Effects of a Bioengineered Allogeneic Cellularized Construct (BACC) on Primary Human Macrophage Phenotype

Steele, Lindsay A.; Hernaez Estrada, Beatriz; Spiller, Kara L.

doi:10.1002/adhm.202303044

Adv Healthcare Materials

2024

DOI: 10.1002/adhm.202303044

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Effects of a Bioengineered Allogeneic Cellularized Construct (BACC) on Primary Human Macrophage Phenotype

Lindsay A. Steele,

Beatriz Hernaez Estrada,

Kara L. Spiller

Abstract: The mechanisms behind the pro‐healing effects of multicellular, bioengineered allogeneic cellularized constructs (BACC) are not known. Macrophages are key regulators of every phase of the wound healing process and are the primary cells that mediate the response to biomaterials. We hypothesized that cells within the BACC modulate macrophage behavior, which may contribute to the mechanism by which BACC promotes healing. To probe the influence of cells within the BACC compared to effects of the underlying collag… Show more

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2024

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Cited by 3 publications

References 57 publications

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Shape‐Versatile Fixed Cellular Materials for Multiple Target Immunomodulation

Sousa,

Cunha,

Santos‐Coquillat

et al. 2024

Advanced Materials

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Therapeutic cells are usually administered as living agents, despite the risks of undesired cell migration and acquisition of unpredictable phenotypes. Additionally, most cell‐based therapies rely on the administration of single cells, often associated with rapid in vivo clearance. Three‐dimensional cellular materials may be useful to prolong the effect of cellular therapies and offer the possibility of creating structural volumetric constructs. Here, we report the manufacturing of shape‐versatile fixed cell‐based materials with immunomodulatory properties. Living cell aggregates with different shapes (spheres and centimeter‐long fibers) were fixed using a method compatible with maintenance of structural integrity, robustness, and flexibility of three‐dimensional constructs. The biological properties of living cells could be modulated before fixation, rendering an in vitro anti‐inflammatory effect towards human macrophages, in line with a decreased activation of the NF‐κB pathway that preponderantly correlated with the surface area of the materials. These findings were further corroborated in vivo in mouse skin wounds. Contact with fixed materials also reduced the proliferation of activated primary T lymphocytes, while promoting regulatory populations. We propose the fixation of cellular constructs as a versatile phenotypic stabilization method that can be easily implemented to prepare immunomodulatory materials with therapeutic potential.This article is protected by copyright. All rights reserved

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Shape‐Versatile Fixed Cellular Materials for Multiple Target Immunomodulation

Sousa,

Cunha,

Santos‐Coquillat

et al. 2024

Advanced Materials

Self Cite

View full text Add to dashboard Cite

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Immunomodulatory Nanofibrous Membrane Based on Collagen/Curdlan Acetate for Accelerated Wound Repair

Ding,

Chen,

et al. 2024

ACS Appl. Polym. Mater.

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Collagen is a key component in the extracellular matrix (ECM) with potent immunoregulatory and wound-healing functions. However, its limited processability and stability have hindered its application as a wound dressing. To this end, a composite nanofibrous membrane based on Curdlan acetate (CDA) and bovine type I collagen was developed to broaden the utility of collagen in wound repair. The CDA/collagen nanofibrous membrane (CDAColNM5) demonstrated an average fiber diameter of ∼100 nm, a tensile strength of ∼3.4 MPa, and a swelling degree of ∼540%. The composite membrane also supported the adhesion and proliferation of 3T3 fibroblast cells while upregulating the expression of pro-regenerative cytokines such as IL-6, IL-10, and TGF-β in macrophage models. The immunomodulatory and wound-healing activities of CDAColNM5 were also verified in an animal study. Therefore, these findings suggest that CDAColNM5 represents a promising option for wound management.

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Effects of a bioengineered allogeneic cellular construct on burn‐related macrophage phenotype

Hernaez‐Estrada,

Steele,

Spiller

2024

Wound Repair Regeneration

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Bioengineered allogeneic cellularised constructs (BACC) exert pro‐healing effects in burn wounds and skew macrophage phenotype towards a predominately reparative phenotype. However, whether BACC can modulate the phenotype of dysregulated macrophages, like those present in burn wounds, is not known. To better understand the macrophage modulatory characteristics of the BACC, primary human macrophages were polarised to the M2b phenotype, an immunosuppressive phenotype relevant to burn wounds, by simultaneously exposing macrophages to polystyrene plate‐coated immunoglobulin G and the endotoxin lipopolysaccharide (LPS). The resulting macrophage phenotype upregulated both inflammatory and reparative genes, and increased secretion of the M2b marker CCL1 compared to five different in vitro macrophage phenotypes. M2b macrophages were cultured with the BACC in the presence or absence of LPS to mimic infection, which is a common occurrence in burn wounds. The BACC caused up‐regulation of reparative gene sets and down‐regulation of pro‐inflammatory gene sets, even when LPS was present in the cell culture media. Co‐cultures were maintained for 1, 3, or 5 days in the presence of LPS, and by day 1 both non‐activated macrophages and M2b macrophages exhibited signs of endotoxin tolerance, as demonstrated by a reduced secretion of tumour necrosis factor α (TNFα) in response to fresh LPS stimulus. The BACC was not able to prevent endotoxin tolerance, but reparative genes were upregulated in macrophages chronically exposed to LPS. These results suggest that the BACC can promote a reparative phenotype in dysregulated macrophages relevant to the pathophysiology of burns.

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Effects of a Bioengineered Allogeneic Cellularized Construct (BACC) on Primary Human Macrophage Phenotype

Cited by 3 publications

References 57 publications

Shape‐Versatile Fixed Cellular Materials for Multiple Target Immunomodulation

Shape‐Versatile Fixed Cellular Materials for Multiple Target Immunomodulation

Immunomodulatory Nanofibrous Membrane Based on Collagen/Curdlan Acetate for Accelerated Wound Repair

Effects of a bioengineered allogeneic cellular construct on burn‐related macrophage phenotype

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