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Fibroblast Migration Mediated by the Composition of Tissue Engineered ScaffoldsHoyt, Laurie Christine 01 January 2007 (has links)
Tissue engineered scaffolds were constructed to mimic the native extracellular matrix (ECM) and promote cell migration of keratinocytes and fibroblasts. Electrospinning technology was used to fabricate these nano-scale matrices that consist of varying compositions and fiber diameters. The purpose of this study was to examine how average fiber diameter and scaffold composition regulate cell migration. Odyssey infrared scanning evaluated this on a macroscopic level, whereas confocal microscopy focused on a more microscopic approach. The expression of proteases released into the culture media was also examined. The results from this study suggest that fiber diameter increases as a function of electrospinning starting concentration. Altering the composition by adding a basement membrane-like material, Matrigel, does not statistically affect the average fiber diameter. Fibroblast migration is greater on collagen scaffolds than gelatin scaffolds based on surface area measurements. Confocal images illustrate a distinct cell polarity and various cell morphologies of fibroblasts on electrospun collagen scaffolds. Cell-matrix interactions are more prominent on intermediate to large scale fibers. However, cell-cell contacts are more prevalent at the smallest fiber diameters, suggesting that this scaffold acts like or as a two-dimensional surface. The expression of matrix metalloproteases (MMPs), specifically MMP-2 and MMP-9, by fibroblasts during in vivo cell migration assays, suggests that the greatest amount of matrix remodeling is at the two extremes of fiber diameters.
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The interaction between ceramide-1-phosphate and Group IVA cytosolic phospholipase A2 and its role in wound healingMacKnight, Patrick 01 January 2018 (has links)
The sphingolipid, ceramide-1-phosphate (C1P), directly binds and activates Group IVA cytosolic phospholipase A2 (cPLA2a) to generate eicosanoids. Due to the role of eicosanoids in wound healing, we choose to use our novel genetic mouse model expressing cPLA2a with an ablated C1P interaction site (KI) to examine the cPLA2a/C1P interaction in wound healing. Wound closure rate was not affected, but wound maturation was dramatically enhanced by loss of the C1P/cPLA2α interaction based on the following findings. Wounds in KI mice displayed: i) increased infiltration of dermal fibroblasts into the wound environment; ii) increased wound tensile strength; and iii) higher Type I/Type III collagen ratios. These findings were recapitulated in vitro as primary dermal fibroblasts (pDFs) from KI mice showed significantly increased collagen deposition and migration velocity compared to WT and KO pDFs. Additionally, the KI showed an altered eicosanoid profile of reduced pro-inflammatory prostaglandins (e.g., PGE2) and increased levels of specific HETE species (e.g., 5-HETE). Elevated 5-HETE levels promoted increased dermal fibroblast migration and collagen deposition. This “gain of function” role for the mutant cPLA2a was also linked to differential cellular localization of cPLA2α and 5-HETE biosynthetic factors. These studies demonstrate regulation of key in vivo biological mechanisms by a defined protein:lipid interaction and provide new insights into cPLA2a function.
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Differentiation of Human Dermal Fibroblasts and Applications in Tissue EngineeringSommar, Pehr January 2010 (has links)
Tissue engineering applies principles of biology and engineering to the development of functional substitutes for damaged or lost tissues. Tools for the neo-generation of tissue in tissue engineering research include cells, biomaterials and soluble factors. One main obstacle in tissue engineering is the limited availability of autologous tissue specific progenitor cells. This has led to interest into using autologous cells with stem cell plasticity. Bone marrow derived stem cells were the first adult stem cells shown to have multilineage potential. Since, several reports have been published indicating that cells from other tissues; fat, muscle, connective tissue e.g., possess potential to differentiate into lineages distinct from their tissue of origin. The optimal cell type for use in tissue engineering applications should be easy to obtain, cultivate and store. The human dermal fibroblast is an easily accessible cell source, which after routine cell expansion gives a substantial cell yield from a small skin biopsy. Hence, the dermal fibroblast could be a suitable cell source for tissue engineering applications.The main aim of this thesis was to investigate the differentiation capacity of human dermal fibroblasts, and their possible applications in bone and cartilage tissue engineering applications. Human dermal fibroblasts were shown to differentiate towards adipogenic, chondrogenic, and osteogenic phenotypes upon subjection to specific induction media. Differentiation was seen both in unrefined primary cultures and in clonal populations (paper I). Fibroblasts could be used to create three-dimensional cartilage- and bone like tissue when grown in vitro on gelatin microcarriers in combination with platelet rich plasma (paper II). 4 weeks after in vivo implantation of osteogenic induced fibroblasts into a fracture model in athymic rats, dense cell clusters and viable human cells were found in the gaps, but no visible healing of defects as determined by CT-scanning (paper III). After the induction towards adipogenic, chondrogenic, endotheliogenic and osteogenic lineages, gene expression analysis by microarray and quantitative real-time-PCR found several master regulatory genes important for lineage commitment, as well as phenotypically relevant genes regulated as compared to reference cultures (paper IV). In conclusion, results obtained in this thesis suggest an inherent ability for controllable phenotype alteration of human dermal fibroblasts in vitro. We conclude that dermal fibroblasts could be induced towards adipogenic, chondrogenic, endotheliogenic or osteogenic novel phenotypes which suggest a genetic readiness of differentiated fibroblasts for lineage-specific biological functionality, indicating that human dermal fibroblasts might be a suitable cell source in tissue engineering applications.
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Photo-biomodulation of human skin fibroblast sub-populations : a systematic approach for the optimization of optical treatment parametersMignon, Charles January 2017 (has links)
The thesis presents a rational path for the optimization of the selection of optical treatment parameters in photobiomodulation of human skin fibroblasts. The project begins with an extensive analysis of 90 bibliographic reports in photobiomodulation published between 1985 and 2015, and revealed major inconsistencies in optical parameters selected for clinical applications. Seeking greater clarity for optimal parameter choice, a systematic approach to disentangle the multiple factors underpinning the response of human dermal fibroblasts in vitro to visible and near-infra red (NIR) light was employed. Light-based devices were constructed to specifically and systematically screen the optical parameter window (i.e. wavelength, irradiance and dose) observed in literature. Additionally, critical culture and treatment conditions that have dramatic impact on the outcome of specific light treatment of these human skin dermal cells were identified. In particular, environmental oxygen concentration, cell confluency and serum concentration were all found to have a great effect on the response of dermal fibroblasts to light. In parallel, the induction of reactive oxygen species (ROS) by short visible wavelengths on two dermal fibroblast sub-populations or lineage, reticular and papillary, was monitored by live-cell imaging. The ROS species were found to be created in or close to mitochondria. Lastly, gene expression studies revealed a strong impact of short visible wavelengths, as compared to long and NIR wavelengths on both subpopulations of human dermal fibroblasts. In particular, blue light (450 nm) specifically down-regulated proliferation, metabolism and protein synthesis molecular pathways. At the protein level, 450-nm light inhibited the production of procollagen I in human reticular and papillary fibroblasts in a dose-dependent manner. Gene expression results were in agreement i.e., the same light parameter down-regulated collagen fiber genes, integrins and up-regulated collagenase MMP1. This thesis concludes with a chapter presenting a characterization of the accuracy of a potential translation tool for the prediction of optical photon density inside human skin.
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Parkinson's Disease Skin Fibroblasts Display Signature Alterations in Growth, Redox Homeostasis, Mitochondrial Function, and AutophagyTeves, Joji M. Y., Bhargava, Vedanshi, Kirwan, Konner R., Corenblum, Mandi J., Justiniano, Rebecca, Wondrak, Georg T., Anandhan, Annadurai, Flores, Andrew J., Schipper, David A., Khalpey, Zain, Sligh, James E., Curiel-Lewandrowski, Clara, Sherman, Scott J., Madhavan, Lalitha 12 January 2018 (has links)
The discovery of biomarkers for Parkinson's disease (PD) is challenging due to the heterogeneous nature of this disorder, and a poor correlation between the underlying pathology and the clinically expressed phenotype. An ideal biomarker would inform on PD-relevant pathological changes via an easily assayed biological characteristic, which reliably tracks clinical symptoms. Human dermal (skin) fibroblasts are accessible peripheral cells that constitute a patient-specific system, which potentially recapitulates the PD chronological and epigenetic aging history. Here, we compared primary skin fibroblasts obtained from individuals diagnosed with late-onset sporadic PD, and healthy age-matched controls. These fibroblasts were studied from fundamental viewpoints of growth and morphology, as well as redox, mitochondrial, and autophagic function. It was observed that fibroblasts from PD subjects had higher growth rates, and appeared distinctly different in terms of morphology and spatial organization in culture, compared to control cells. It was also found that the PD fibroblasts exhibited significantly compromised mitochondrial structure and function when assessed via morphological and oxidative phosphorylation assays. Additionally, a striking increase in baseline macroautophagy levels was seen in cells from PD subjects. Exposure of the skin fibroblasts to physiologically relevant stress, specifically ultraviolet irradiation (UVA), further exaggerated the autophagic dysfunction in the PD cells. Moreover, the PD fibroblasts accumulated higher levels of reactive oxygen species (ROS) coupled with lower cell viability upon UVA treatment. In essence, these studies highlight primary skin fibroblasts as a patient-relevant model that captures fundamental PD molecular mechanisms, and supports their potential utility to develop diagnostic and prognostic biomarkers for the disease.
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Photo-biomodulation of human skin fibroblast sub-populations: a systematic approach for the optimization of optical treatment parametersMignon, Charles January 2017 (has links)
The thesis presents a rational path for the optimization of the selection of optical treatment parameters in photobiomodulation of human skin fibroblasts. The project begins with an extensive analysis of 90 bibliographic reports in photobiomodulation published between 1985 and 2015, and revealed major inconsistencies in optical parameters selected for clinical applications. Seeking greater clarity for optimal parameter choice, a systematic approach to disentangle the multiple factors underpinning the response of human dermal fibroblasts in vitro to visible and near-infra red (NIR) light was employed. Light-based devices were constructed to specifically and systematically screen the optical parameter window (i.e. wavelength, irradiance and dose) observed in literature. Additionally, critical culture and treatment conditions that have dramatic impact on the outcome of specific light treatment of these human skin dermal cells were identified. In particular, environmental oxygen concentration, cell confluency and serum concentration were all found to have a great effect on the response of dermal fibroblasts to light. In parallel, the induction of reactive oxygen species (ROS) by short visible wavelengths on two dermal fibroblast sub-populations or lineage, reticular and papillary, was monitored by live-cell imaging. The ROS species were found to be created in or close to mitochondria. Lastly, gene expression studies revealed a strong impact of short visible wavelengths, as compared to long and NIR wavelengths on both subpopulations of human dermal fibroblasts. In particular, blue light (450 nm) specifically down-regulated proliferation, metabolism and protein synthesis molecular pathways. At the protein level, 450-nm light inhibited the production of procollagen I in human reticular and papillary fibroblasts in a dose-dependent manner. Gene expression results were in agreement i.e., the same light parameter down-regulated collagen fiber genes, integrins and up-regulated collagenase MMP1. This thesis concludes with a chapter presenting a characterization of the accuracy of a potential translation tool for the prediction of optical photon density inside human skin. / Marie Skłodowska-Curie Actions.
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IFNλ stimulates MxA production in human dermal fibroblasts via a MAPK-dependent STAT1-independent mechanismAlase, Adewonuola A., El-Sherbiny, Y., Vital, E., Tobin, Desmond J., Turner, N.A., Wittmann, Miriam 08 1900 (has links)
Yes / Interferon lambda (IFNλ) is important for epidermal defence against viruses. It is produced by, and acts on, keratinocytes, whereas fibroblasts were previously considered to be unresponsive to this type III IFN. Herein we report findings revealing cell type-specific differences in IFNλ signalling and function in skin resident cells. In dermal fibroblasts, IFNλ induced the expression of MxA, a potent antiviral factor, but not other IFN signature genes as it does in primary keratinocytes. In contrast to its effect on keratinocytes, IFNλ did not phosphorylate STAT1 in fibroblasts, but instead activated MAPKs. Accordingly, inhibition of MAPK activation (p38 and p42/44) blocked the expression of MxA protein in fibroblasts but not in keratinocytes. Functionally, IFNλ inhibited proliferation in keratinocytes but not in fibroblasts. Moreover, IFNλ upregulated the expression of TGFβ1-induced collagens in fibroblasts. Taken together, our findings identify primary human dermal fibroblasts as responder cells to IFNλ. Our study shows cutaneous cell type-specific IFN signalling and suggests that IFNλ, whilst important for epidermal anti-viral competence, may also have a regulatory role in the dermal compartment balancing type I IFN-induced inhibition of tissue repair processes.
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Dermal fibroblasts cultured from donors with type 2 diabetes mellitus retain an epigenetic memory associated with poor wound healing responsesAl-Rikabi, Aaiad H.A., Tobin, Desmond J., Riches-Suman, Kirsten, Thornton, M. Julie 31 March 2021 (has links)
Yes / The prevalence of Type 2 diabetes mellitus (T2DM) is escalating globally. Patients suffer from multiple complications including the development of chronic wounds that can lead to amputation. These wounds are characterised by an inflammatory environment including elevated tumour necrosis factor alpha (TNF-α). Dermal fibroblasts (DF) are critical for effective wound healing, so we sought to establish whether there were any differences in DF cultured from T2DM donors or those without diabetes (ND-DF). ND- and T2DM-DF when cultured similarly in vitro secreted comparable concentrations of TNF-α. Functionally, pre-treatment with TNF-α reduced the proliferation of ND-DF and transiently altered ND-DF morphology; however, T2DM-DF were resistant to these TNF-α induced changes. In contrast, TNF-α inhibited ND- and T2DM-DF migration and matrix metalloprotease expression to the same degree, although T2DM-DF expressed significantly higher levels of tissue inhibitor of metalloproteases (TIMP)-2. Finally, TNF-α significantly increased the secretion of pro-inflammatory cytokines (including CCL2, CXCL1 and SERPINE1) in ND-DF, whilst this effect in T2DM-DF was blunted, presumably due to the tendency to higher baseline pro-inflammatory cytokine expression observed in this cell type. Collectively, these data demonstrate that T2DM-DF exhibit a selective loss of responsiveness to TNF-α, particularly regarding proliferative and secretory functions. This highlights important phenotypic changes in T2DM-DF that may explain the susceptibility to chronic wounds in these patients. / This study was funded by an Iraqi government studentship to AHAA-R.
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The ageing hair follicle environment. Alterations in the female scalp and mesenchyme with age.Williams, Rachel January 2022 (has links)
Female ageing leads to reduced hair density and thinner fibres. The impact of
the ageing dermal environment on the hair follicles (HFs) remains unclear. This
study documents in situ changes in human female scalp skin of women (19-81
years (yrs)), and corresponding primary cultures of dermal fibroblast (DF) and
dermal sheath (DS) cells.
In situ, the papillary/reticular boundary was indistinguishable in young scalp, but
delineated over 40yrs, with reduced rete ridges, changes in collagen
organisation, reduced podoplanin (PDPN) and increased versican (VCAN)
expression. Hyaluronic acid synthase 2 (HAS2) was highly expressed
throughout the scalp.
Matrix Metallopeptidase 1 (MMP1) and Metallopeptidase inhibitor 1 (TIMP1),
cyclin-dependent kinase inhibitor 2A (p16INK4A), 11β-Hydroxysteroid
dehydrogenase type 1 and 2 (11β-HSD1/HSD11B1 and 11β-HSD2/HSD11B2)
mRNA expression increased in aged DFs. In DS cells, HAS2, Vimentin (VIM) ,PDPN, Lysosomal-associated membrane protein 1 (LAMP1), Sequestosome-
1 (P62) and Protease nexin-1 (SERPINE2) increased, while α-smooth muscle
actin (aSMA) decreased. Both cell types exhibited elevated cartilage oligomeric
protein (COMP) mRNA expression.
Proteomics revealed elevated COMP expression in the DF secretome with age,
suggesting a more fibrotic phenotype or DS migration into the dermis. DF and
DS lysate protein expression suggests altered extracellular matrix (ECM)
remodelling due to increased levels of MMP-2 and Protease inhibitor
Plasminogen activator inhibitor-1 (Serpin E1/PAI-1). Cathepsin C/DPPI protein
lysate expression decreased in DFs but increased in DS.
In summary, ageing female scalp shows striking structural and biological
changes in the HF environment that may impact hair growth, due to alterations
in ECM, senescence and autophagy associated biomarkers.
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Effects of Creatine and Nicotinamide on experimentally induced senescence in dermal fibroblasts.Mahajan, Avinash Satyanarayan 02 September 2020 (has links)
No description available.
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