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1.
J Biomater Sci Polym Ed ; 35(6): 851-868, 2024 04.
Artículo en Inglés | MEDLINE | ID: mdl-38310545

RESUMEN

To make tissue engineering a truly effective tool, it is necessary to understand how the patterns of specific tissue development are modulated by and depend on the artificial environment. Even the most advanced approaches still do not fully meet the requirements of practical engineering of tracheobronchial epithelium. This study aimed to test the ability of the synthetic and natural nonwoven scaffolds to support the formation of morphological sound airway epithelium including the basement membrane (BM). We also sought to identify the potential role of fibroblasts in this process. Our results showed that nonwoven scaffolds are generally suitable for producing well-differentiated tracheobronchial epithelium (with cilia and goblet cells), while the structure and functionality of the equivalents appeared to be highly dependent on the composition of the scaffolds. Unlike natural scaffolds, synthetic ones supported the formation of the epithelium only when epithelial cells were cocultured with fibroblasts. Fibroblasts also appeared to be obligatory for basal lamina formation, regardless of the type of the nonwoven material used. However, even in the presence of fibroblasts, the synthetic scaffolds were unable to support the formation of the epithelium and of the BM (in particular, basal lamina) as effectively as the natural scaffolds did.


Asunto(s)
Polímeros , Andamios del Tejido , Andamios del Tejido/química , Epitelio , Ingeniería de Tejidos/métodos , Fibroblastos
2.
J Biomed Mater Res A ; 112(2): 144-154, 2024 02.
Artículo en Inglés | MEDLINE | ID: mdl-37921091

RESUMEN

Further progress in regenerative medicine and bioengineering highly depends on the development of 3D polymeric scaffolds with active biological properties. The most attention is paid to natural extracellular matrix components, primarily collagen. Herein, nonwoven nanofiber materials with various degrees of collagen denaturation and fiber diameters 250-500 nm were produced by electrospinning, stabilized by genipin, and characterized in detail. Collagen denaturation has been confirmed using DSC and FTIR analysis. The comparative study of collagen and gelatin nonwoven materials (NWM) revealed only minor differences in their biocompatibility with skin fibroblasts and keratinocytes in vitro. In long-term subcutaneous implantation study, the inflammation was less evident on collagen than on gelatin NWM. Remarkably, the pronounced calcification was revealed in the collagen NWM only. The results obtained can be useful in terms of improving the electrospinning technology of collagen from aqueous solutions, as well as emphasize the importance of long-term study to ensure proper implementation of the material, taking into account the ability of collagen to provoke calcification.


Asunto(s)
Nanofibras , Andamios del Tejido , Gelatina/farmacología , Ingeniería de Tejidos/métodos , Colágeno/farmacología
3.
Cell Prolif ; 52(3): e12598, 2019 May.
Artículo en Inglés | MEDLINE | ID: mdl-30900363

RESUMEN

OBJECTIVES: The conversion of tissue engineering into a routine clinical tool cannot be achieved without a deep understanding of the interaction between cells and scaffolds during the process of tissue formation in an artificial environment. Here, we have investigated the cultivation conditions and structural features of the biodegradable non-woven material in order to obtain a well-differentiated human airway epithelium. MATERIALS AND METHODS: The bilayered scaffold was fabricated by electrospinning technology. The efficiency of the scaffold has been evaluated using MTT cell proliferation assay, histology, immunofluorescence and electron microscopy. RESULTS: With the use of a copolymer of chitosan-gelatin-poly-l-lactide, a bilayered non-woven scaffold was generated and characterized. The optimal structural parameters of both layers for cell proliferation and differentiation were determined. The basal airway epithelial cells differentiated into ciliary and goblet cells and formed pseudostratified epithelial layer on the surface of the scaffold. In addition, keratinocytes formed a skin equivalent when seeded on the same scaffold. A comparative analysis of growth and differentiation for both types of epithelium was performed. CONCLUSIONS: The structural parameters of nanofibres should be selected experimentally depending on polymer composition. The major challenges on the way to obtain the well-differentiated equivalent of respiratory epithelium on non-woven scaffold include the following: the balance between scaffold permeability and thickness, proper combination of synthetic and natural components, and culture conditions sufficient for co-culturing of airway epithelial cells and fibroblasts. For generation of skin equivalent, the lack of diffusion is not so critical as for pseudostratified airway epithelium.


Asunto(s)
Ingeniería de Tejidos/métodos , Andamios del Tejido , Tráquea/citología , Materiales Biocompatibles/química , Fenómenos Biomecánicos , Diferenciación Celular , Supervivencia Celular , Células Cultivadas , Quitosano/química , Técnicas de Cocultivo , Células Epiteliales/citología , Fibroblastos/citología , Gelatina/química , Humanos , Queratinocitos/citología , Ensayo de Materiales , Microscopía Electrónica de Rastreo , Nanofibras/química , Nanofibras/ultraestructura , Poliésteres/química , Andamios del Tejido/química , Tráquea/crecimiento & desarrollo , Tráquea/fisiología
4.
Immunol Lett ; 88(1): 15-20, 2003 Jul 03.
Artículo en Inglés | MEDLINE | ID: mdl-12853155

RESUMEN

The ubiquitous transcription factor Oct-1 is a member of the POU domain family of regulatory proteins. Target genes controlled by Oct-1 include housekeeping genes, e.g. the genes encoding histon H2B or snRNAs, as well as tissue-specific genes, e.g. the genes encoding the light and heavy chains of immunoglobulines, some interleukins, and others. Oct-1 pre-mRNA may be spliced in several ways, resulting in production of several protein isoforms that may differ functionally. The 5'-end of the Oct-1 gene contains two exons-exon 1U and exon 1L that alternatively present in Oct-1 mRNA. We studied regulation of transcription of the Oct-1 gene using reporter gene assays of promoter-luciferase gene-constructs. It was shown that transcription of the Oct-1 gene is regulated by two promoters located upstream of the exon 1U and upstream of the exon 1L. The promoter located upstream of the exon 1U contains G/C-rich sequences and multiple Sp1 sites, while the promoter located upstream of the exon 1L contains A/T-rich motifs and autoregulation-related cis-elements: two octamer sites ATGCAAAT, two octamer related sites and multiple TAAT-core sites. Exons 1U and 1L in the human OTF-1 locus encoding the Oct-1 gene are located at the distance of 108 kbp. In the murine locus otf-1 the distance between exons 1U and 1L is 67 kbp. We suggest that the two promoters can differ functionally.


Asunto(s)
Proteínas de Unión al ADN/genética , Regulación de la Expresión Génica , Regiones Promotoras Genéticas , Factores de Transcripción/genética , Transcripción Genética , Región de Flanqueo 5' , Animales , Composición de Base , Línea Celular , Clonación Molecular , Exones , Factor C1 de la Célula Huésped , Humanos , Linfocitos/fisiología , Ratones , Factor 1 de Transcripción de Unión a Octámeros
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