Morphological and Quantitative Evidence for Altered Mesenchymal Stem Cell Remodeling of Collagen in an Oxidative Environment-Peculiar Effect of Epigallocatechin-3-Gallate.
Regina Komsa-PenkovaSvetoslava StoychevaPencho TonchevGalya StavrevaSvetla TodinovaGalya GeorgievaAdelina YordanovaStanimir KyurkchievGeorge AltankovPublished in: Polymers (2022)
Mesenchymal stem cells (MSCs) are involved in the process of extracellular matrix (ECM) remodeling where collagens play a pivotal role. We recently demonstrated that the remodeling of adsorbed collagen type I might be disordered upon oxidation following its fate in the presence of human adipose-derived MSC (ADMSCs). With the present study we intended to learn more about the effect of polyphenolic antioxidant Epigallocatechin-3-gallate (EGCG), attempting to mimic the conditions of oxidative stress in vivo and its putative prevention by antioxidants. Collagen Type I was isolated from mouse tail tendon (MTC) and labelled with FITC before being oxidized according to Fe 2+ /H 2 O 2 protocol. FITC-collagen remodeling by ADMSC was assessed morphologically before and after EGCG pretreatment and confirmed via detailed morphometric analysis measuring the anisotropy index (AI) and fluorescence intensity (FI) in selected regions of interest (ROI), namely: outside the cells, over the cells, and central (nuclear/perinuclear) region, whereas the pericellular proteolytic activity was measured by de-quenching fluorescent collagen probes (FRET effect). Here we provide morphological evidence that MTC undergoes significant reorganization by the adhering ADMSC and is accompanied by a substantial activation of pericellular proteolysis, and further confirm that both processes are suppressed upon collagen oxidation. An important observation was that this abrogated remodeling cannot be prevented by the EGCG pretreatment. Conversely, the detailed morphometric analysis showed that oxidized FITC-collagen tends to accumulate beneath cells and around cell nuclei, suggesting the activation of alternative routes for its removal, such as internalization and/or transcytosis. Morphometric analysis also revealed that both processes are supported by EGCG pretreatment.
Keyphrases
- mesenchymal stem cells
- induced apoptosis
- oxidative stress
- extracellular matrix
- wound healing
- tissue engineering
- cell cycle arrest
- umbilical cord
- bone marrow
- single cell
- randomized controlled trial
- cell therapy
- endoplasmic reticulum stress
- signaling pathway
- hydrogen peroxide
- blood brain barrier
- energy transfer
- dna damage
- quantum dots
- high intensity
- fluorescent probe
- anti inflammatory
- visible light
- heat shock protein