skin fibroblasts
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2022 ◽  
Author(s):  
Carla Lopes ◽  
Ildete Luisa Ferreira ◽  
Carina Maranga ◽  
Margarida Beatriz ◽  
Sandra Mota ◽  
...  

Defects in mitochondrial function and mitochondrial-related redox deregulation have been attributed to Huntington disease (HD), a genetic neurodegenerative disorder largely affecting the striatum. However, whether these changes occur in early stages of the disease and can be detected in vivo is still unclear. Thus, in the present study, we analyzed changes in mitochondrial function and overreduced states associated with production of reactive oxygen species (ROS) at early stages and along disease progression in vivo in the brain by positron emission tomography (PET) and in skin fibroblasts of premanifest/early and manifest HD patients, and in YAC128 transgenic mouse brain (striatum and cortex) at early-symptomatic (3 month-old, mo) and symptomatic (6 to 12 mo) stages. In vivo human and mouse brain PET imaging was assessed using [64Cu]-ATSM; analysis of oxygen consumption rates was assessed by Seahorse analysis, hydrogen peroxide levels were determined using fluorescent probes and mitochondrial morphology by transmission electron microscopy in human skin fibroblasts and mouse striatal and cortical isolated mitochondria. Premanifest and prodromal HD carriers exhibited enhanced whole-brain (with exception of caudate) [64Cu]-ATSM labelling, correlating with CAG repeat number, concomitantly with enhanced basal and maximal respiration, proton (H+) leak and increased hydrogen peroxide levels, the later progressing to advanced HD stage, in human fibroblasts. Mitochondria from fibroblasts of premanifest HD carriers also showed reduced roundness, while higher number of mitochondrial DNA copies correlated with maximal respiratory capacity. In vivo animal PET analysis showed increased accumulation of [64Cu]-ATSM in YAC128 mouse striatum. Pre/early-symptomatic YAC128 mouse striatal, but not cortical, isolated mitochondria exhibited a rise in basal and maximal mitochondrial respiration and in ATP production along with increased complex II and III activities, enhanced mitochondrial hydrogen peroxide and roundness, as revealed by brain ultrastructure analysis, further presenting defects in Ca2+ handling, supporting increased striatal susceptibility in the YAC128 mouse model. Data demonstrate both human and mouse mitochondrial overactivity and altered morphology at early HD stages, facilitating redox unbalance, the latter extending over late disease stages.


Author(s):  
Aleksandra Taran ◽  
Lilia Belikova (Shuvalova) ◽  
Svetlana Lavrushkina ◽  
Alexandra Bogomazova ◽  
Maria Lagarkova ◽  
...  

2022 ◽  
Vol 88 ◽  
pp. 104897
Author(s):  
Yongtao Zhang ◽  
Dongdong Wang ◽  
Hao Fu ◽  
Dan Zhao ◽  
Jiachan Zhang ◽  
...  

2021 ◽  
Vol Volume 15 ◽  
pp. 4901-4909
Author(s):  
Qiuting Mo ◽  
Hao Fu ◽  
Dan Zhao ◽  
Jiachan Zhang ◽  
Changtao Wang ◽  
...  

2021 ◽  
Vol 22 (23) ◽  
pp. 12681
Author(s):  
Daphne N. Dorst ◽  
Arjan P. M. van Caam ◽  
Elly L. Vitters ◽  
Birgitte Walgreen ◽  
Monique M. A. Helsen ◽  
...  

Systemic sclerosis (SSc) is a rare, severe, auto-immune disease characterized by inflammation, vasculopathy and fibrosis. Activated (myo)fibroblasts are crucial drivers of this fibrosis. By exploiting their expression of fibroblast activation protein (FAP) to perform targeted photodynamic therapy (tPDT), we can locoregionally deplete these pathogenic cells. In this study, we explored the use of FAP-tPDT in primary skin fibroblasts from SSc patients, both in 2D and 3D cultures. Method: The FAP targeting antibody 28H1 was conjugated with the photosensitizer IRDye700DX. Primary skin fibroblasts were obtained from lesional skin biopsies of SSc patients via spontaneous outgrowth and subsequently cultured on plastic or collagen type I. For 2D FAP-tPDT, cells were incubated in buffer with or without the antibody-photosensitizer construct, washed after 4 h and exposed to λ = 689 nm light. Cell viability was measured using CellTiter Glo®®. For 3D FAP-tPDT, cells were seeded in collagen plugs and underwent the same treatment procedure. Contraction of the plugs was followed over time to determine myofibroblast activity. Results: FAP-tPDT resulted in antibody-dose dependent cytotoxicity in primary skin fibroblasts upon light exposure. Cells not exposed to light or incubated with an irrelevant antibody-photosensitizer construct did not show this response. FAP-tPDT fully prevented contraction of collagen plugs seeded with primary SSc fibroblasts. Even incubation with a very low dose of antibody (0.4 nM) inhibited contraction in 2 out of 3 donors. Conclusions: Here we have shown, for the first time, the potential of FAP-tPDT for the treatment of fibrosis in SSc skin.


2021 ◽  
Author(s):  
Hongqing Zhao ◽  
Xinzhu Liu ◽  
Jiachen Sun ◽  
Yuezeng Niu ◽  
Kun Zhang ◽  
...  

Abstract Background: Wound healing is a dynamic, sequential,and complex physiological process, including a variety of cellular events, such as proliferation, adhesion, chemotaxis, and apoptosis. Skin fibroblasts and keratinocytes are the two most important cells involved in wound repair, and Relying on the proliferation and differentiation of keratinocytes to form epithelium to completely cover the wound is the most ideal result for wound repair, so expanding the source of keratinocytes is a huge challenge. In this study, we examined the phenomenon that fetal skin fibroblasts spontaneously transdifferentiated into keratinocyte-like cells in conventional culture, and evaluated the characteristics of KLCs and the potential mechanisms of the transdifferentiation process.Methods: HFF-1 were routinely cultured in ordinary DMEM medium for more than 40 days,and observed the cell morphology. The cytological properties of KLCs at the cellular and molecular levels were detected by RT-PCR, Western-blot, immunofluorescence, Transwell, and cell scratch experiments.The functionality and safety of KLCs were determined through wound healing and tumorigenicity experiments. And high-throughput transcriptome sequencing (RNA-seq) was performed to explore the mechanism underlying HFF-1 transdifferentiation.Results: The transdifferentiation process started on the 25th day and was completed by the 40th day. KLCs and KCs had similar expressions at the molecular and protein levels, both functioned similarly in wound healing and were non-tumorigenic.RNA-seq revealed that the transdifferentiation process was regulated by the activation of the classical Wnt/β-catenin signaling pathway, which could shorten the process to 10 days.Conclusion: This study demonstrates that HFF-1 can spontaneously transdifferentiate into KLCs with conventional culture conditions, and the Wnt/β-catenin signaling pathway regulates the transdifferentiation process.


2021 ◽  
Vol 22 (21) ◽  
pp. 11451
Author(s):  
Anna Galicka ◽  
Joanna Sutkowska-Skolimowska

Benzophenone-3 (BP-3) is one of the most widely used chemical sunscreens. The results of many in vitro and in vivo tests confirm its high percutaneous penetration and systemic absorption, which question the safety of its wide use. The aim of our research was to assess the effect of this compound on components of the skin extracellular matrix, and to investigate whether rosmarinic acid (RA) could reduce BP-3-induced changes in human skin fibroblasts. BP-3 used at concentrations of 0.1–100 µM caused a number of unfavorable changes in the level of type I collagen, decorin, sulfated glycosaminoglycans, hyaluronic acid, elastin, and expression or activity of matrix metalloproteinases (MMP-1, MMP-2), elastase and hyaluronidase. Moreover, the intracellular retention of collagen was accompanied by changes in the expression of proteins modifying and controlling the synthesis and secretion of this protein. Most importantly, RA at a concentration of 100 µM significantly reduced or completely abolished the adverse effects of BP-3. Based on these findings, it can be concluded that this polyphenol may provide effective protection against BP-3-induced disturbances in skin cells, which may have important clinical implications.


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