Mechanically induced alterations in chromatin architecture guide the balance between cell plasticity and mechanical memory

Scott, Adrienne K.; Rafuse, Michael; Neu, Corey P.

doi:10.3389/fcell.2023.1084759

Cited by 14 publications

(6 citation statements)

References 106 publications

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“…Mechanical memory works by altering the nuclear architecture of a cell, leading to epigenetic changes, and eventually changing the phenotype of the cells. These changes can be reversible or irreversible, depending on the type of mechanical cue and also the duration of the cue 53 , 54 Once SKOV-3 cells were placed in the 3D TME device, they demonstrated mechanical memory represented by increased HSP27 expression in the experimental groups of cells that had been strained for 24h or 72h (Fig. 4 D).…”

Section: Discussionmentioning

confidence: 99%

Mechanical activation and expression of HSP27 in epithelial ovarian cancer

Buckley,

Kramer,

Johnson

et al. 2024

Sci Rep

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Understanding the complex biomechanical tumor microenvironment (TME) is of critical importance in developing the next generation of anti-cancer treatment strategies. This is especially true in epithelial ovarian cancer (EOC), the deadliest of the gynecologic cancers due to recurrent disease or chemoresistance. However, current models of EOC progression provide little control or ability to monitor how changes in biomechanical parameters alter EOC cell behaviors. In this study, we present a microfluidic device designed to permit biomechanical investigations of the ovarian TME. Using this microtissue system, we describe how biomechanical stimulation in the form of tensile strains upregulate phosphorylation of HSP27, a heat shock protein implicated in ovarian cancer chemoresistance. Furthermore, EOC cells treated with strain demonstrate decreased response to paclitaxel in the in vitro vascularized TME model. The results provide a direct link to biomechanical regulation of HSP27 as a mediator of EOC chemoresistance, possibly explaining the failure of such therapies in some patients. The work presented here lays a foundation to elucidating mechanobiological regulation of EOC progression, including chemoresistance and could provide novel targets for anti-cancer therapeutics.

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Section: Discussionmentioning

confidence: 99%

Mechanical activation and expression of HSP27 in epithelial ovarian cancer

Buckley,

Kramer,

Johnson

et al. 2024

Sci Rep

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“…The architecture of the genome, including its compartmentalization, chromatin contacts, conformation, and accessibility, is as fundamental to understanding the function of a particular genomic loci as its sequence. Indeed, investigation of 3D chromatin structure may be paramount to deciphering disease-states, aberrant cellular behavior, and the impact of environmental perturbations, including pathogen exposures, all of which have functional implications, including dysregulation of gene expression 13,[47][48][49][50] . Further, pathogen-induced changes in host chromatin features may have far-reaching implications for development of appropriate and efficacious countermeasures including vaccine development.…”

Section: Discussionmentioning

confidence: 99%

Vaccinia virus infection induces concurrent alterations in host chromatin architecture, accessibility, and gene expression

Venu,

Roth,

Adikari

et al. 2023

Preprint

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Genomic DNA folds into complex configurations that produce particular local and global structures thought to profoundly impact genome function. To understand the dynamic nature of this relationship, we investigated the extent of host chromatin structural and functional changes in response to a viral agent. We performed comprehensive assessments of host architecture (Hi-C), accessibility (ATAC-seq), and gene expression (RNA-seq) in a paired manner in response to attenuated vaccinia (smallpox) virus. Over time, infection significantly increased long-range intra-chromosomal interactions and decreased chromatin accessibility. Fine-scale accessibility changes were independent of broad-scale chromatin compartment exchange, which increased (up to 12% of the genome) over time, underscoring potential independent mechanisms for global and local chromatin reorganization. The majority of differentially expressed genes, including those downregulated in immune responses, had concurrent alterations in local accessibility and loop domain restructuring. Increased B compartmentalization, intra-chromosomal interactions, and decreased inter-chromosomal interactions and chromatin accessibility together indicate that infection converts the host genome into a more condensed state with nearly equal bidirectional differential gene expression. These changes in host chromatin features may have implications for developing efficacious anti-viral countermeasures. Overall, our empirical data provides evidence of orchestrated concurrent alterations in chromatin architecture, accessibility, and gene expression in response to infection, further reinforcing the notion of coordinated structure-function dynamics of the genome.

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“…Thus it is feasible to infer that while mechanical cues may drive hTM cell function as a function of substrate properties, the initial culture conditions in which these cells were first isolated and expanded 3/13 may have also profound impact on selection of cells for propagation, proliferation, and (de-)differentiation. That mechanical memory and plasticity exists in maintaining cell identity through epigenetic regulation has been previously postulated [56][57][58][59][60][61][62] .…”

Section: Usage Notesmentioning

confidence: 95%

“…However, whether such a phenomenon exists in primary hTM cells remains to be further determined. Further, emerging evidence suggests chromatin remodeling implicating significant changes to cellular and epigenetic plasticity may significantly alter cell fate with prolonged exposure to rigid culture environments such as tissue culture plastic [61][62][63][64] . Since all primary hTM cells are primarily cultured and expanded on rigid plastic substrates, it is only natural to infer that the process of divergence in cell identity as observed in this study likely starts immediately after initial isolation.…”

Section: Usage Notesmentioning

confidence: 99%

To be or not to be - Decoding the Trabecular Meshwork Cell Identity

Tian,

Baidouri,

Kim

et al. 2024

Preprint

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The trabecular meshwork within the conventional outflow apparatus is critical in maintaining intraocular pressure homeostasis.In vitrostudies employing primary cell cultures of the human trabecular meshwork (hTM) have conventionally served as surrogates for investigating the pathobiology of TM dysfunction. Despite its abundant use, translation of outcomes fromin vitrostudies toex vivoand/orin vivostudies remains a challenge. Given the cell heterogeneity, performing single-cell RNA sequencing comparing primary hTM cell cultures to hTM tissue may provide important insights on cellular identity and translatability, as such an approach has not been reported before. In this study, we assembled a total of 14 primary hTMin vitrosamples across passages 1-4, including 4 samples from individuals diagnosed with glaucoma. This dataset offers a comprehensive transcriptomic resource of primary hTMin vitroscRNA-seq data to study global changes in gene expression in comparison to cells in tissuein situ. We have performed extensive preprocessing and quality control, allowing the research community to access and utilize this public resource.

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Mechanically induced alterations in chromatin architecture guide the balance between cell plasticity and mechanical memory

Cited by 14 publications

References 106 publications

Mechanical activation and expression of HSP27 in epithelial ovarian cancer

Mechanical activation and expression of HSP27 in epithelial ovarian cancer

Vaccinia virus infection induces concurrent alterations in host chromatin architecture, accessibility, and gene expression

To be or not to be - Decoding the Trabecular Meshwork Cell Identity

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