Viscoelastic properties of plasma-agarose hydrogels dictate favorable fibroblast responses for skin tissue engineering applications.

Dermal wound healing relies on the properties of the extracellular matrix (ECM). Thus, hydrogels that replicate skin ECM have reached clinical application. After a dermal injury, a transient, biodegradable fibrin clot is instrumental in wound healing. Human plasma, and its main constituent, fibrin would make a suitable biomaterial for improving wound healing and processed as hydrogels albeit with limited mechanical strength. To overcome this, plasma-agarose (PA) composite hydrogels have been developed and used to prepare diverse bioengineered tissues. To date, little is known about the influence of variable agarose concentrations on the viscoelastic properties of PA hydrogels and their correlation to cell biology. This study reports the characterization of the viscoelastic properties of different concentrations of agarose in PA hydrogels: 0 %, 0.5 %, 1 %, 1.5 %, and 2 % (w/v), and their influence on the cell number and mitochondrial activity of human dermal fibroblasts. Results show that agarose addition increased the stiffness, relaxation time constants 1 (τ1) and 2 (τ2), and fiber diameter, whereas the porosity decreased. Changes in cell metabolism occurred at the early stages of culturing and correlated to the displacement of fast (τ1) and intermediate (τ2) Maxwell elements. Fibroblasts seeded in low PA concentrations spread faster during 14 d than cells cultured in higher agarose concentrations. Collectively, these results confirm that PA viscoelasticity and hydrogel architecture strongly influenced cell behavior. Therefore, viscoelasticity is a key parameter in the design of PA-based implants.

Polyplexes System to Enhance the LL-37 Antimicrobial Peptide Expression in Human Skin Cells.

Inefficient autologous tissue recovery in diverse skin injuries increases the susceptibility of patients to infections caused by multiresistant microorganisms, resulting in a high mortality rate. Nonviral transfection is an attractive alternative for these patients, where genetically modified cells incorporated into skin substitutes could release additional antimicrobial agents into the native skin. In this work, we have modulated the conditions of using a nonviral system for transfection of primary human keratinocytes and fibroblasts, consisting of a polymer/plasmid DNA (pDNA) complex called polyplex and its effects on the expression of LL-37 antimicrobial peptide. Linear and branched polyethylenimine (PEI) polymers in different weight concentrations were varied for evaluating the formation and colloidal characteristics of the polyplexes. The PEI/pDNA polyplexes with 19 nitrogen/phosphate ratio are nanometric particles (400 and 250 nm with linear and branched PEI, respectively) exhibiting positive surface (+30 ± 2 mV). Both kinds of polyplexes allowed the expression of a reporter gene and increased the human cathelicidin antimicrobial peptide gene expression in transfected keratinocytes and fibroblasts; however, greater cytotoxicity was observed when polyplexes formed with branched PEI were used. Moreover, cell culture supernatants from transfected cells with linear PEI/pDNA polyplexes showed enhanced antimicrobial activity (decrease of bacterial growth in 95.8%) against a Staphylococcus aureus strain in vitro. The study of the PEI/pDNA polyplexes formation allowed us to develop an improved transfection strategy of skin cells, promoting the production of LL-37 antimicrobial peptide. In the future, this strategy could be used for the construction of skin substitutes to prevent, reduce, or eliminate bacterial infections. Impact statement The results of this study contribute to the understanding of the polyplexes system in the genetic modification of skin cells and its effects on the expression of the LL-37 antimicrobial peptide. In the future, three-dimensional skin substitutes built with these cells could be an efficient way to decrease bacterial growth and prevent the infections in skin wounds.

Polyplex System Versus Nucleofection for Human Skin Cell Transfection and Effect of Internal Ribosome Entry Site Sequence.

Nonviral transfection has important implications on gene therapy because of its safety. In particular, polyfection and nucleofection are two widely used systems for nonviral gene delivery. Their potential depends on the transfection efficiency achieved, which is influenced in turn by the type of cells transfected and by the plasmid that carries the gene of interest. The efficiency of transfection by polyfection or nucleofection in human fibroblasts and keratinocytes was evaluated in this study. Transfections were performed with plasmids containing a gene of interest (human cathelicidin antimicrobial peptide) and two reporter genes (red or green fluorescent protein) that included or not an internal ribosome entry site (IRES). The efficiency was measured by flow cytometry in terms of percentage of cells expressing the reporter gene; viability of transfected cells was also evaluated. It was found that nucleofection was more efficient than polyplexes for transfecting fibroblasts, while no significant differences were found between both systems of transfection when applied to keratinocytes. Regarding the viability of fibroblasts after transfection, values were high in both systems. In contrast, keratinocytes were more sensitive to nucleofection. It was also noted that both types of cells decreased reporter gene expression when IRES sequence was located upstream of the reporter gene, suggesting a negative effect on the expression of this gene. These results confirm that the transfection efficiency depends on the type of cells and the system used.

Evaluación del método químico-enzimático de descelularización para la obtención de matrices extracelulares de tráquea en el modelo porcino / Avaliação do método químico-enzimático de descelularização para a obtenção de matrizes extracelulares de traqueia no modelo suíno / Evaluation of the chemical-enzymatic decellularization method for obtaining extracellular trachea matrixes in a porcine model

Diferentes enfermedades afectan la tráquea y deterioran la calidad de vida. La ingeniería tisular es una alternativa terapéutica para los pacientes con esas enfermedades: matrices de tráquea descelularizadas y sembradas con células del receptor no generan respuesta inmune y pueden prevenir incluso el rechazo de zootrasplantes. Objetivo: evaluar un método de descelularización para obtener matrices extracelulares de tráquea en el modelo porcino. Materiales y métodos: a partir de 5 tráqueas porcinas se formaron dos grupos de estudio, controles y tratados con un método químico-enzimático. Se hizo análisis histológico con hematoxilina-eosina, coloración tricrómica de Masson y safranina O. Se evaluaron las propiedades biomecánicas de ambos grupos, mediante la determinación del módulo de Young, la fuerza máxima y el porcentaje de deformación. Resultados: en las muestras tratadas se observó una disminución del 66 % del contenido celular en comparación con los controles. Se preservó el colágeno y se detectó reducción de los glucosaminoglucanos. Las pruebas biomecánicas revelaron una diferencia estadísticamente significativa del porcentaje de deformación, sin alteración de los demás parámetros. Conclusiones: el método evaluado demostró ser eficiente para descelularizar tráqueas de cerdo, con una disminución importante en el costo y el tiempo de tratamiento, por lo que podría ser una buena opción en las condiciones socioeconómicas de Colombia...

Different diseases may affect the trachea and, therefore, the quality of life. Tissue engineering may be a therapeutic alternative for patientswith such diseases, using decellularized trachea matrixes seeded with cells from the recipient, which do not generate immune response and may even prevent rejection of zoo-transplants. Objective: To evaluate a decellularization method to obtain tracheal extracellular matrixes in the porcine model. Materials and methods: Two study groups, treated and control, were obtained from 5 porcine tracheas.A chemical-enzymatic method for decellularization was used. Histological analyses were performed with hematoxylin-eosin, Masson’s trichromic stain and safranin O. Biomechanical properties of both groups were evaluated by determining the Young modulus, maximum strength and deformation rate. Results: Compared to the controls, there was a 66 % decrease in the cell content in the treated specimens. Collagen was preserved and a reduction of glycosaminoglycans was detected. Biomechanical tests revealed a significant difference in the percentage of deformation, with no alteration of the remaining parameters. Conclusions: The evaluated decellularization method proved to be efficient to reduce the cellular content of porcine tracheas, with a considerable decrease in cost and production time. These advantages could make it a good option for the socio-economic Colombian conditions...

Diferentes doenças afetam a traqueia e deterioram a qualidade de vida. A engenheira tisular é uma alternativa terapêutica para os pacientes com essas doenças: matrizes de traqueia descelularizadas e semeadas com células do receptor não geram resposta imune e podem prevenir incluso a rejeição de zoo-transplantes. Objetivo: avaliar um método de descelularização para obter matrizes extracelulares de traqueia no modelo suíno. Materiais e métodos: a partir de 5 traqueias suínas se formaram dois grupos de estudo, controles e tratados com um método químico-enzimático. Se fez análise histológico com hematoxilina-eosina, corante tricrómica de Masson e safranina O. Se avaliaram as propriedades biomecânicas de ambos grupos, mediante a determinação do módulo de Young, a força máxima e a porcentagem de deformação. Resultados: Nas amostras tratadas se observou uma diminuição de 66 % do conteúdo celular em comparação com os controles. Se preservou o colágenoe se detectou redução dos glucosaminoglucanos. As provas biomecânicas revelaram uma diferença estatisticamente significativa da porcentagem de deformação, sem alteração dos demais parâmetros. Conclusões: O método avaliado demostrou ser eficiente para descelularizar traqueias de porco, com uma diminuição importante no custo e o tempo de tratamento, pelo que poderia ser uma boa opção nas condições socioeconómicas da Colômbia...