Coordinating energy metabolism and signaling pathways in epithelial self-renewal and differentiation

Polito, Maria Pia; Romaldini, Alessio; Rinaldo, Serena; Enzo, Elena

doi:10.1186/s13062-024-00510-0

Biol Direct

2024

DOI: 10.1186/s13062-024-00510-0

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Coordinating energy metabolism and signaling pathways in epithelial self-renewal and differentiation

Maria Pia Polito,

Alessio Romaldini,

Serena Rinaldo

et al.

Abstract: Epidermal stem cells (EPSCs) are essential for maintaining skin homeostasis and ensuring a proper wound healing. During in vitro cultivations, EPSCs give rise to transient amplifying progenitors and differentiated cells, finally forming a stratified epithelium that can be grafted onto patients. Epithelial grafts have been used in clinics to cure burned patients or patients affected by genetic diseases. The long-term success of these advanced therapies relies on the presence of a correct … Show more

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Cited by 2 publications

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The role of adipose tissue-derived stromal cells, macrophages and bioscaffolds in cutaneous wound repair

Gandolfi,

Sanouj,

Chaput

et al. 2024

Biol Direct

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Skin healing is a complex and dynamic physiological process that follows mechanical alteration of the skin barrier. Under normal conditions, this complex process can be divided into at least three continuous and overlapping phases: an inflammatory reaction, a proliferative phase that leads to tissue reconstruction and a phase of tissue remodeling. Macrophages critically contribute to the physiological cascade for tissue repair. In fact, as the inflammatory phase progresses, macrophage gene expression gradually shifts from pro-inflammatory M1-like to pro-resolutive M2-like characteristics, which is critical for entry into the repair phase. A dysregulation in this macrophage’ shift phenotype leads to the persistence of the inflammatory phase. Mesenchymal stromal cells and specifically the MSC-derived from adipose tissue (ADSCs) are more and more use to treat inflammatory diseases and several studies have demonstrated that ADSCs promote the wound healing thanks to their neoangiogenic, immunomodulant and regenerative properties. In several studies, ADSCs and macrophages have been injected directly into the wound bed, but the delivery of exogenous cells directly to the wound raise the problem of cell engraftment and preservation of pro-resolutive phenotype and viability of the cells. Complementary approaches have therefore been explored, such as the use of biomaterials enriched with therapeutic cell to improve cell survival and function. This review will present a background of the current scaffold models, using adipose derived stromal-cells and macrophage as therapeutic cells for wound healing, through a discussion on the potential impact for future applications in skin regeneration. According to the PRISMA statement, we resumed data from investigations reporting the use ADSCs and bioscaffolds and data from macrophages behavior with functional biomaterials in wound healing models. In the era of tissue engineering, functional biomaterials, that can maintain cell delivery and cellular viability, have had a profound impact on the development of dressings for the treatment of chronic wounds. Promising results have been showed in pre-clinical reports using ADSCs- and macrophages-based scaffolds to accelerate and to improve the quality of the cutaneous healing.

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The role of adipose tissue-derived stromal cells, macrophages and bioscaffolds in cutaneous wound repair

Gandolfi,

Sanouj,

Chaput

et al. 2024

Biol Direct

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Biochemical characterization of the feedforward loop between CDK1 and FOXM1 in epidermal stem cells

Polito,

Romaldini,

Tagliazucchi

et al. 2024

Biol Direct

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The complex network governing self-renewal in epidermal stem cells (EPSCs) is only partially defined. FOXM1 is one of the main players in this network, but the upstream signals regulating its activity remain to be elucidated. In this study, we identify cyclin-dependent kinase 1 (CDK1) as the principal kinase controlling FOXM1 activity in human primary keratinocytes. Mass spectrometry identified CDK1 as a key hub in a stem cell-associated protein network, showing its upregulation and interaction with essential self renewal-related markers. CDK1 phosphorylates FOXM1 at specific residues, stabilizing the protein and enhancing its nuclear localization and transcriptional activity, promoting self-renewal. Additionally, FOXM1 binds to the CDK1 promoter, inducing its expression. We identify the CDK1-FOXM1 feedforward loop as a critical axis sustaining EPSCs during in vitro cultivation. Understanding the upstream regulators of FOXM1 activity offers new insights into the biochemical mechanisms underlying self-renewal and differentiation in human primary keratinocytes. Supplementary Information The online version contains supplementary material available at 10.1186/s13062-024-00540-8.

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Coordinating energy metabolism and signaling pathways in epithelial self-renewal and differentiation

Cited by 2 publications

References 76 publications

The role of adipose tissue-derived stromal cells, macrophages and bioscaffolds in cutaneous wound repair

The role of adipose tissue-derived stromal cells, macrophages and bioscaffolds in cutaneous wound repair

Biochemical characterization of the feedforward loop between CDK1 and FOXM1 in epidermal stem cells

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