.…”

Section: Ecm Gels and The Formation Of The First 3d Neural Organoidsmentioning

confidence: 99%

Brain Organoids: Human Neurodevelopment in a Dish

Benito-Kwiecinski

Lancaster

2019

Cold Spring Harb Perspect Biol

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“…For example, a community of 15 genes in the "Brain Hippocampus" showed a significant enrichment for diseases associated with glycosaminoglycan metabolism (adjusted p-value = 0.026; see Figure 5). Interestingly, glycosaminoglycans, which are major extracellular matrix components whose interactions with tissue effectors can alter tissue integrity, have been shown to play a role in brain development (40,41), modulating neurite outgrowth and participating in synaptogenesis. Alterations of glycosaminoglycan structures from Alzheimer's disease hippocampus have been implicated in impaired tissue homeostasis in the Alzheimers disease brain (42).…”

Section: Relationship Between Reactome Pathways and Tissues Consistementioning

confidence: 99%

Multilayer modelling and analysis of the human transcriptome

Azevedo

Lió

et al. 2020

Preprint

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In the present work, we performed a comprehensive intra-tissue and intertissue network analysis of the human transcriptome. We generated an atlas of communities in co-expression networks in each of 49 tissues and evaluated their tissue specificity. UMAP embeddings of gene expression from the identified communities (representing nearly 18% of all genes) recovered biologically meaningful tissue clusters, based on tissue organ membership or known shared function. We developed an approach to quantify the conservation of global structure and estimate the sampling distribution of the distance between tissue clusters via bootstrapped manifolds. We found not only preserved local structure among clearly related tissues (e.g., the 13 brain regions) but also a strong correlation between the clustering of these related tissues relative to the remaining ones. Interestingly, brain tissues showed significantly higher variability in community size than non-brain (p = 1.55 × 10 −4 ). We 1 identified communities that capture some of our current knowledge about biological processes, but most are likely to encode novel and previously inaccessible functional information. For example, we found a 17-member community present across all of the brain regions, which shows significant enrichment for the nonsense-mediated decay pathway (adjusted p = 1.01 × 10 −37 ). We also constructed multiplex architectures to gain insights into tissue-to-tissue mechanisms for regulation of communities in the transcriptome, including communities that are likely to play a functional role throughout the central nervous system (CNS) and communities that may participate in the interaction between the CNS and the enteric nervous system. Notably, new gene expression data can be embedded into our models to accelerate discoveries in high-dimensional molecular datasets. Our study provides a rich resource of co-expression networks, communities, multiplex architectures, and enriched pathways in a broad collection of tissues, to catalyse research into inter-tissue regulatory mechanisms and enable insights into their downstream phenotypic consequences.

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How the extracellular matrix shapes neural development

Cited by 180 publications

References 123 publications

Effect of Laminin Derived Peptides IKVAV and LRE Tethered to Hyaluronic Acid on hiPSC Derived Neural Stem Cell Morphology, Attachment and Neurite Extension

Effect of Laminin Derived Peptides IKVAV and LRE Tethered to Hyaluronic Acid on hiPSC Derived Neural Stem Cell Morphology, Attachment and Neurite Extension

Brain Organoids: Human Neurodevelopment in a Dish

Multilayer modelling and analysis of the human transcriptome

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