Your search keyword '"Keratinocytes chemistry"' showing total 898 results

1. Assessing the Impact of Polyethylene Nano/Microplastic Exposure on Human Vaginal Keratinocytes.

Author

Pontecorvi P, Ceccarelli S, Cece F, Camero S, Lotti LV, Niccolai E, Nannini G, Gerini G, Anastasiadou E, Scialis ES, Romano E, Venneri MA, Amedei A, Angeloni A, Megiorni F, and Marchese C

Subjects

Humans, Female, Plastics, Polyethylene, Epigenesis, Genetic, Keratinocytes chemistry, Microplastics toxicity, Water Pollutants, Chemical toxicity

Abstract

The global rise of single-use throw-away plastic products has elicited a massive increase in the nano/microplastics (N/MPLs) exposure burden in humans. Recently, it has been demonstrated that disposable period products may release N/MPLs with usage, which represents a potential threat to women's health which has not been scientifically addressed yet. By using polyethyl ene (PE) particles (200 nm to 9 μm), we showed that acute exposure to a high concentration of N/MPLs induced cell toxicity in vaginal keratinocytes after effective cellular uptake, as viability and apoptosis data suggest, along with transmission electron microscopy (TEM) observations. The internalised N/MPLs altered the expression of junctional and adherence proteins and the organisation of the actin cortex, influencing the level of genes involved in oxidative stress signalling pathways and that of miRNAs related to epithelial barrier function. When the exposure to PE N/MPLs was discontinued or became chronic, cells were able to recover from the negative effects on viability and differentiation/proliferation gene expression in a few days. However, in all cases, PE N/MPL exposure prompted a sustained alteration of DNA methyltransferase and DNA demethylase expression, which might impact epigenetic regulation processes, leading to accelerated cell ageing and inflammation, or the occurrence of malignant transformation.

Published

2023

2. Non-invasive scoring of cellular atypia in keratinocyte cancers in 3D LC-OCT images using Deep Learning.

Author

Fischman S, Pérez-Anker J, Tognetti L, Di Naro A, Suppa M, Cinotti E, Viel T, Monnier J, Rubegni P, Del Marmol V, Malvehy J, Puig S, Dubois A, and Perrot JL

Subjects

Adult, Aged, Aged, 80 and over, Algorithms, Female, Histological Techniques, Humans, Imaging, Three-Dimensional, Keratinocytes chemistry, Keratinocytes pathology, Male, Middle Aged, Pathology instrumentation, Skin diagnostic imaging, Skin pathology, Skin Neoplasms diagnosis, Tomography, Optical Coherence methods, Deep Learning, Pathology methods, Skin Neoplasms diagnostic imaging, Skin Neoplasms pathology

Abstract

Diagnosis based on histopathology for skin cancer detection is today's gold standard and relies on the presence or absence of biomarkers and cellular atypia. However it suffers drawbacks: it requires a strong expertise and is time-consuming. Moreover the notion of atypia or dysplasia of the visible cells used for diagnosis is very subjective, with poor inter-rater agreement reported in the literature. Lastly, histology requires a biopsy which is an invasive procedure and only captures a small sample of the lesion, which is insufficient in the context of large fields of cancerization. Here we demonstrate that the notion of cellular atypia can be objectively defined and quantified with a non-invasive in-vivo approach in three dimensions (3D). A Deep Learning (DL) algorithm is trained to segment keratinocyte (KC) nuclei from Line-field Confocal Optical Coherence Tomography (LC-OCT) 3D images. Based on these segmentations, a series of quantitative, reproducible and biologically relevant metrics is derived to describe KC nuclei individually. We show that, using those metrics, simple and more complex definitions of atypia can be derived to discriminate between healthy and pathological skins, achieving Area Under the ROC Curve (AUC) scores superior than 0.965, largely outperforming medical experts on the same task with an AUC of 0.766. All together, our approach and findings open the door to a precise quantitative monitoring of skin lesions and treatments, offering a promising non-invasive tool for clinical studies to demonstrate the effects of a treatment and for clinicians to assess the severity of a lesion and follow the evolution of pre-cancerous lesions over time., (© 2022. The Author(s).)

Published

2022

3. Nuclear IL-33 Plays an Important Role in the Suppression of FLG, LOR, Keratin 1, and Keratin 10 by IL-4 and IL-13 in Human Keratinocytes.

Author

Dai X, Utsunomiya R, Shiraishi K, Mori H, Muto J, Murakami M, and Sayama K

Subjects

Cell Differentiation drug effects, Cells, Cultured, DNA-Binding Proteins analysis, Extracellular Signal-Regulated MAP Kinases physiology, Filaggrin Proteins analysis, Filaggrin Proteins genetics, Humans, Keratin-1 analysis, Keratin-10 analysis, Keratinocytes chemistry, Keratinocytes cytology, MAP Kinase Signaling System physiology, STAT3 Transcription Factor physiology, Dermatitis, Atopic etiology, Interleukin-13 pharmacology, Interleukin-33 physiology, Interleukin-4 pharmacology, Keratinocytes drug effects

Abstract

IL-33 is a chromatin-associated multifunctional cytokine implicated in the pathogenesis of atopic dermatitis (AD), an inflammatory skin disorder characterized by skin barrier dysfunction. The previous reports show that IL-33 is highly detected in the nucleus of epidermal keratinocytes in AD lesions compared with that in unaffected or normal skin. However, it is unclear whether intracellular IL-33 directly contributes to the pathogenesis of AD. T helper type 2 cytokines IL-4 and IL-13 that are elevated in AD lesions suppress keratinocyte differentiation to impair skin barrier function. We investigated whether intracellular IL-33 is involved in IL-4 and IL-13 function. In monolayer culture and living skin equivalent analyses, IL-4 and IL-13 increased the expression of full-length IL-33 in the nucleus of keratinocytes by activating the MAPK/extracellular signal‒regulated kinase kinase/extracellular signal‒regulated kinase signaling pathway, which is necessary for the inhibition of differentiation markers FLG, LOR, keratin 1, and keratin 10. The nuclear IL-33 functions as a transcription cofactor of signal transducer and activator of transcription 3, increasing the binding of phosphorylated signal transducer and activator of transcription 3 to FLG promoter, thereby inhibiting its transcription, and it inhibits the expression of transcription factor RUNX1 by signal transducer and activator of transcription 3 and signal transducer and activator of transcription 6, thereby downregulating LOR, keratin 1, and keratin 10. Thus, the elevated nuclear IL-33 in the epidermis of AD lesions may be involved in the pathogenesis of AD by inhibiting keratinocyte differentiation and skin barrier function., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

4. Overriding native cell coordination enhances external programming of collective cell migration.

Author

Shim G, Devenport D, and Cohen DJ

Subjects

Animals, Cadherins metabolism, Calcium metabolism, Cell Adhesion, Cell Line, Humans, Intercellular Junctions metabolism, Keratinocytes chemistry, Mice, Skin chemistry, Skin cytology, Wound Healing, Wounds and Injuries metabolism, Wounds and Injuries physiopathology, Cell Movement, Keratinocytes physiology

Abstract

As collective cell migration is essential in biological processes spanning development, healing, and cancer progression, methods to externally program cell migration are of great value. However, problems can arise if the external commands compete with strong, preexisting collective behaviors in the tissue or system. We investigate this problem by applying a potent external migratory cue-electrical stimulation and electrotaxis-to primary mouse skin monolayers where we can tune cell-cell adhesion strength to modulate endogenous collectivity. Monolayers with high cell-cell adhesion showed strong natural coordination and resisted electrotactic control, with this conflict actively damaging the leading edge of the tissue. However, reducing preexisting coordination in the tissue by specifically inhibiting E-cadherin-dependent cell-cell adhesion, either by disrupting the formation of cell-cell junctions with E-cadherin-specific antibodies or rapidly dismantling E-cadherin junctions with calcium chelators, significantly improved controllability. Finally, we applied this paradigm of weakening existing coordination to improve control and demonstrate accelerated wound closure in vitro. These results are in keeping with those from diverse, noncellular systems and confirm that endogenous collectivity should be considered as a key quantitative design variable when optimizing external control of collective migration., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2021

5. Hyaline Inclusion Acanthoma.

Author

Tran TAN, Parra O, and Linos K

Subjects

Acanthoma pathology, Aged, Biopsy, Humans, Immunohistochemistry, Keratinocytes pathology, Male, Skin Neoplasms pathology, Acanthoma chemistry, Biomarkers, Tumor analysis, Hyalin, Keratinocytes chemistry, Skin Neoplasms chemistry

Abstract

Abstract: Eosinophilic hyaline inclusions (EHIs) or globules have been reported in various cutaneous tumors including vascular lesions, myoepithelial neoplasms, and basal cell carcinoma. In basal cell carcinoma, the presence of intracytoplasmic inclusions is reportedly associated with myoepithelial differentiation. In this regard, EHI has not been conclusively documented in a cutaneous lesion of genuine squamous cell lineage without aberrant differentiation. In the current case, a biopsy from the right thigh of a 71-year-old male patient demonstrated a relatively well-demarcated intraepidermal squamous lesion featured an admixture of predominantly enlarged keratinocytes harboring distinct eccentric intracytoplasmic EHI and a smaller population of keratinocytes displaying pale cytoplasm. Cytologic atypia, mitotic activity, and inflammatory cells were not identified. The intracytoplasmic EHI stained red with Masson's trichrome and were negative with periodic-acid Schiff with and without diastase. Immunologically, the lesion was strongly and diffusely positive for various cytokeratins but negative for ubiquitin and myoepithelial markers. Only cytokeratin AE1 revealed a differential staining pattern as the suprabasal lesional cells displayed significantly stronger immunoreactivity in comparison with the adjacent normal keratinocytes. Polymerase chain reaction for low-risk and high-risk human papillomavirus was negative. Molecular studies did not reveal any mutations commonly encountered in seborrheic or lichenoid keratoses. As an analogous lesion has not previously reported in the literature, the term hyaline inclusion acanthoma is proposed for this peculiar lesion., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2021 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2021

6. Cell Membrane-Coated Electrospun Fibers Enhance Keratinocyte Growth through Cell-Type Specific Interactions.

Author

Chooi WH, Dong Q, Low JZY, Yuen C, Chin JS, Lin J, Ong W, Liu Q, and Chew SY

Subjects

Humans, Materials Testing, Particle Size, Tissue Scaffolds chemistry, Cell Membrane chemistry, Coated Materials, Biocompatible chemistry, Keratinocytes chemistry, Tissue Engineering

Abstract

Although cell membrane-coated fiber scaffolds can be useful for regenerative medicine by presenting both cell surface antigens and topographical cues, it remains unknown whether changes in cellular behavior on cell membrane-coated scaffolds are due to specific cell-cell interactions. In this work, the effects of scaffold fiber diameters and surface charges on the cell membrane coating efficiency were explored. Furthermore, fibroblast membrane-coated scaffolds improved the growth of human keratinocytes as compared to red blood cell membrane-coated and plain scaffolds. These results suggest the biofunctionality of cell membrane-coated scaffolds and the specific cell-cell interactions that are preserved to modulate cellular response.

Published

2021

7. The Whey Acidic Protein WFDC12 Is Specifically Expressed in Terminally Differentiated Keratinocytes and Regulates Epidermal Serine Protease Activity.

Author

Kalinina P, Vorstandlechner V, Buchberger M, Eckhart L, Lengauer B, Golabi B, Laggner M, Hiess M, Sterniczky B, Födinger D, Petrova E, Elbe-Bürger A, Beer L, Hovnanian A, Tschachler E, and Mildner M

Subjects

Cell Differentiation, Cells, Cultured, Humans, Keratinocytes chemistry, Keratinocytes cytology, Proteins analysis, Serine Proteases metabolism, Epidermis enzymology, Keratinocytes physiology, Proteins physiology, Serine Proteinase Inhibitors physiology

Abstract

WFDC proteins such as peptidase inhibitor 3 and SLPI inhibit proteases in the epidermis and other tissues. In this study, we tested the hypothesis that further WFDC protein family members might contribute to epidermal homeostasis. We found that in addition to peptidase inhibitor 3 and SLPI, WFDC5 and WFDC12 were expressed in human epidermis. In contrast to WFDC5, the expression of WFDC12 was induced during the late differentiation of keratinocytes and was restricted to the outermost layer of live cells. Single-cell RNA sequencing demonstrated that WFDC12-positive keratinocytes were characterized by the upregulation of LCE mRNA expression and downregulated the expression of keratins and claudins. Immunogold-electron microscopy revealed the colocalization of WFDC12 with corneodesmosomes in the lower stratum corneum. WFDC12 was elevated in the affected skin of patients with psoriasis, atopic dermatitis, and Darier disease. By contrast, WFDC12 expression was strongly upregulated not only in the affected but even more so in clinically normal-appearing skin of patients with Netherton syndrome. Finally, functional analysis showed distinct inhibitory activity of WFDC12 on neutrophil elastase and epidermal kallikrein‒related peptidase. Altogether, our study identified WFDC12 as a marker of the last stage of epidermal keratinocyte differentiation and suggests that WFDC12 contributes to the control of protease activity in the stratum corneum., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

8. How many cells are required for successful DNA profiling?

Author

Kanokwongnuwut P, Martin B, Taylor D, Kirkbride KP, and Linacre A

Subjects

Fluorescent Dyes, Humans, Keratinocytes chemistry, Microsatellite Repeats, Microscopy, Fluorescence, Mouth Mucosa cytology, Polymerase Chain Reaction, Saliva chemistry, Touch, DNA analysis, DNA Fingerprinting

Abstract

Through advances in fluorescent nucleic acid dye staining and visualisation, targeted collection of cellular material deposited, for example by touch or within a saliva deposit, is possible. In regard to the potential evidentiary value of the deposit the questions remain: 'How many cells are required to generate an informative DNA profile?'; 'How many visualised corneocytes within a touch deposit compared to typical nucleated cells are required in order to achieve successful DNA profiling?'. Diamond TM Nucleic Acid Dye (DD) staining of cellular material, and subsequent visualisation utilising portable fluorescence microscopy, was performed for touch and saliva samples to target defined numbers of cells for collection, by swab and tapelift, and subsequent processing via direct PCR and PCR post-extraction. The resulting DNA quantification data and alleles generated within subsequent DNA profiles could be correlated to the number of cells initially collected to determine cellular threshold requirements for DNA profile generation for each workflow. Full profiles were consistently generated using direct PCR when the template was ≥40 buccal cells collected by either a swab or tapelift. By contrast ≥800 corneocytes collected by swabbing or ≥4,000 corneocytes collected by a tapelift were required to generate same number of STR alleles from touch samples. When samples were processed through a DNA extraction workflow, ≥80 buccal cells were required to generate full profiles from both swab and tapelift, while touch samples required ≥4,000 corneocytes collected by a swab and >8,000 corneocytes collected by a tapelift. The data presented within this study allow for informative sample triage and workflow decisions to be made to optimise STR amplification based on the presence and visual quantification of stained cellular material., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

9. Corneocyte lysis and fragmented DNA considerations for the cellular component of forensic touch DNA.

Author

Burrill J, Rammenou E, Alawar F, Daniel B, and Frascione N

Subjects

DNA Degradation, Necrotic, DNA Fragmentation, Epidermis, Humans, Microsatellite Repeats, Microscopy, Fluorescence, Polymerase Chain Reaction, Touch, Cell Separation, DNA analysis, DNA Fingerprinting, Keratinocytes chemistry

Abstract

DNA deposited by individuals' hands is a routine part of forensic analysis, yet little is understood about the precise cellular contents left by handling. "Dead" skin cells known as corneocytes make up the majority of the cellular material left in touch deposits by people's hands but are known to lack nuclei, making their DNA content ambiguous. Here we measure DNA released from anucleate corneocytes following various lysis methods to determine how much DNA may be present in these cells and how best to recover it from inside the cornified envelope. We demonstrate that enhanced lysis methods using a reducing agent and longer incubation may be valuable for hand deposit samples. Corneocyte DNA can be characterized as highly degraded based on the quantification, STR profiling and fluorescence microscopy of the cells from freshly washed hands. Purification to target shorter DNA fragments is demonstrated. DNA from the washed corneocyte cells is shown to constitute the majority of recoverable DNA with these methods. We consider the use of new methods adapted to cornified cells and fragmented DNA for future research into this sample type., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

10. Gene expression profile of human follicle dermal papilla cells in response to Camellia japonica phytoplacenta extract.

Author

Cho WK, Kim HI, Paek SH, Kim SY, Hyun Seo H, Song J, Lee OH, Min J, Lee SJ, Jo Y, Choi H, Lee JH, and Moh SH

Subjects

Adult, Cell Line, Female, Flowers chemistry, Gene Expression Regulation drug effects, Hair Follicle chemistry, Hair Follicle drug effects, Humans, Keratinocytes chemistry, Keratinocytes drug effects, Keratins analysis, Keratins drug effects, Middle Aged, Plant Extracts chemistry, Plant Extracts pharmacology, Sebum drug effects, Sequence Analysis, RNA, Treatment Outcome, Camellia chemistry, Gene Expression Profiling methods, Genetic Markers drug effects, Hair Follicle cytology, Keratinocytes cytology, Plant Extracts administration & dosage

Abstract

Camellia japonica L. is a flowering tree with several medicinal and cosmetic applications. Here, we investigated the efficacy of C. japonica placenta extract (CJPE) as a potential therapeutic agent for promotion of hair growth and scalp health by using various in vitro and in vivo assays. Moreover, we performed transcriptome analysis to examine the relative expression of human follicle dermal papilla cells (HFDPC) in response to CJPE by RNA-sequencing (RNA-seq). In vitro assays revealed upregulation of the expression of hair growth marker genes in HFDPC after CJPE treatment. Moreover, in vivo clinical tests with 42 adult female participants showed that a solution containing 0.5% CJPE increased the moisture content of the scalp and decreased the scalp's sebum content, dead scalp keratin, and erythema. Furthermore, RNA-seq analysis revealed key genes in HFDPC which are associated with CJPE. Interestingly, genes associated with lipid metabolism and cholesterol efflux were upregulated. Genes upregulated by CJPE are associated with several hormones, including parathyroid, adrenocorticotropic hormone, α-melanocyte-stimulating hormone (alpha-MSH), and norepinephrine, which are involved in hair follicle biology. Furthermore, some upregulated genes are associated with the regulation of axon guidance. In contrast, many genes downregulated by CJPE are associated with structural components of the cytoskeleton. In addition, CJPE suppressed genes associated with muscle structure and development. Taken together, this study provides extensive evidence that CJPE may have potential as a therapeutic agent for scalp treatment and hair growth promotion., (© 2021 The Authors. FEBS Open Bio published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2021

11. Effect of Collagen Nanofibers and Silanization on the Interaction of HaCaT Keratinocytes and 3T3 Fibroblasts with Alumina Nanopores.

Author

Dutta D, Markhoff J, Suter N, Rezwan K, and Brüggemann D

Subjects

3T3 Cells, Animals, Cell Line, Collagen chemistry, Humans, Materials Testing, Mice, Particle Size, Aluminum Oxide chemistry, Biocompatible Materials chemistry, Fibroblasts chemistry, Keratinocytes chemistry, Nanofibers chemistry, Nanopores

Abstract

During wound healing, a complex cascade of cellular and molecular events occurs, which is governed by topographical and biochemical cues. Therefore, optimal tissue repair requires scaffold materials with versatile structural and biochemical features. Nanoporous anodic aluminum oxide (AAO) membranes exhibit good biocompatibility along with customizable nanotopography and antimicrobial properties, which has brought them into the focus of wound treatment. However, despite their good permeability, such bioinert ceramic nanopores cannot actively promote cell growth as they lack biochemical cues to support specific ligand-receptor interactions. Therefore, we modified AAO nanopores with the biochemical features of collagen nanofibers or amino groups provided by silanization with (3-aminopropyl)triethoxysilane (APTES) to design a permeable scaffold material that can additionally promote cell adhesion. Viability assays revealed that the metabolic activity of both 3T3 fibroblasts and HaCaT keratinocytes on bare and silanized AAO pores was comparable to glass controls until 72 h. Interestingly, both cell types showed a reduced proliferation on AAO with collagen nanofibers. Nevertheless, scanning electron and fluorescence microscopy revealed that 3T3 fibroblasts exhibited a well-spread morphology with filopodia attached to the nanoporous surface of the underlying AAO membranes or nanofibrous collagen networks, thus indicating a close interaction with the composites. Keratinocytes, although growing in clusters on bare and APTES-modified AAO, also adhered well on collagen-modified AAO membranes. When in contact with Escherichia coli suspensions for 20 h, the AAO membranes successfully prevented bacteria penetration irrespective of the biochemical functionalization. In summary, both functionalization strategies have high potential to specifically control molecular signaling and cell migration to further develop alumina nanopores for wound healing.

Published

2021

12. Diffusion through skin in the light of a fractional derivative approach: progress and challenges.

Author

Caputo M and Cametti C

Subjects

Diffusion, Epidermis chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Keratinocytes chemistry, Keratinocytes cytology, Keratinocytes metabolism, Lipids chemistry, Administration, Cutaneous, Cell Membrane Permeability physiology, Epidermis metabolism, Models, Biological

Abstract

This review is focussed on modelling the transport processes of different drugs across the intact human skin by introducing a memory formalism based on the fractional derivative approach. The fundamental assumption of the classic transport equation in the light of the Fick's law is that the skin barrier behaves as a pseudo-homogeneous membrane and that its properties, summarized by the diffusion coefficient D,  do not vary with time and position. This assumption does not hold in the case of a highly heterogeneous system as the skin is, whose outermost layer (the stratum corneum) is comprised of a multi-layered structure of keratinocytes embedded in a lamellar matrix of hydrophobic lipids, followed by the dermis that contains a network of capillaries that connect to the systemic circulation. A possible way to overcome these difficulties resides in the introduction of mathematical models which involve fractional derivatives to describe complex systems with interactions in space and time, following the model originally developed by Caputo in order to consider the memory effects in materials. Although the introduction of fractional derivatives to model memory effects is completely phenomenological, i.e., characterized by a single parameter, i.e., the fractional derivative order [Formula: see text] a number of authors have found that this approach can provide a better comparison to experimental data and that this technique may be alternative to integer-order derivative models. In this review, we aim to summarize some our recent results, concerning the transport of different diffusing compounds of different structural complexity across the intact skin.

Published

2021

13. Anti-Inflammatory and Proliferative Properties of Luteolin-7-O-Glucoside.

Author

De Stefano A, Caporali S, Di Daniele N, Rovella V, Cardillo C, Schinzari F, Minieri M, Pieri M, Candi E, Bernardini S, Tesauro M, and Terrinoni A

Subjects

Cell Line, Cell Proliferation, Endothelial Cells chemistry, Endothelial Cells cytology, Endothelial Cells drug effects, Fatty Acids metabolism, Human Umbilical Vein Endothelial Cells, Humans, Hydroxylation, Keratinocytes chemistry, Keratinocytes drug effects, Metabolomics, Oxysterols metabolism, Reactive Oxygen Species metabolism, Signal Transduction drug effects, Anti-Inflammatory Agents pharmacology, Antioxidants pharmacology, Flavones pharmacology, Glucosides pharmacology, Keratinocytes cytology, Sialyltransferases metabolism

Abstract

Flavonoids display a broad range of structures and are responsible for the major organoleptic characteristics of plant-derived foods and beverages. Recent data showed their activity, and in particular of luteolin-7-O-glucoside (LUT-7G), in reduction of oxidative stress and inflammatory mechanisms in different physiological systems. In this paper, we tried to elucidate how LUT-7G could exert both antioxidant and anti-inflammatory effects in endothelial cells cultured in vitro. Here, we showed that LUT-7G is able to inhibit the STAT3 pathway, to have an antiproliferative action, and an important antioxidant property in HUVEC cells. These properties are exerted by the flavone in endothelial through the transcriptional repression of a number of inflammatory cytokines and their receptors, and by the inhibition of ROS generation. ROS and STAT3 activation has been correlated with the production of oxysterols and other hydroxylated fatty acids, and they have been recognized important as players of atherogenesis and cardiocirculatory system diseases. The analysis of the general production pathway of these hydroxylated species, showed a strong decrease of cholesterol hydroxylated species such as 7-alpha-hydroxicholesterol, 7-beta-hydroxicholesterol by the treatment with LUT-7G. This confirms the anti-inflammatory properties of LUT-7G also in the endothelial district, showing for the first time the molecular pathway that verify previous postulated cardiovascular benefits of this flavone.

Published

2021

14. Expression of invadopodia markers can identify oral lesions with a high risk of malignant transformation.

Author

Ali A, Soares AB, Eymael D, and Magalhaes M

Subjects

Adult, Aged, Aged, 80 and over, Cell Transformation, Neoplastic pathology, Female, Fluorescent Antibody Technique, Humans, Keratinocytes pathology, Male, Microscopy, Confocal, Middle Aged, Mouth Neoplasms pathology, Neoplasm Grading, Podosomes pathology, Precancerous Conditions pathology, Predictive Value of Tests, Retrospective Studies, Risk Assessment, Risk Factors, Squamous Cell Carcinoma of Head and Neck pathology, Biomarkers, Tumor analysis, Cell Transformation, Neoplastic chemistry, Early Detection of Cancer, Keratinocytes chemistry, Mouth Neoplasms chemistry, Podosomes chemistry, Precancerous Conditions metabolism, Squamous Cell Carcinoma of Head and Neck chemistry

Abstract

Oral squamous cell carcinoma (OSCC) is the most common malignant tumor of the oral cavity and is usually preceded by a range of premalignant tissue abnormalities termed oral potentially malignant disorders. Identifying malignant transformation is critical for early treatment and consequently improved survival and decreased morbidity. Invadopodia (INV) are specialized subcellular structures required for cancer cell invasion. We developed a new method to visualize INV in keratinocytes using fluorescent immunohistochemistry (FIHC) and semi-automated images analysis. The presence of INV was used to determine the risk of malignant transformation. We analyzed 145 formalin-fixed, paraffin-embedded (FFPE) oral biopsy samples from 95 patients diagnosed as nondysplastic, dysplastic, and OSCC including 49 patients whose lesions transformed to OSCC (progressing) and 46 cases that did not transform to OSCC (control). All samples were stained for Cortactin, tyrosine kinase substrate with five SH3 domains (Tks5) and matrix metallopeptidase 14 (MMP14) using FIHC, imaged using confocal microscopy and analyzed using a multichannel colocalization analysis. The areas of colocalization were used to generate an INV score. Using the INV score, we were able to identify progressing lesions with a sensitivity of 75-100% and specificity of 72-76%. A positive INV score was associated with increased risk of progression to OSCC. Our results suggest that INV markers can be used in conjunction with the current diagnostic standard for early detection of OSCC., (© 2020 The Authors. The Journal of Pathology: Clinical Research published by The Pathological Society of Great Britain and Ireland & John Wiley & Sons, Ltd.)

Published

2021

15. MiR-23b Promotes the Migration of Keratinocytes Through Downregulating TIMP3.

Author

Hu H, Tang J, Liu C, and Cen Y

Subjects

Cell Line, Cell Movement physiology, Keratinocytes chemistry, MicroRNAs analysis, Tissue Inhibitor of Metalloproteinase-3 analysis, Transfection, Transforming Growth Factor beta1 pharmacology, Wound Healing genetics, Cell Movement genetics, Down-Regulation genetics, Keratinocytes physiology, MicroRNAs physiology, Tissue Inhibitor of Metalloproteinase-3 genetics

Abstract

Background: Wound healing is a complex process aiming at repairing the damaged skin. MiR-23b has been reported to be upregulated during wound healing. In this study, we intended to explore the working mechanism of miR-23b during wound healing., Methods: Quantitative real-time polymerase chain reaction was performed to detect the enrichment of miR-23b and tissue inhibitor of metalloproteinase-3 (TIMP3) in HaCaT cells. Scratch wound assay was carried out to measure the migration of HaCaT cells. The target of miR-23b was predicted by microT-CDS software, and the combination was confirmed by dual-luciferase reporter assay and RNA immunoprecipitation assay. The abundance of TIMP3 protein was detected by Western blot assay., Results: The abundance of miR-23b was positively related to the concentration and time of transforming growth factor β1 treatment in HaCaT cells. MiR-23b promoted the migration of keratinocytes. TIMP3 was a direct target of miR-23b and was negatively regulated by miR-23b. TIMP3 inhibited the migration of keratinocytes. MiR-23b accelerated the migration of keratinocytes by downregulating the abundance of TIMP3., Conclusions: MiR-23b promoted the migration of keratinocytes partly through reducing the enrichment of TIMP3. MiR-23b might be a promising target for the treatment of wound healing-associated diseases., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

16. LOC285194 inhibits proliferation of human keratinocytes through regulating miR-616/GATA3 pathway.

Author

Lin J, Fang Y, Tao M, Ma L, Cao Y, Li Y, Ji C, Yang J, and Yang X

Subjects

3' Untranslated Regions, Adult, Aged, Cell Proliferation, Cell Survival, Down-Regulation, Female, GATA3 Transcription Factor metabolism, Humans, Keratinocytes chemistry, Male, Middle Aged, Psoriasis metabolism, Signal Transduction, Young Adult, GATA3 Transcription Factor genetics, Keratinocytes cytology, MicroRNAs genetics, Psoriasis genetics, RNA, Long Noncoding genetics

Abstract

LncRNA LOC285194 has been associated with the occurrence of psoriasis. However, the underlying mechanisms that lead to psoriasis remain unclear. In this study, the expression of LOC285194, miR-616, and GATA3 was determined by western blotting and quantitative real-time PCR, and their relationships were assessed using dual-luciferase reporter assays. The effects of LOC285194 on the proliferation and apoptosis of keratinocytes were investigated using cell counting kit-8 assays and flow cytometry, respectively. Reduced expression of LOC285194 was detected in the skin lesion samples from patients with psoriasis. Overexpression of LOC285194 led to reduced cell viability, cell cycle arrest, and increased cell apoptosis in keratinocytes, whereas LOC285194 silencing resulted in opposite effects. In addition, LOC285194 was found to negatively regulate miR-616, which modulated GATA3 expression through its direct binding to the 3'-untranslated region of GATA3. Knockdown of GATA3 rescued LOC285194 overexpression-mediated cell viability reduction, cell cycle arrest and apoptosis induction in keratinocytes. Taken together, LOC285194 was found to inhibit keratinocyte growth by sponging miR-616 that regulates GATA3., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

17. The ceramide [NP]/[NS] ratio in the stratum corneum is a potential marker for skin properties and epidermal differentiation.

Author

Yokose U, Ishikawa J, Morokuma Y, Naoe A, Inoue Y, Yasuda Y, Tsujimura H, Fujimura T, Murase T, and Hatamochi A

Subjects

Adult, Aged, Biomarkers analysis, Case-Control Studies, Cell Differentiation, Cells, Cultured, Dermatitis, Atopic diagnosis, Epidermis pathology, Female, Humans, Keratinocytes chemistry, Keratinocytes cytology, Lipids analysis, Middle Aged, Psoriasis diagnosis, Young Adult, Ceramides analysis, Dermatitis, Atopic pathology, Epidermis chemistry, Psoriasis pathology

Abstract

Background: Specific species of ceramides (Cer), major constituents of lipids in the stratum corneum (SC), are decreased and are correlated with SC barrier and water-holding functions in the skin of patients with atopic dermatitis (AD) or psoriasis (Pso). However, possible correlations between Cer subclass ratios and skin properties in barrier-disrupted skin and in healthy skin remain unclear. The objective of this study was to identify a new marker to evaluate skin properties and epidermal differentiation in SC not only in barrier-disrupted skin but also in healthy skin., Methods: The Cer subclass ratios in the SC of healthy control subjects and in patients with AD or Pso were evaluated. Correlations with candidate markers and facial skin features of healthy Japanese females (20-74 years old, n = 210) were investigated. Variations of markers during epidermal differentiation were studied in human epidermis and in cultured keratinocytes., Results: The ratios of Cer [NP]/[NS], Cer [NH]/[NS], Cer [NP]/[AS], Cer [NH]/[NS], Cer [NDS]/[AS], Cer [AH]/[AS] and Cer [EOP]/[AS] showed significant differences between non-lesional skin of AD patients and normal skin of healthy control subjects, as well as Pso patients and their healthy control subjects. The Cer [NP]/[NS] ratio was correlated with SC functional parameters (transepidermal water loss and capacitance) and with skin appearance (texture, scaling and color) even in the cheek skin of healthy female subjects. The Cer [NP]/[NS] ratio in the SC was approximately 18-times higher than in living keratinocytes, and it increased as they differentiated., Conclusions: The Cer [NP]/[NS] ratio in the SC is a potential marker for skin properties and epidermal differentiation in barrier-disrupted skin as well as in healthy skin.

Published

2020

18. Organophosphorus flame retardant TDCPP-induced cytotoxicity and associated mechanisms in normal human skin keratinocytes.

Author

Cui D, Bi J, Zhang ZN, Li MY, Qin YS, Xiang P, and Ma LQ

Subjects

Apoptosis, Dust, Humans, Keratinocytes chemistry, Organophosphates, Organophosphorus Compounds analysis, Flame Retardants

Abstract

Tris(1,3-dichloro-2-propyl) phosphate (TDCPP), a widely used organophosphorus flame retardant, has been frequently detected in the environment including indoor dust. Long-term exposure to TDCPP-containing dust may adversely affect human skin, however, little is known about its potential cytotoxicity. In this study, human skin keratinocytes (HaCaT) were employed to study TDCPP-induced cytotoxicity and associated mechanisms. The effects of TDCPP on cell morphology, viability, apoptosis, and cycle, and the mRNA levels of apoptosis (Bcl-2, Bax and Caspase-3) and cell cycle (cyclin D1, CDK2, CDK4 and CDK6) regulatory genes were investigated. The results showed that TDCPP caused a concentration-dependent decrease in cell viability after exposing to TDCPP ≥100 μg/mL for 48 h, with a median lethal concentration of 163 μg/mL (LC 50 ). In addition, TDCPP induced cell apoptosis and arrested cell cycle in the G0/G1 phase at 16 and 160 μg/mL by enhancing Bax and Caspase-3 expression besides inhibiting cyclin D1, CDK2, CDK6 and Bcl-2 expression. Our results showed that TDCPP-induced toxicity in HaCaT cells was probably through cell apoptosis and cell cycle arrest. This study provides information on the toxicity of TDCPP to human skin cells, which may help to reduce its toxicity to human skin., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

19. Discovery of 4-Anilinoquinolinylchalcone Derivatives as Potential NRF2 Activators.

Author

Kao YT, Chen YS, Tang KW, Lee JC, Tseng CH, Tzeng CC, Yen CH, and Chen YL

Subjects

Cell Line, Transformed, Glucosephosphate Dehydrogenase, Glutamate-Cysteine Ligase biosynthesis, Heme Oxygenase-1 biosynthesis, Humans, NF-E2-Related Factor 2 genetics, Chalcones chemical synthesis, Chalcones chemistry, Chalcones pharmacology, Gene Expression Regulation drug effects, Kelch-Like ECH-Associated Protein 1 chemistry, Kelch-Like ECH-Associated Protein 1 metabolism, Keratinocytes chemistry, Keratinocytes metabolism, Molecular Docking Simulation, NF-E2-Related Factor 2 biosynthesis

Abstract

Activation of nuclear factor erythroid-2-related factor 2 (NRF2) has been proven to be an effective means to prevent the development of cancer, and natural curcumin stands out as a potent NRF2 activator and cancer chemopreventive agent. In this study, we have synthesized a series of 4-anilinoquinolinylchalcone derivatives, and used a NRF2 promoter-driven firefly luciferase reporter stable cell line, the HaCaT/ARE cells, to screen a panel of these compounds. Among them, ( E )-3-{4-[(4-acetylphenyl)amino]quinolin-2-yl}-1-(4-fluorophenyl)prop-2-en-1-one ( 13b ) significantly increased NRF2 activity in the HaCaT cell with a half maximal effective concentration (EC 50 ) value of 1.95 μM. Treatment of compound 13b upregulated HaCaT cell NRF2 expression at the protein level. Moreover, the mRNA level of NRF2 target genes, heme oxygenase-1 (HO-1), glutamate-cysteine ligase catalytic subunit (GCLC), and glucose-6-phosphate dehydrogenase (G6PD) were significantly increased in HaCaT cells upon the compound 13b treatment. The molecular docking results exhibited that the small molecule 13b is well accommodated by the bound region of Kelch-like ECH-associated protein 1 (Keap1)-Kelch and NRF2 through stable hydrogen bonds and hydrophobic interaction, which contributed to the enhancement of affinity and stability between the ligand and receptor. Compound 13b has been identified as the lead compound for further structural optimization.

Published

2020

20. Development of an in vitro submerged culture system to synthesize epidermal ceramides in canine keratinocytes.

Author

Yoon JS, Nishifuji K, and Iwasaki T

Subjects

Animals, Cell Culture Techniques methods, Dogs, Epidermis chemistry, Cell Culture Techniques veterinary, Ceramides chemical synthesis, Keratinocytes chemistry

Abstract

Ceramides (CERs) in the stratum corneum (SC) are known to play a crucial role in determining skin barrier function in dogs. We aimed to develop an in vitro culture system that synthesized epidermal CER classes to better understand the synthesis of CER classes in canine SC-. Canine keratinocyte cells (MSCEK) at appropriate confluency were incubated with high Ca 2+ (1.8 mM CaCl 2 ) supplemented serum-free medium. Eight days post Ca 2+ application, the surface of cultured MSCEK was broadly stained with anti-loricrin antibody implying that the keratinocytes had stratified into stratum granulosum. MSCEK cells synthesized heterogenous epidermal CERs, similar to those seen during the stratification of canine keratinocytes. CER fractions obtained from MSCEK cells were comparable to those from canine SC, including CER[EOS] (combination of ω-hydroxy fatty acids and sphingosines), CER[NP] (combination of non-hydroxy fatty acids and phytosphingosines), and CER[EOP] (combination of ω-hydroxy fatty acids and phytosphingosines), all of which are lowered in the SC during canine atopic dermatitis. Thus, the present study provides a simple culture system as a tool for in-depth analysis of CER production in canine keratinocytes., Competing Interests: Declaration of Competing Interest The authors have no conflicting financial interests., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

21. Illuminating touch deposits through cellular characterization of hand rinses and body fluids with nucleic acid fluorescence.

Author

Burrill J, Daniel B, and Frascione N

Subjects

Cells, Cultured, Flow Cytometry, Fluorescent Dyes, Hand Disinfection, Humans, Keratinocytes chemistry, Microscopy, Nasal Mucosa chemistry, Ophthalmic Solutions, Saliva chemistry, Skin cytology, Staining and Labeling, DNA Fingerprinting, Fluorescence, Forensic Genetics methods, Touch

Abstract

Forensic DNA typing from touched or handled items in routine casework is increasing as the sensitivity of detection techniques improves. Our understanding of the cellular/acellular content of touch deposits and the origins of the DNA therein is still limited. This work explores the cellular content of rinses from washed and unwashed hands, as well as saliva, nasal and eye washes which could be sources of transferred DNA onto hands. Flow cytometry and microscopic examination were used to detect granularity, size and nucleic acid fluorescence data. Cellular content did not vary significantly within an individual, although some differences were observed between donors. Saliva contained populations of nucleated epithelia as well as smaller cells and debris, all positive for DNA. Hand rinses consisted almost entirely of anucleate corneocytes, many of which also stained positive for nucleic acids. These data raise questions about shed corneocyte DNA content previously assumed to be negligible., Competing Interests: Declaration of Competing Interest None., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

22. Electric field down-regulates CD9 to promote keratinocytes migration through AMPK pathway.

Author

Ji R, Teng M, Zhang Z, Wang W, Zhang Q, Lv Y, Zhang J, and Jiang X

Subjects

Animals, Cell Movement, Cells, Cultured, Down-Regulation, Electric Stimulation methods, Humans, Keratinocytes chemistry, Metabolic Networks and Pathways, Mice, Inbred BALB C, Tetraspanin 29 genetics, AMP-Activated Protein Kinases metabolism, Keratinocytes cytology, Keratinocytes metabolism, Tetraspanin 29 metabolism

Abstract

Endogenous electric field (EF)-directed keratinocytes migration is known to play a key role in the wound re-epithelialization process. Although many molecules and signaling pathways are reported important for directional keratinocytes migration under EF, the underlying mechanism remains unclear. Our previous research found that CD9, a trans-membrane protein, is involved in wound re-epithelialization and CD9 downregulation contributes to keratinocytes migration. In this study, we observed the effect of EF on CD9 expression and keratinocytes migration. The keratinocytes migrated directionally toward the cathode and CD9 expression was down-regulated under EF (200mV/mm). In addition, CD9 overexpression reversed EF-induced migratory speed and the electrotactic response of keratinocytes. Also, we found that EF reduced AMP-activated protein kinase (AMPK) activity. Furthermore, AICAR, an AMPK activator, increased CD9 expression under EF, while compound C, an AMPK inhibitor, decreased CD9 expression in keratinocytes. Our results demonstrate that EF regulates CD9 expression and keratinocytes directional migration, in which AMPK pathway plays an important role., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2020

23. Lipidomic Analysis Reveals Specific Differences between Fibroblast and Keratinocyte Ceramide Profile of Patients with Psoriasis Vulgaris.

Author

Łuczaj W, Wroński A, Domingues P, Domingues MR, and Skrzydlewska E

Subjects

Adult, Case-Control Studies, Ceramides classification, Chromatography, Reverse-Phase, Dermis chemistry, Epidermis chemistry, Female, Fibroblasts chemistry, Humans, Male, Middle Aged, Tandem Mass Spectrometry, Ceramides analysis, Keratinocytes chemistry, Lipidomics methods, Psoriasis metabolism

Abstract

Ceramides are important lipid metabolites for primal skin functions. There is increasing evidence that alteration of the profile and metabolism of ceramides is associated with skin diseases, such as psoriasis vulgaris. Most studies have reported alteration in ceramide content in the stratum corneum, but these have been scarcely reported for other skin layers. In the present work, we aimed to explore changes in the ceramide profile of fibroblasts and keratinocytes in patients with psoriasis vulgaris and healthy subjects. Using the reversed-phase liquid chromatography-quadrupole-time-of-flight-tandem-mass spectrometry (RPLC-QTOF-MS/MS) platform, we identified ceramide containing non-hydroxy fatty acid ([N]), α-hydroxy fatty acid ([A]), and esterified ω-hydroxy fatty acid ([EO]) and 3 sphingoid bases, dihydrosphingosine ([DS]), sphingosine ([S]), and phytosphingosine ([P]). We found that in the keratinocytes of patients with psoriasis, CER[NS], CER[NP], CER[AS], CER[ADS], CER[AP] and CER[EOS] tended to be expressed at higher relative levels, whereas CER[NDS] tended to be expressed with lower levels than in healthy subjects. In the case of fibroblasts, significant differences were observed, mainly in the three ceramide classes (CER[AS], CER[ADS] and CER[EOS]), which were expressed at significantly higher levels in patients with psoriasis. The most significant alteration in the fibroblasts involved elevated levels of CER[EOS] that contained ester-linked fatty acids. Our findings provide insights into the ceramide profile in the dermis and epidermis of patients with psoriasis and contribute for the research in this field, focusing on the role of keratinocyte-fibroblast crosstalk in the development of psoriasis vulgaris., Competing Interests: The authors declare no conflict of interest.

Published

2020

24. The physico-chemistry of adhesions of protein resistant and weak polyelectrolyte brushes to cells and tissues.

Author

Cozens EJ, Kong D, Roohpour N, and Gautrot JE

Subjects

Acrylates chemistry, Animals, Cell Line, Humans, Hydrogen Bonding, Hydrophobic and Hydrophilic Interactions, Methacrylates chemistry, Nylons chemistry, Polyethylene Glycols chemistry, Surface Properties, Swine, Biocompatible Materials chemistry, Gingiva chemistry, Keratinocytes chemistry, Pericardium chemistry, Polyelectrolytes chemistry, Proteins chemistry

Abstract

The non-specific adhesion of polymers and soft tissues is of great interest to the field of biomedical engineering, as it will shed light on some of the processes that regulate interactions between scaffolds, implants and nanoparticles with surrounding tissues after implantation or delivery. In order to promote adhesion to soft tissues, a greater understanding of the relationship between polymer chemistry and nanoscale adhesion mechanisms is required. In this work, we grew poly(dimethylaminoethyl methacrylate) (PDMAEMA), poly(acrylic acid) (PAA) and poly(oligoethylene glycol methacrylate) (POEGMA) brushes from the surface of silica beads, and investigated their adhesion to a variety of substrates via colloidal probe-based atomic force microscopy (AFM). We first characterised adhesion to a range of substrates with defined surface chemistry (self-assembled monolayers (SAMs) with a range of hydrophilicities, charge and hydrogen bonding), before studying the adhesion of brushes to epithelial cell monolayers (primary keratinocytes and HaCaT cells) and soft tissues (porcine epicardium and keratinized gingiva). Adhesion assays to SAMs reveal the complex balance of interactions (electrostatic, van der Waals interactions and hydrogen bonding) regulating the adhesion of weak polyelectrolyte brushes. This resulted in particularly strong adhesion of PAA brushes to a wide range of surface chemistries. In turn, colloidal probe microscopy on cell monolayers highlighted the importance of the glycocalyx in regulating non-specific adhesions. This was also reflected by the adhesive properties of soft tissues, in combination with their mechanical properties. Overall, this work clearly demonstrates the complex nature of interactions between polymeric biomaterials and biological samples and highlights the need for relatively elaborate models to predict these interactions.

Published

2020

25. Genetic Modification of Human Primary Keratinocytes by Lentiviral Vectors.

Author

Freije A, Sanz-Gómez N, and Gandarillas A

Subjects

3T3 Cells, Animals, Calcium metabolism, Coculture Techniques, Culture Media chemistry, Feeder Cells cytology, Humans, Keratinocytes chemistry, Lentivirus genetics, Mice, Transduction, Genetic, Keratinocytes cytology, Lentivirus physiology, Primary Cell Culture methods

Abstract

Keratinocytes are hard to transfect. Viral vectors are a good alternative to genetically modify primary keratinocytes. A classical method is the use of retroviral vectors by co-culture of keratinocytes with virus-producer cells. This method is efficient in high-calcium conditions with feeder cells. However, sometimes co-culture is not possible and is more laborious as producer cells need to be replaced by feeder cells. Our solution is the use of lentiviral vectors, far more efficient as supernatant on keratinocytes. In this chapter we describe improved detailed protocols for stable genetic modification of human primary keratinocytes of the skin or head and neck, in both low- and high-calcium conditions by lentiviral vectors.

Published

2020

26. CXCL14 downregulation in human keratinocytes is a potential biomarker for a novel in vitro skin sensitization test.

Author

Lee E, Ahn S, Jin SH, Lee M, Pyo JJ, Shin JC, An S, Ha J, and Noh M

Subjects

Biomarkers analysis, Blotting, Western, Catechols pharmacology, Cells, Cultured, Chemokines, CXC metabolism, Dermatitis, Contact diagnosis, Dermatitis, Contact metabolism, Down-Regulation drug effects, Enzyme-Linked Immunosorbent Assay, Humans, In Vitro Techniques, Keratinocytes chemistry, Keratinocytes drug effects, Oligonucleotide Array Sequence Analysis, Real-Time Polymerase Chain Reaction, Sodium Dodecyl Sulfate pharmacology, Chemokines, CXC analysis, Keratinocytes metabolism, Skin Tests methods

Abstract

To elucidate the roles of epidermal keratinocytes in the toxicological outcomes of chemically induced contact dermatitis, genome-scale transcriptional analyses were performed using normal human keratinocytes (NHKCs) treated with 10 μM sodium lauryl sulfate (SLS) or 5 μM urushiol. In Gene Ontology (GO) enrichment analyses, SLS- and urushiol-induced upregulated DEGs are commonly associated with the regulation of pro-inflammatory responses and epidermal differentiation processes in NHKCs whereas cellular protein metabolic process was also identified as a commonly downregulated DEG signature. Among the downregulated DEGs, CXCL14 was investigated as a potential biomarker for a new in vitro skin sensitization test using OECD TG429 reference chemicals. CXCL14 was significantly downregulated in NHKCs in response to 62.5% of the OECD TG429 sensitizers in a concentration-dependent manner. When the sensitizer-induced upregulation of chemokine CXCL8 was included in the analysis, 87.5% of the OECD TG429 reference sensitizing chemicals significantly induced either CXCL8 upregulation or CXCL14 downregulation in NHKCs. Only one OECD TG429 reference non-sensitizer changed the constitutive CXCL14 expression in NHKCs whereas five out of six non-sensitizers altered CXCL8 production. The reference irritating non-sensitizer SLS caused a false-positive outcome. The downregulation of constitutively expressed CXCL14 was regulated by both the MAPK/ERK and JAK3/STAT6 pathways in NHKCs. CXCL14 can be used as a mechanism-based biomarker in the development of in vitro skin sensitization tests and may help improve the distinction between allergenic sensitizers and non-sensitizers., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

27. Raman Trapping Microscopy for Non-invasive Analysis of Biological Samples.

Author

Yosef HK and Schütze K

Subjects

Cells, Cultured, Humans, Microscopy instrumentation, Skin chemistry, Software, Spectrum Analysis, Raman instrumentation, Fibroblasts chemistry, Keratinocytes chemistry, Melanocytes chemistry, Microscopy methods, Spectrum Analysis, Raman methods

Abstract

Raman microscopy is an emerging tool in biomedicine. It provides label-free and non-invasive analysis of biological cells. Due to its high biochemical specificity, Raman spectroscopy can be used to acquire spectral fingerprints that allow characterizing cells types and states. Here, we present a methodological approach for implementing Raman microscopy in skin cell measurements. Raman spectra can clearly identify keratinocytes, fibroblasts, and melanocytes cells that are involved in the production of autologous skin grafts. Consequently, Raman microscopy is a promising tool that can be used to analyze single cells and to test the quality of therapeutic cell products.

Published

2020

28. Anti-Wrinkle Benefits of Peptides Complex Stimulating Skin Basement Membrane Proteins Expression.

Author

Jeong S, Yoon S, Kim S, Jung J, Kor M, Shin K, Lim C, Han HS, Lee H, Park KY, Kim J, Chung HJ, and Kim HJ

Subjects

Adult, Autoantigens analysis, Cell Line, Collagen Type I analysis, Female, Humans, Keratinocytes chemistry, Keratinocytes cytology, Laminin analysis, Middle Aged, Non-Fibrillar Collagens analysis, Skin chemistry, Skin cytology, Collagen Type XVII, Basement Membrane drug effects, Keratinocytes drug effects, Peptides pharmacology, Skin drug effects, Skin Aging drug effects

Abstract

The dermal-epidermal junction (DEJ) provides a physical and biological interface between the epidermis and the dermis. In addition to providing a structural integrity, the DEJ also acts as a passageway for molecular transport. Based on the recently reported importance of the DEJ in skin aging, novel peptide derivatives have been tested for their effects on basement membrane (BM) protein expressions in cultured human epidermal keratinocytes. As a result, protein expressions of collagen XVII, laminin and nidogen were stimulated by the test peptide and peptides complex. Further ex vivo evaluation using excised human skin, confirmed that the topical application of the peptides complex significantly increased dermal collagen expression, as well as expressions of collagen XVII and laminin. Interestingly, while the origin of the laminin protein is epidermal keratinocytes, the immunohistochemical staining of skin showed that laminin was only detected in the uppermost layer of the dermis, which suggests a tight assembly of laminin protein onto the dermal side of the DEJ. These results suggest that a peptide complex could improve the structural properties of the DEJ through its ability to stimulate BM proteins. In order to evaluate the anti-wrinkle benefits of the peptide complex in vivo, a clinical study was performed on 22 healthy Asian female volunteers older than 40 years. As a result, significant improvements in skin wrinkles for all of the five sites were observed after two weeks, as assessed by skin topographic measurements. Collectively, these results demonstrate the anti-aging efficacy of the peptides complex.

Published

2019

29. DNA Damage Response After Ionizing Radiation Exposure in Skin Keratinocytes Derived from Human-Induced Pluripotent Stem Cells.

Author

Miyake T, Shimada M, Matsumoto Y, and Okino A

Subjects

Antigens, CD metabolism, Antigens, Surface metabolism, Biomarkers analysis, Cell Differentiation, Cyclin-Dependent Kinase Inhibitor p16 metabolism, Cyclin-Dependent Kinase Inhibitor p21 metabolism, DNA Damage, Gamma Rays, Histones analysis, Humans, Keratin-14 analysis, Keratinocytes chemistry, Keratinocytes physiology, Membrane Proteins analysis, Receptors, Transferrin metabolism, Tumor Suppressor p53-Binding Protein 1 analysis, Cellular Senescence, DNA Breaks, Double-Stranded, DNA Repair, Induced Pluripotent Stem Cells cytology, Keratinocytes radiation effects

Abstract

Purpose: Epidermal cells are positioned on the body surface and thus risk being exposed to genotoxic stress, including ionizing radiation (IR), ultraviolet rays, and chemical compounds. The biological effect of IR on the skin tissue is a significant problem for medical applications such as radiation therapy. Keratinocyte stem cells and progenitors are at risk for IR-dependent tumorigenesis during radiation therapy for cancer treatment. To elucidate the molecular mechanism of genome stability in epidermal cells, we derived skin keratinocytes from human-induced pluripotent stem cells (iPSCs) and analyzed their DNA damage response (DDR)., Methods and Materials: Skin keratinocytes were derived from iPSCs and designated as first- (P1), second- (P2), and third- (P3) passage cells to compare the differentiation states of DDR. After 2 Gy gamma-ray exposure, cells were immunostained with DNA double-strand break markers γ-H2AX/53BP1 and cell senescence markers p16/p21 for DDR analysis. DDR protein expression level, cell survival, and apoptosis were analyzed by western blotting, WST-8 assay and TUNEL assay, respectively. DDR of constructed 3D organoid modeling was also analyzed., Results: P1, P2, and P3 keratinocytes were characterized with keratinocyte markers keratin 14 and p63 using immunofluorescence, and all cells were positive to both markers. Derived keratinocytes showed high expression of integrin α6 and CD71 (real-time (qRT)-PCR ratio: iPSCs: integrin α6: 1.12, CD71: 1.25, P1: integrin α6: 7.80, CD71: 0.43, P2: integrin α6: 5.53, CD71: 0.48), suggesting that P1 and P2 keratinocytes have potential as keratinocyte progenitors. Meanwhile, P3 keratinocytes showed low expression of integrin α6 and CD71 (qRT-PCR ratio: P3: integrin α6: 0.55, CD71: 0.10), suggesting differentiated keratinocytes. After IR exposure, the P1 and P2 keratinocytes showed an increase in DNA repair activity by a γ-H2AX/53BP1 focus assay (P1: γ-H2AX: 28.0%, 53BP1: 17.0%, P2: γ-H2AX: 37.7%, 53BP1: 28.3%) but not in P3 keratinocytes (P3: γ-H2AX: 74.7%, 53BP1: 63.7%) compared with iPSCs (γ-H2AX: 57.0%, 53BP1: 55.0%). Furthermore, in derived keratinocytes, expression of the cellular senescence markers p16 and p21 were increased compared with iPSCs (P16: non irradiated, iPSCs: 0%, P1: 12.5%, P2: 14.5%, P3: 29.7%, IR, iPSCs: 0%, P1: 19.5%, P2: 34.8%, P3: 64.5%). DDR protein expression, cellular sensitivity, and apoptosis activity decreased in derived keratinocytes compared with iPSCs., Conclusions: We have demonstrated the derivation of keratinocytes from iPSCs and their characterization of differentiated states and DDR. Derived keratinocytes showed progenitors like character as a result of DDR. These results suggest that derived keratinocytes are useful tools for analyzing the effects of IR, such as DDR on the skin tissue from radiation therapy for cancer., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

30. New generation of nitric oxide-releasing porous materials: Assessment of their potential to regulate biological functions.

Author

Pinto RV, Fernandes AC, Antunes F, Lin Z, Rocha J, Pires J, and Pinto ML

Subjects

Adsorption, Biocompatible Materials chemistry, Cell Movement, Cells, Cultured, HeLa Cells, Humans, Keratinocytes chemistry, Mitochondria chemistry, Nitric Oxide chemistry, Particle Size, Surface Properties, Biocompatible Materials metabolism, Keratinocytes metabolism, Mitochondria metabolism, Nitric Oxide metabolism, Porosity

Abstract

Nitric oxide (NO) presents innumerable biological roles, and its exogenous supplementation for therapeutic purposes has become a necessity. Some nanoporous materials proved to be potential vehicles for NO with high storage capacity. However, there is still a lack of information about their efficiency to release controlled NO and if they are biocompatible and biologically stable. In this work, we address this knowledge gap starting by evaluating the NO release and stability under biological conditions and their toxicity with primary keratinocyte cells. Titanosilicates (ETS-4 and ETS-10 types) and clay-based materials were the materials under study, which have shown in previous studies suitable NO gas adsorption/release rates. ETS-4 proved to be the most promising material, combining good biocompatibility at 180 μg/mL, stability and slower NO release. ETS-10 and ETAS-10 showed the best biocompatibility at the same concentration and, in the case of clay-based materials, CoOS is the least toxic of those tested and the one that releases the highest NO amount. The potentiality of these new NO donors to regulate biological functions was assessed next by controlling the mitochondrial respiration and the cell migration. NO-loaded ETS-4 regulates O 2 consumption and cell migration in a dose-dependent manner. For cell migration, a biphasic effect was observed in a narrow range of ETS-4 concentration, with a stimulatory effect becoming inhibitory just by doubling ETS-4 concentration. For the other materials, no effective regulation was achieved, which highlights the relevance of the new assessment presented in this work for nanoporous NO carriers that will pave the way for further developments., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

31. Tissue-Specific Gene Expression during Productive Human Papillomavirus 16 Infection of Cervical, Foreskin, and Tonsil Epithelium.

Author

Chatterjee S, Do Kang S, Alam S, Salzberg AC, Milici J, van der Burg SH, Freeman W, and Meyers C

Subjects

Cell Differentiation, Cell Line, Tumor, Cervix Uteri chemistry, Cervix Uteri cytology, Female, Foreskin chemistry, Foreskin cytology, Gene Expression Regulation, Neoplastic, Gene Regulatory Networks, Human papillomavirus 16 genetics, Humans, Keratinocytes chemistry, Keratinocytes cytology, Keratinocytes virology, Male, Microarray Analysis, Organ Specificity, Palatine Tonsil chemistry, Palatine Tonsil cytology, Papillomavirus Infections virology, Signal Transduction, Virus Replication, Cervix Uteri virology, Foreskin virology, Gene Expression Profiling methods, Human papillomavirus 16 pathogenicity, Palatine Tonsil virology, Papillomavirus Infections genetics

Abstract

Epidemiological data confirm a much higher incidence of high-risk human papillomavirus 16 (HPV16)-mediated carcinogenesis of the cervical epithelium than for other target sites. In order to elucidate tissue-specific responses to virus infection, we compared gene expression changes induced by productive HPV16 infection of cervical, foreskin, and tonsil organotypic rafts. These rafts closely mimic persistent HPV16 infection, long before carcinogenesis sets in. The total number of gene expression changes varied considerably across the tissue types, with only 32 genes being regulated in common. Among them, we confirmed the Kelch-like family protein KLHL35 and the laminin-5 complex to be upregulated and downregulated, respectively, in all the three tissues. HPV16 infection induces upregulation of genes involved in cell cycle control, cell division, mitosis, DNA replication, and DNA damage repair in all the three tissues, indicative of a hyperproliferative environment. In the cervical and tonsil epithelium, we observe significant downregulation of genes involved in epidermis development, keratinocyte differentiation, and extracellular matrix organization. On the other hand, in HPV16-positive foreskin (HPV16 foreskin) tissue, several genes involved in interferon-mediated innate immunity, cytokine signaling, and cellular defenses were downregulated. Furthermore, pathway analysis and experimental validations identified important cellular pathways like STAT1 and transforming growth factor β (TGF-β) to be differentially regulated among the three tissue types. The differential modulation of important cellular pathways like TGF-β1 and STAT1 can explain the sensitivity of tissues to HPV cancer progression. IMPORTANCE Although the high-risk human papillomavirus 16 infects anogenital and oropharyngeal sites, the cervical epithelium has a unique vulnerability to progression of cancer. Host responses during persistent infection and preneoplastic stages can shape the outcome of cancer progression in a tissue-dependent manner. Our study for the first time reports differential regulation of critical cellular functions and signaling pathways during productive HPV16 infection of cervical, foreskin, and tonsil tissues. While the virus induces hyperproliferation in infected cells, it downregulates epithelial differentiation, epidermal development, and innate immune responses, according to the tissue type. Modulation of these biological functions can determine virus fitness and pathogenesis and illuminate key cellular mechanisms that the virus employs to establish persistence and finally initiate disease progression., (Copyright © 2019 American Society for Microbiology.)

Published

2019

32. Sulfate-based lipids: Analysis of healthy human fluids and cell extracts.

Author

Dias IHK, Ferreira R, Gruber F, Vitorino R, Rivas-Urbina A, Sanchez-Quesada JL, Vieira Silva J, Fardilha M, de Freitas V, and Reis A

Subjects

Body Fluids chemistry, Erythrocytes chemistry, Fibroblasts chemistry, Humans, Keratinocytes chemistry, Neutrophils chemistry, Lipids analysis, Lipids chemistry, Sulfates analysis

Abstract

Sulfate-based lipids (SL) have been proposed as players in inflammation, immunity and infection. In spite of the many biochemical processes linked to SL, analysis on this class of lipids has only focused on specific SL sub-classes in individual fluids or cells leaving a range of additional SL in other biological samples unaccounted for. This study describes the mass spectrometry screening of SL in lipid extracts of human fluids (saliva, plasma, urine, seminal fluid) and primary human cells (RBC, neutrophils, fibroblasts and skin epidermal) using targeted precursor ion scanning (PIS) approach. The PIS 97 mass spectra reveal a wide diversity of SL including steroid sulfates, sulfoglycolipids and other unidentified SL, as well as metabolites such as taurines, sulfated polyphenols and hypurate conjugates. Semi-quantification of SL revealed that plasma exhibited the highest content of SL whereas seminal fluid and epithelial cells contained the highest sulphur to phosphorous (S/P) ratio. The complexity of biofluids and cells sulfateome presented in this study highlight the importance of expanding the panel of synthetic sulfate-based lipid standards. Also, the heterogenous distribution of SL provides evidence for the interplay of sulfotransferases/sulfatases, opening new avenues for biomarker discovery in oral health, cardiovascular, fertility and dermatology research areas., (Crown Copyright © 2019. Published by Elsevier B.V. All rights reserved.)

Published

2019

33. Combined quantification of intracellular (phospho-)proteins and transcriptomics from fixed single cells.

Author

Gerlach JP, van Buggenum JAG, Tanis SEJ, Hogeweg M, Heuts BMH, Muraro MJ, Elze L, Rivello F, Rakszewska A, van Oudenaarden A, Huck WTS, Stunnenberg HG, and Mulder KW

Subjects

Cell Differentiation, Cells, Cultured, Gene Expression Profiling methods, Gene Expression Regulation, Humans, Keratinocytes chemistry, Phosphorylation, Proteomics methods, Quinazolines pharmacology, Tissue Fixation, Tyrphostins pharmacology, Focal Adhesion Kinase 1 genetics, Focal Adhesion Kinase 1 metabolism, Keratinocytes cytology, Single-Cell Analysis methods

Abstract

Environmental stimuli often lead to heterogeneous cellular responses and transcriptional output. We developed single-cell RNA and Immunodetection (RAID) to allow combined analysis of the transcriptome and intracellular (phospho-)proteins from fixed single cells. RAID successfully recapitulated differentiation-state changes at the protein and mRNA level in human keratinocytes. Furthermore, we show that differentiated keratinocytes that retain high phosphorylated FAK levels, a feature associated with stem cells, also express a selection of stem cell associated transcripts. Our data demonstrates that RAID allows investigation of heterogeneous cellular responses to environmental signals at the mRNA and phospho-proteome level.

Published

2019

34. Soft-tissue evidence for homeothermy and crypsis in a Jurassic ichthyosaur.

Author

Lindgren J, Sjövall P, Thiel V, Zheng W, Ito S, Wakamatsu K, Hauff R, Kear BP, Engdahl A, Alwmark C, Eriksson ME, Jarenmark M, Sachs S, Ahlberg PE, Marone F, Kuriyama T, Gustafsson O, Malmberg P, Thomen A, Rodríguez-Meizoso I, Uvdal P, Ojika M, and Schweitzer MH

Subjects

Adaptation, Physiological, Adipose Tissue anatomy & histology, Adipose Tissue chemistry, Animals, Dermis anatomy & histology, Dermis chemistry, Dolphins, Epidermis anatomy & histology, Epidermis chemistry, Female, Keratinocytes chemistry, Lipids analysis, Male, Melanins analysis, Melanophores chemistry, Porpoises, Proteins analysis, Biological Evolution, Body Temperature Regulation, Dinosaurs anatomy & histology, Dinosaurs physiology, Fossils, Homeostasis

Abstract

Ichthyosaurs are extinct marine reptiles that display a notable external similarity to modern toothed whales. Here we show that this resemblance is more than skin deep. We apply a multidisciplinary experimental approach to characterize the cellular and molecular composition of integumental tissues in an exceptionally preserved specimen of the Early Jurassic ichthyosaur Stenopterygius. Our analyses recovered still-flexible remnants of the original scaleless skin, which comprises morphologically distinct epidermal and dermal layers. These are underlain by insulating blubber that would have augmented streamlining, buoyancy and homeothermy. Additionally, we identify endogenous proteinaceous and lipid constituents, together with keratinocytes and branched melanophores that contain eumelanin pigment. Distributional variation of melanophores across the body suggests countershading, possibly enhanced by physiological adjustments of colour to enable photoprotection, concealment and/or thermoregulation. Convergence of ichthyosaurs with extant marine amniotes thus extends to the ultrastructural and molecular levels, reflecting the omnipresent constraints of their shared adaptation to pelagic life.

Published

2018

35. Perfusable and stretchable 3D culture system for skin-equivalent.

Author

Mori N, Morimoto Y, and Takeuchi S

Subjects

Bioprinting instrumentation, Cell Culture Techniques instrumentation, Cell Differentiation, Cells, Cultured, Dermis chemistry, Dermis cytology, Dermis metabolism, Elasticity, Fibroblasts chemistry, Fibroblasts cytology, Fibroblasts metabolism, Humans, Keratinocytes cytology, Keratinocytes metabolism, Oxygen metabolism, Printing, Three-Dimensional instrumentation, Skin cytology, Skin metabolism, Bioprinting methods, Cell Culture Techniques methods, Keratinocytes chemistry, Skin chemistry

Abstract

This study describes a perfusable and stretchable culture system for a skin-equivalent. The system is comprised of a flexible culture device equipped with connections that fix vascular channels of the skin-equivalent and functions as an interface for an external pump. Furthermore, a stretching apparatus for the culture device can be fabricated using rapid prototyping technologies, which allows for easy modifications of stretching parameters. When cultured under dynamically stretching and perfusion conditions, the skin-equivalent exhibits improved morphology. The epidermal layer becomes thicker and more differentiated than that cultured without the stretching stimuli or under statically-stretched conditions, and the dermal layer was more densely populated with dermal fibroblasts than that cultured without perfusion due to the nutrient and oxygen supply by perfusion via the vascular channels. Therefore, the system is useful for the improvement and biological studies of skin-equivalents.

Published

2018

36. Changes in nano-mechanical properties of human epidermal cornified cells depending on their proximity to the skin surface.

Author

Milani P, Chlasta J, Abdayem R, Kezic S, and Haftek M

Subjects

Aging genetics, Aging pathology, Cell Differentiation genetics, Epidermal Cells ultrastructure, Epidermis ultrastructure, Humans, Keratinocytes chemistry, Keratinocytes ultrastructure, Lipids chemistry, Microscopy, Atomic Force, Skin ultrastructure, Epidermal Cells chemistry, Epidermis chemistry, Skin chemistry

Abstract

During formation of the stratum corneum (SC) barrier, terminally differentiated keratinocytes continue their maturation process within the dead superficial epidermal layer. Morphological studies of isolated human corneocytes have revealed differences between cornified envelopes purified from the deep and superficial SC. We used atomic force microscopy to measure the mechanical properties of native human corneocytes harvested by tape-stripping from different SC depths. Various conditions of data acquisition have been tested and optimized, in order to obtain exploitable and reproducible results. Probing at 200 nN allowed us to investigate the total stiffness of the cells (at 50 nm indentation) and that of the cornified envelopes (at 10 to15 nm), and lipid envelopes (at 5 to 10 nm). The obtained data indicated statistically significant differences between the superficial (more rigid) and deep (softer) corneocytes, thus confirming the existence of depth and maturation-related morphological changes within the SC. The proposed approach can be potentially used for minimally invasive evaluation of various skin conditions such as aging, skin hydration, and pathologies linked to SC., (Copyright © 2018 John Wiley & Sons, Ltd.)

Published

2018

37. Hyaluronan metabolism enhanced during epidermal differentiation is suppressed by vitamin C.

Author

Hämäläinen L, Kärkkäinen E, Takabe P, Rauhala L, Bart G, Kärnä R, Pasonen-Seppänen S, Oikari S, Tammi MI, and Tammi RH

Subjects

Animals, Cell Differentiation drug effects, Cell Line, Epidermis chemistry, Epidermis metabolism, Gene Expression Profiling, Hyaluronan Receptors genetics, Hyaluronan Receptors metabolism, Hyaluronan Synthases genetics, Hyaluronan Synthases metabolism, Hyaluronic Acid analysis, Hyaluronoglucosaminidase genetics, Hyaluronoglucosaminidase metabolism, Keratinocytes chemistry, Keratinocytes metabolism, RNA, Small Interfering metabolism, Rats, Up-Regulation drug effects, Ascorbic Acid pharmacology, Epidermis drug effects, Hyaluronic Acid metabolism, Keratinocytes drug effects

Abstract

Background: Hyaluronan is a large, linear glycosaminoglycan present throughout the narrow extracellular space of the vital epidermis. Increased hyaluronan metabolism takes place in epidermal hypertrophy, wound healing and cancer. Hyaluronan is produced by hyaluronan synthases and catabolized by hyaluronidases, reactive oxygen species and KIAA1199., Objectives: To investigate the changes in hyaluronan metabolism during epidermal stratification and maturation, and the impact of vitamin C on these events., Methods: Hyaluronan synthesis and expression of the hyaluronan-related genes were analysed during epidermal maturation from a simple epithelium to a fully differentiated epidermis in organotypic cultures of rat epidermal keratinocytes using quantitative reverse transcriptase polymerase chain reaction, immunostaining and Western blotting, in the presence and absence of vitamin C., Results: With epidermal stratification, both the production and the degradation of hyaluronan were enhanced, resulting in an increase of hyaluronan fragments of various sizes. While the mRNA levels of Has3 and KIAA1199 remained stable during the maturation, Has1, Has2 and Hyal2 showed a transient upregulation during stratification, Hyal1 transcription remained permanently increased and transcription of the hyaluronan receptor, Cd44, decreased. At maturation, vitamin C downregulated Has2, Hyal2 and Cd44, whereas it increased high-molecular-mass hyaluronan in the epidermis, and reduced small fragments in the medium, suggesting stabilization of epidermal hyaluronan., Conclusions: Epidermal stratification and maturation is associated with enhanced hyaluronan turnover, and release of large amounts of hyaluronan fragments. The high turnover is suppressed by vitamin C, which is suggested to enhance normal epidermal differentiation in part through its effect on hyaluronan., (© 2018 British Association of Dermatologists.)

Published

2018

38. Mechanistic-based non-animal assessment of eye toxicity: Inflammatory profile of human keratinocytes cells after exposure to eye damage/irritant agents.

Author

da Silva ACG, Chialchia AR, de Ávila RI, and Valadares MC

Subjects

Biological Assay standards, Cell Line, Cytokines analysis, Enzyme-Linked Immunosorbent Assay, Humans, Inflammation chemically induced, Inhibitory Concentration 50, Keratinocytes chemistry, Models, Biological, Animal Testing Alternatives methods, Animal Testing Alternatives standards, Irritants toxicity, Keratinocytes drug effects, Toxicity Tests, Acute methods, Toxicity Tests, Acute standards

Abstract

Eye toxicity is a mandatory parameter in human risk and safety evaluation for products including chemicals, pesticides, medicines and cosmetics. Historically, this endpoint has been evaluated using the Draize rabbit eye test, an in vivo model that was never formally validated. Due to advances in scientific knowledge, economic and ethical issues, non-animal methods based on mechanisms of toxicity are being developed and validated for increasing the capability of these models to predict eye toxicity. In this study, the Cytometric Bead Array (CBA) and ELISA assays were used to evaluate the inflammatory cytokine profile produced by HaCaT human keratinocytes after exposure to chemicals with different UN GHS eye toxicity classifications, aiming to stablish a correlation between inflammatory endpoints and eye toxicity (damage/irritation) potential. As a first step, cytotoxic profile of the chemicals, including 3 non-irritants and 10 eye toxicants (GHS Category 1, 2A and 2B), was evaluated after 24 h exposure using MTT assay and Inhibitory Concentration of 20% of cell viability (IC 20 ) was calculated for each chemical. Then, the cells were exposed to these chemicals at IC 20 for 24 h and supernatants and cell lysates were analyzed by CBA assay for quantification of the following cytokines: IL-6, IL-8, IL-10, IL-1β, TNF and IL-12p70. Regarding cytotoxicity evaluation, chemicals showed different cytotoxicity profiles and data demonstrated no correlation with their UN GHS classification. Among the cytokines evaluated, IL-1β production has changed after exposure and such alterations were confirmed by quantification employing ELISA method. The higher intracellular levels of IL-1β were found in GHS Category 1 chemicals, followed by Category 2A and 2B, while non irritants did not induce such increase. Thus, these findings show that IL-1β measurement, using HaCaT model, can be a considerable biomarker to identify chemicals according to their potential in promote eye toxicity, differentiating damage from irritation potential., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

39. Non-Invasive Immunofluorescence Assessment of Lycopene Supplementation Status in Skin Smears.

Author

Petyaev IM, Zigangirova NA, Pristensky D, Chernyshova M, Tsibezov VV, Chalyk NE, Morgunova EY, Kyle NH, and Bashmakov YK

Subjects

Adult, Carotenoids administration & dosage, Carotenoids pharmacokinetics, Chromatography, High Pressure Liquid, Female, Healthy Volunteers, Humans, Keratinocytes chemistry, Keratinocytes cytology, Keratinocytes drug effects, Lycopene, Male, Pilot Projects, Prospective Studies, Reproducibility of Results, Sebum chemistry, Sebum drug effects, Sensitivity and Specificity, Skin cytology, Skin drug effects, Antibodies, Monoclonal chemistry, Carotenoids analysis, Dietary Supplements, Fluorescent Antibody Technique methods, Skin chemistry, Skin Tests

Abstract

Circulating lycopene level is negatively associated with the prevalence of cardiovascular disease, cancers (prostate and breast), type 2 diabetes mellitus, and aging. Traditionally, lycopene is measured in biological specimens by a combination of high-performance liquid chromatography (HPLC) and mass spectrometry methods. Moreover, as we recently reported, tissue/cell lycopene depositions can be observed by the immunohistochemistry method with a newly developed monoclonal antibody (mAb) against lycopene. A main objective of this study is to evaluate the performance of a new noninvasive immunofluorescence (IF) lycopene quantification skin test with mAbs against lycopene versus HPLC lycopene assay of serum lycopene in volunteers subjected to lycopene supplementation which represents a novel approach to lycopene measurement methodology. For this purpose, 32 healthy volunteers, 30-40 years old, were supplemented with lycopene (n = 15) or placebo (n = 17) for a period of 4 weeks. It was found that lycopene supplementation leads to a significant increase in serum lycopene concentration after 2 and 4 weeks by 2.6- and 3.4-fold over control, respectively. This was accompanied by a concordant step-wise rise in IF staining of skin corneocytes and sebum, quantifiable by arbitrary IF scores. Placebo supplementation did not affect serum lycopene values or intensity of IF staining of the skin samples. There was 86.6% agreement in paired HPLC/IF variants for the intermediate time point and 80.0% agreement at the end of the study in the lycopene group. Intraclass correlation between paired values in this group was +0.49 for the 2-week time point and +0.63 for the end point. These results indicate that the new antibody-based skin assay can be used for rapid detection of lycopene deficiencies. Moreover, the noninvasive nature of the skin swab test would allow using it to monitor, optimize, and personalize lycopene supplementation protocol of risk groups in the general population.

Published

2018

40. Tissue stiffening promotes keratinocyte proliferation through activation of epidermal growth factor signaling.

Author

Kenny FN, Drymoussi Z, Delaine-Smith R, Kao AP, Laly AC, Knight MM, Philpott MP, and Connelly JT

Subjects

Biomechanical Phenomena, Epidermis chemistry, Epidermis injuries, Epidermis metabolism, Extracellular Matrix chemistry, Extracellular Matrix metabolism, Humans, Keloid genetics, Keratinocytes chemistry, Signal Transduction, Skin chemistry, Skin cytology, Skin metabolism, Cell Proliferation, Epidermal Growth Factor metabolism, Keloid metabolism, Keratinocytes cytology, Keratinocytes metabolism

Abstract

Tissue biomechanics regulate a wide range of cellular functions, but the influences on epidermal homeostasis and repair remain unclear. Here, we examined the role of extracellular matrix stiffness on human keratinocyte behavior using elastomeric substrates with defined mechanical properties. Increased matrix stiffness beyond normal physiologic levels promoted keratinocyte proliferation but did not alter the ability to self-renew or terminally differentiate. Activation of epidermal growth factor (EGF) signaling mediated the proliferative response to matrix stiffness and depended on focal adhesion assembly and cytoskeletal tension. Comparison of normal skin with keloid scar tissue further revealed an upregulation of EGF signaling within the epidermis of stiffened scar tissue. We conclude that matrix stiffness regulates keratinocyte proliferation independently of changes in cell fate and is mediated by EGF signaling. These findings provide mechanistic insights into how keratinocytes sense and respond to their mechanical environment, and suggest that matrix biomechanics may play a role in the pathogenesis keloid scar formation., Competing Interests: Competing interestsFiona Kenny has carried out paid consultancy work for Metaphase Ltd., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

41. Novel structural approaches concerning HPV proteins: Insight into targeted therapies for cervical cancer (Review).

Author

Pappa KI, Kontostathi G, Lygirou V, Zoidakis J, and Anagnou NP

Subjects

Epithelium pathology, Epithelium virology, Female, Host-Pathogen Interactions genetics, Human papillomavirus 16 genetics, Human papillomavirus 16 pathogenicity, Human papillomavirus 18 genetics, Human papillomavirus 18 pathogenicity, Humans, Keratinocytes chemistry, Keratinocytes virology, Precancerous Conditions genetics, Precancerous Conditions pathology, Precancerous Conditions virology, Structure-Activity Relationship, Uterine Cervical Neoplasms pathology, Uterine Cervical Neoplasms virology, Viral Proteins genetics, Human papillomavirus 16 chemistry, Human papillomavirus 18 chemistry, Uterine Cervical Neoplasms genetics, Viral Proteins chemistry

Abstract

Cervical cancer incidence is tightly linked to HPV infection, and particularly virus types 16 and 18 cause the majority of cases presenting with pre-cancerous stages of cervical intraepithelial neoplasia (CIN). Structural and functional information concerning HPV proteins can offer novel insight into the mechanism(s) of cancer progression in the cervical epithelium. Recently, novel structural determinants of the interactions of viral proteins with their targets in keratinocytes have been elucidated. These exciting findings open the way for the development of targeted anti-oncogenic therapies, and may eventually allow the introduction of novel approaches for a rational cervical cancer treatment.

Published

2018

42. Development of a bacterial cellulose-based hydrogel cell carrier containing keratinocytes and fibroblasts for full-thickness wound healing.

Author

Loh EYX, Mohamad N, Fauzi MB, Ng MH, Ng SF, and Mohd Amin MCI

Subjects

Animals, Bacteria chemistry, Cell Adhesion, Cell Movement, Cell Survival, Drug Carriers chemistry, Humans, Mice, Cellulose chemistry, Fibroblasts chemistry, Fibroblasts cytology, Hydrogels chemistry, Keratinocytes chemistry, Keratinocytes cytology, Wound Healing

Abstract

Bacterial cellulose (BC)/acrylic acid (AA) hydrogel has successfully been investigated as a wound dressing for partial-thickness burn wound. It is also a promising biomaterial cell carrier because it bears some resemblance to the natural soft tissue. This study assessed its ability to deliver human epidermal keratinocytes (EK) and dermal fibroblasts (DF) for the treatment of full-thickness skin lesions. In vitro studies demonstrated that BC/AA hydrogel had excellent cell attachment, maintained cell viability with limited migration, and allowed cell transfer. In vivo wound closure, histological, immunohistochemistry, and transmission electron microscopy evaluation revealed that hydrogel alone (HA) and hydrogel with cells (HC) accelerated wound healing compared to the untreated controls. Gross appearance and Masson's trichrome staining indicated that HC was better than HA. This study suggests the potential application of BC/AA hydrogel with dual functions, as a cell carrier and wound dressing, to promote full-thickness wound healing.

Published

2018

43. The mechanism of skin lipids influencing skin status.

Author

Jia Y, Gan Y, He C, Chen Z, and Zhou C

Subjects

Humans, Keratinocytes chemistry, Keratinocytes metabolism, Permeability, Signal Transduction, Skin cytology, Skin microbiology, Sweat Glands cytology, Sweat Glands microbiology, Lipid Metabolism physiology, Lipids chemistry, Microbiota physiology, Skin metabolism, Sweat Glands metabolism

Abstract

Skin lipids, compose of sebocyte-, keratinocyte-, and microbe- derived lipids, dramatically influence skin status by different mechanisms. (I) Physical chemistry function: They are "mortar" to establish the physico-chemical barrier function of skin; (II) Biochemistry function: They function as signals in the complex signaling network originating at the epidermal level; (III) Microecology function: Sebocyte- and keratinocyte-derived lipids vary the composition of microbial skin flora, and microorganisms metabolize them to produce lipids as signal starting signaling transduction. Importantly, further research needs lipidiomics, more powerful analytical ability and high-throughput manner, to identify skin lipid components into individual species. The validation of lipid structure and function to research the process that lipid species involved in. Additional, the integration of lipidomics data with other omics strategies can develop the power to study the mechanism of skin lipids influencing skin status., (Copyright © 2017 Japanese Society for Investigative Dermatology. Published by Elsevier B.V. All rights reserved.)

Published

2018

44. Circulating ANGPTL2 Levels Increase in Humans and Mice Exhibiting Cardiac Dysfunction.

Author

Tian Z, Miyata K, Morinaga J, Horiguchi H, Kadomatsu T, Endo M, Zhao J, Zhu S, Sugizaki T, Sato M, Terada K, Okumura T, Murohara T, and Oike Y

Subjects

Adult, Aged, Angiopoietin-Like Protein 2, Animals, Cardiomyopathy, Dilated blood, Female, Heart Failure prevention & control, Humans, Keratinocytes chemistry, Male, Mice, Mice, Transgenic, Middle Aged, Myocytes, Cardiac metabolism, Angiopoietin-like Proteins blood, Heart Diseases blood, Heart Failure blood

Abstract

Background: Recently, it was reported that angiopoietin-like protein 2 (ANGPTL2) secreted from a pathologically stressed heart accelerates cardiac dysfunction in an autocrine/paracrine manner, and that suppression of ANGPTL2 production in the heart restored cardiac function and myocardial energy metabolism, thereby blocking heart failure (HF) development. Interestingly, circulating ANGPTL2 concentrations reportedly increase in HF patients, suggesting a possible endocrine effect on cardiac dysfunction. However, it remains unclear why circulating ANGPTL2 increases in those subjects and whether circulating ANGPTL2 alters cardiac function in an endocrine manner.Methods and Results:It was found that circulating ANGPTL2 levels are positively correlated with left atrial diameter and pulmonary capillary wedge pressure, and are inversely proportional to the percent of ejection fraction in patients with dilated cardiomyopathy. Furthermore, in mice, circulating ANGPTL2 concentrations increased as HF developed following transverse aorta constriction (TAC), and were inversely correlated with the percent of fractional shortening. Interestingly, although circulating ANGPTL2 concentrations significantly increased in transgenic mice overexpressing keratinocyte-derived ANGPTL2, no pathological cardiac remodeling was seen. Furthermore, it was observed that there was no difference in HF development between transgenic mice and controls following TAC surgery., Conclusions: Circulating ANGPTL2 levels increase in subjects experiencing cardiac dysfunction. However, circulating ANGPTL2 does not promote cardiac dysfunction in an endocrine manner, and increased levels of circulating ANGPTL2 seen during HF are a secondary effect of increased ANGPTL2 secretion from stressed hearts in HF pathologies.

Published

2018

45. C-Terminal Processing of Collagen XVII Induces Neoepitopes for Linear IgA Dermatosis Autoantibodies.

Author

Toyonaga E, Nishie W, Izumi K, Natsuga K, Ujiie H, Iwata H, Yamagami J, Hirako Y, Sawamura D, Fujimoto W, and Shimizu H

Subjects

Animals, Antibodies, Monoclonal chemistry, Autoantibodies chemistry, Autoantibodies immunology, Autoimmune Diseases immunology, Gene Deletion, Humans, Immunoglobulin A immunology, Immunoglobulin G chemistry, Keratinocytes chemistry, Linear IgA Bullous Dermatosis therapy, Mice, Mice, SCID, Mice, Transgenic, Pemphigoid, Bullous immunology, Protein Domains, Recombinant Proteins chemistry, Skin chemistry, Collagen Type XVII, Autoantigens chemistry, Epitopes chemistry, Linear IgA Bullous Dermatosis immunology, Non-Fibrillar Collagens chemistry

Abstract

Transmembrane collagen XVII (COL17) is a hemidesmosomal component of basal keratinocytes that can be targeted by autoantibodies in autoimmune blistering disorders, including linear IgA dermatosis (LAD). COL17 can be physiologically cleaved within the juxtamembranous extracellular NC16A domain, and LAD autoantibodies preferentially react with the processed ectodomains, indicating that the processing induces neoepitopes. However, the details of how neoepitopes develop have not been elucidated. In this study, we show that C-terminal processing of COL17 also plays a role in inducing neoepitopes for LAD autoantibodies. First, the mAb hC17-ect15 targeting the 15th collagenous domain of COL17 was produced, which showed characteristics similar to LAD autoantibodies. The mAbs preferentially reacted with C-terminally deleted (up to 682 amino acids) recombinant COL17, suggesting that C-terminal processing shows neoepitopes on the 15th collagenous domain. The LAD autoantibodies also react with C-terminal deleted COL17. Therefore, neoepitopes for LAD autoantibodies also develop after C-terminal processing. Finally, the passive transfer of the mAb hC17-ect15 into human COL17-expressing transgenic mice failed to induce blistering disease, suggesting that neoepitope-targeting antibodies are not always pathogenic. In summary, this study shows that C-terminal processing induces dynamic structural changes and neoepitopes for LAD autoantibodies on COL17., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

46. Load Adaptation of Lamellipodial Actin Networks.

Author

Mueller J, Szep G, Nemethova M, de Vries I, Lieber AD, Winkler C, Kruse K, Small JV, Schmeiser C, Keren K, Hauschild R, and Sixt M

Subjects

Animals, Cell Membrane chemistry, Keratinocytes chemistry, Microscopy, Electron, Zebrafish, Actin Cytoskeleton chemistry, Actin Cytoskeleton ultrastructure, Keratinocytes ultrastructure, Pseudopodia chemistry, Pseudopodia ultrastructure

Abstract

Actin filaments polymerizing against membranes power endocytosis, vesicular traffic, and cell motility. In vitro reconstitution studies suggest that the structure and the dynamics of actin networks respond to mechanical forces. We demonstrate that lamellipodial actin of migrating cells responds to mechanical load when membrane tension is modulated. In a steady state, migrating cell filaments assume the canonical dendritic geometry, defined by Arp2/3-generated 70° branch points. Increased tension triggers a dense network with a broadened range of angles, whereas decreased tension causes a shift to a sparse configuration dominated by filaments growing perpendicularly to the plasma membrane. We show that these responses emerge from the geometry of branched actin: when load per filament decreases, elongation speed increases and perpendicular filaments gradually outcompete others because they polymerize the shortest distance to the membrane, where they are protected from capping. This network-intrinsic geometrical adaptation mechanism tunes protrusive force in response to mechanical load., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

47. Methotrexate treatment provokes apoptosis of proliferating keratinocyte in psoriasis patients.

Author

Elango T, Thirupathi A, Subramanian S, Ethiraj P, Dayalan H, and Gnanaraj P

Subjects

Adolescent, Adult, Aged, Biopsy, Enzyme-Linked Immunosorbent Assay, Female, Gene Expression Profiling, Humans, Keratinocytes chemistry, Keratinocytes physiology, Male, Middle Aged, Real-Time Polymerase Chain Reaction, Young Adult, Apoptosis drug effects, Dermatologic Agents administration & dosage, Keratinocytes drug effects, Methotrexate administration & dosage, Psoriasis drug therapy, Skin drug effects, Skin pathology

Abstract

Psoriasis is a chronic inflammatory skin disease characterized by hyper proliferation of keratinocytes. Recent data show that the epidermis thickening in psoriasis may be related to imbalance of homeostasis caused by abnormal apoptotic process. Maintenance of keratinocyte apoptotic process is very important in psoriasis. Methotrexate (MTX) has been used for many years to restore the normal skin in psoriasis condition. However, the exact mechanism of MTX in psoriasis condition is poorly understood. The aim of this study was to examine the role of MTX on keratinocyte apoptosis pathway in psoriasis patients. A total of 58 psoriasis vulgaris patients were recruited for this study. Nonlesional skin biopsies served as control. Skin biopsies of psoriatic patients were collected and analyzed for cytosolic, mitochondria and total cytochrome c by ELISA. Expression of caspase-9, NFκBp65, pAkt1 by western blot, real-time PCR and immunohistochemical analysis of c-FLIP protein was analyzed in nonlesional and lesional skin biopsies before (day 0) and after (at the end of 6 and 12 weeks) MTX treatment. After MTX treatment, a significant increase in cytochrome c was observed when compared with before MTX treatment in psoriasis patients (p < 0.001). Protein and gene expression of cleaved caspase-9 were significantly increased after MTX treatment, whereas the expression of Bcl-xL, c-FLIP, NFκBp65, pAkt1 significantly downregulated after MTX treatment. In conclusion, these results showed that intrinsic apoptotic pathway induced by MTX eventually adds the beneficial therapeutic role of MTX in psoriasis by controlling the acanthosis.

Published

2017

48. Opioid Receptors in Psoriatic Skin: Relationship with Itch.

Author

Kupczyk P, Reich A, Hołysz M, Gajda M, Wysokińska E, Kobuszewska A, Nevozhay D, Nowakowska B, Strzadała L, Jagodziński PP, and Szepietowski JC

Subjects

Adult, Aged, Biopsy, Case-Control Studies, Epidermis pathology, Female, Fluorescent Antibody Technique, Humans, Keratinocytes chemistry, Male, Microscopy, Fluorescence, Middle Aged, Pruritus genetics, Pruritus pathology, Psoriasis genetics, Psoriasis pathology, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Receptors, Opioid, kappa genetics, Receptors, Opioid, mu genetics, Sensory Thresholds, Signal Transduction, Young Adult, Epidermis chemistry, Pruritus metabolism, Psoriasis metabolism, Receptors, Opioid, kappa analysis, Receptors, Opioid, mu analysis

Abstract

Psoriasis is an inflammatory immunogenetic skin disease, often accompanied by itch. Opioid receptors are known regulators of itch sensation in the central nervous system. In the brain, μ-opioid receptors may potentiate itch, while activation of κ-opioid receptors may reduce or even alleviate itch; however, the role of opioid receptors in itch perception in the skin is poorly understood. To further elucidate the role of opioid receptors in the neurobiology of psoriatic itch, punch biopsies of non-lesional and lesional skin of patients with psoriasis and healthy controls were studied. Real-time polymerase chain reaction and immunofluorescence microscopy were used to detect opioid receptor genes and protein expression, respectively. The OPRK1/κ-opioid receptor pathway was found to be downregulated in lesional skin of psoriasis, correlating positively with itch sensation. In contrast, the OPRM1/μ-opioid receptor system was uniformly expressed by epidermal keratinocytes in all analysed groups. These findings suggest that imbalance of epidermal opioid receptors may result in disordered neuroepidermal homeostasis in psoriasis, which could potentiate transmission of itch.

Published

2017

49. Cellular interactions of a lipid-based nanocarrier model with human keratinocytes: Unravelling transport mechanisms.

Author

Silva E, Barreiros L, Segundo MA, Costa Lima SA, and Reis S

Subjects

Biological Transport, Cell Membrane chemistry, Cell Membrane physiology, Cells, Cultured, Diffusion, Humans, Liposomes chemistry, Materials Testing, Nanocapsules ultrastructure, Particle Size, Endocytosis physiology, Keratinocytes chemistry, Keratinocytes physiology, Lipids chemistry, Nanocapsules chemistry

Abstract

Knowledge of delivery system transport through epidermal cell monolayer is vital to improve skin permeation and bioavailability. Recently, nanostructured lipid carriers (NLCs) have gained great attention for transdermal delivery due to their biocompatibility, high drug payload, occlusive properties and skin hydration effect. However, the nanocarriers transport related mechanisms in epidermal epithelial cells are not yet understood. In this research, the internalization and transport pathways of the NLCs across the epidermal epithelial cell monolayer (HaCaT cells) were investigated. The 250nm sized witepsol/miglyol NLCs, prepared by hot homogenization had reduced cytotoxicity and no effect on the integrity of cell membrane in human HaCaT keratinocytes. The internalization was time-, concentration- and energy-dependent, and the uptake of NLCs was a vesicle-mediated process by macropinocytosis and clathrin-mediated pathways. 3% of NLCs were found at the apical membrane side of the HaCaT monolayer through exocytosis mechanism. Additionally, the endoplasmic reticulum, Golgi apparatus and microtubules played crucial roles in the transport of NLCs out of HaCaT cells. NLCs were transported intact across the human keratinocytes monolayer, without disturbing the tight junction's structure. From the transcytosis data only approximately 12% of the internalized NLCs were passed from the apical to the basolateral side. The transcytosis of NLCs throughout the HaCaT cell monolayer towards the basolateral membrane side requires the involvement of the endoplasmic reticulum, Golgi apparatus and microtubules. Our findings may contribute to a systematic understanding of NLCs transport across epidermal epithelial cell monolayers and their optimization for clinical transdermal application., Statement of Significance: Transdermal drug delivery is a challenging and growing area of clinical application. Lipid nanoparticles such as nanostructured lipid carriers (NLCs) have gained wide interest for transdermal drug delivery. However these nanocarriers' interactions with epidermal epithelial barrier are yet unknown. Unveiling the mechanisms involved in NLCs transport across the epidermal epithelial monolayers will contribute with valuable information to achieve enhanced skin permeability, superior bioavailability and consequently improved therapeutic effect. With our present work we could certainly provide researchers and clinicians guidance for the design of optimized transdermal delivery systems, based on the nanomaterials and biological interactions., (Copyright © 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2017

50. [Oral mucosa analog allografts in non-consanguineous rats].

Author

González L, Padrón K, Salmen S, Jerez E, Dávila L, and Solórzano E

Subjects

Animals, Fibroblasts, Keratinocytes chemistry, Mouth Mucosa chemistry, Rats, Rats, Sprague-Dawley, Rats, Wistar, Allografts, Keratinocytes cytology, Mouth Mucosa cytology, Tissue Engineering

Abstract

Introduction: Although there are therapeutic options for the treatment of oral mucosa defects, the need for functional, anatomical and aesthetically similar substitutes persists, as well as for solutions to reduce autologous grafts morbidity., Objective: To determine clinical and histological compatibility of equivalent oral mucosa allografts generated through tissue engineering in non-consanguineous rats., Materials and Methods: We used a sample of oral mucosa from Sprague Dawley rats to obtain a fibroblast culture and a keratinocytes and fibroblasts co-culture. In both cases, we used a commercial collagen membrane as "scaffold". After ten weeks of culture, we grafted the resulting membranes into four Wistar rats. The first phase of the study was the development of the oral mucosa equivalents generated by tissue engineering. Then, we implanted them in immunocompetent Wistar rats, and finallywe evaluated the clinical and histological features of the allografts., Results: In vivo evaluation of mucosal substitutes showed a correct integration of artificial oral mucosa in immunocompetent hosts, with an increase in periodontal biotype and the creation of a zone with increased keratinization. Histologically, the tissue was similar to the control oral mucosa sample with no inflammatory reaction nor clinical or histological rejection signs., Conclusion: The equivalent oral mucosa allografts generated by tissue engineering showed clinical and histological compatibility.

Published

2017