Ruth Ellen Jones scite author profile

During both embryonic development and adult tissue regeneration, changes in chromatin structure driven by master transcription factors lead to stimulus-responsive transcriptional programs. A thorough understanding of how stem cells in the skeleton interpret mechanical stimuli and enact regeneration would shed light on how forces are transduced to the nucleus in regenerative processes. Here we develop a genetically dissectible mouse model of mandibular distraction osteogenesis–which is a process that is used in humans to correct an undersized lower jaw that involves surgically separating the jaw bone, which elicits new bone growth in the gap. We use this model to show that regions of newly formed bone are clonally derived from stem cells that reside in the skeleton. Using chromatin and transcriptional profiling, we show that these stem-cell populations gain activity within the focal adhesion kinase (FAK) signalling pathway, and that inhibiting FAK abolishes new bone formation. Mechanotransduction via FAK in skeletal stem cells during distraction activates a gene-regulatory program and retrotransposons that are normally active in primitive neural crest cells, from which skeletal stem cells arise during development. This reversion to a developmental state underlies the robust tissue growth that facilitates stem-cell-based regeneration of adult skeletal tissue.

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Management of Chronic Wounds—2018

Jones

Foster

Longaker

2018

JAMA

183

125

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Tissue repair following a wound occurs along a spectrum ranging from underhealing, as occurs in chronic wounds, to overhealing, as is seen in fibrosis. 1 In the United States, it is estimated that as many as 4.5 million people have chronic wounds, resulting in substantial economic and psychosocial costs. Various pathologic states result in chronic wound development, including arterial or venous insufficiency, diabetes, undue skin pressure, presence of a foreign body, and infection. 2 In this JAMA Clinical Update, chronic wound management in the ambulatory setting is reviewed, highlighting evidence supporting a diverse array of treatment options (Figure ). [2][3][4] Dressing Selection Wound dressings are selected based on clinical assessment of the patient's wound. The goals for dressing management for chronic wounds include the following: (1) maintaining a moist wound environment; (2) preventing or treating infection; and (3) minimizing skin irritation or friction between the wound and clothing or devices such as wheelchairs. Dressings may also deliver debriding or antimicrobial agents. 3 The vast market of available dressings, combined with a general lack of high-quality evidence justifying their use, can make dressing selection a challenge. [2][3][4] This does not diminish the usefulness of specific dressings, and clinicians often rely on experience and anecdote when objective evidence does not exist. For example, choose an absorbent dressing such as an alginate for wounds with heavy exudate, or a moisturizing dressing such as a hydrogel for dry wounds. Ideally, selected products are easily accessible, familiar, cost-effective, and conform with patient preference. 2

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Virtual Interviews in the Era of COVID-19: A Primer for Applicants

Jones

AbdelFattah

2020

Journal of Surgical Education

123

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The evolving relationship of wound healing and tumor stroma

et al. 2018

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The stroma in solid tumors contains a variety of cellular phenotypes and signaling pathways associated with wound healing, leading to the concept that a tumor behaves as a wound that does not heal. Similarities between tumors and healing wounds include fibroblast recruitment and activation, extracellular matrix (ECM) component deposition, infiltration of immune cells, neovascularization, and cellular lineage plasticity. However, unlike a wound that heals, the edges of a tumor are constantly expanding. Cell migration occurs both inward and outward as the tumor proliferates and invades adjacent tissues, often disregarding organ boundaries. The focus of our review is cancer associated fibroblast (CAF) cellular heterogeneity and plasticity and the acellular matrix components that accompany these cells. We explore how similarities and differences between healing wounds and tumor stroma continue to evolve as research progresses, shedding light on possible therapeutic targets that can result in innovative stromal-based treatments for cancer.

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Skeletal Stem Cell-Schwann Cell Circuitry in Mandibular Repair

et al. 2019

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SUMMARY Regenerative paradigms exhibit nerve dependency, including regeneration of the mouse digit tip and salamander limb. Denervation impairs regeneration and produces morphological aberrancy in these contexts, but the direct effect of innervation on the stem and progenitor cells enacting these processes is unknown. We devised a model to examine nerve dependency of the mouse skeletal stem cell (mSSC), the progenitor responsible for skeletal development and repair. We show that after inferior alveolar denervation, mandibular bone repair is compromised because of functional defects in mSSCs. We present mSSC reliance on paracrine factors secreted by Schwann cells as the underlying mechanism, with partial rescue of the denervated phenotype by Schwann cell transplantation and by Schwann-derived growth factors. This work sheds light on the nerve dependency of mSSCs and has implications for clinical treatment of mandibular defects.

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Optineurin Negatively Regulates Osteoclast Differentiation by Modulating NF-κB and Interferon Signaling: Implications for Paget’s Disease

Obaid¹,

Wani²,

Azfer³

et al. 2015

Cell Reports

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SummaryPaget’s disease of bone (PDB) is a common disease characterized by osteoclast activation that leads to various skeletal complications. Susceptibility to PDB is mediated by a common variant at the optineurin (OPTN) locus, which is associated with reduced levels of mRNA. However, it is unclear how this leads to the development of PDB. Here, we show that OPTN acts as a negative regulator of osteoclast differentiation in vitro and that mice with a loss-of-function mutation in Optn have increased osteoclast activity and bone turnover. Osteoclasts derived from Optn mutant mice have an increase in NF-κB activation and a reduction in interferon beta expression in response to RANKL when compared to wild-type mice. These studies identify OPTN as a regulator of bone resorption and are consistent with a model whereby genetically determined reductions in OPTN expression predispose to PDB by enhancing osteoclast differentiation.

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Integrated spatial multiomics reveals fibroblast fate during tissue repair

Foster

Januszyk

Yost

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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In the skin, tissue injury results in fibrosis in the form of scars composed of dense extracellular matrix deposited by fibroblasts. The therapeutic goal of regenerative wound healing has remained elusive, in part because principles of fibroblast programming and adaptive response to injury remain incompletely understood. Here, we present a multimodal -omics platform for the comprehensive study of cell populations in complex tissue, which has allowed us to characterize the cells involved in wound healing across both time and space. We employ a stented wound model that recapitulates human tissue repair kinetics and multiple Rainbow transgenic lines to precisely track fibroblast fate during the physiologic response to skin injury. Through integrated analysis of single cell chromatin landscapes and gene expression states, coupled with spatial transcriptomic profiling, we are able to impute fibroblast epigenomes with temporospatial resolution. This has allowed us to reveal potential mechanisms controlling fibroblast fate during migration, proliferation, and differentiation following skin injury, and thereby reexamine the canonical phases of wound healing. These findings have broad implications for the study of tissue repair in complex organ systems.

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Multiomic analysis reveals conservation of cancer-associated fibroblast phenotypes across species and tissue of origin

et al. 2022

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Ruth Ellen Jones

Mechanoresponsive stem cells acquire neural crest fate in jaw regeneration

Management of Chronic Wounds—2018

Virtual Interviews in the Era of COVID-19: A Primer for Applicants

The evolving relationship of wound healing and tumor stroma

Skeletal Stem Cell-Schwann Cell Circuitry in Mandibular Repair

Optineurin Negatively Regulates Osteoclast Differentiation by Modulating NF-κB and Interferon Signaling: Implications for Paget’s Disease

Integrated spatial multiomics reveals fibroblast fate during tissue repair

Multiomic analysis reveals conservation of cancer-associated fibroblast phenotypes across species and tissue of origin

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