Leyla Soleymani , Rahim Hobbenaghi , Aram Mokarizadeh , Samad Zare , Nowruz Delirezh ,
Volume 72, Issue 7 (10-2014)
Abstract
Background: Recently, bone-marrow-derived cells have introduced new therapeutic approaches to the management of wound healing in severe skin injuries. Bone marrow-derived stromal cells are described as a heterogeneous population, including mesenchymal stem cells, hematopoietic stem cells, and fibro-blast cells. Results derived from several studies indicate that these cells may contribute to tissue regeneration whether through producing variety of bioactive growth factors and/or by differentiation into mesoderm lineage. The aim of the present study was to investigate the effect of subcutaneous administration of bone marrow-derived stromal cells in repairing or regeneration of skin wounds induced by third-degree burn in a mouse model.
Methods: In an experimental study that was performed in Urmia University research center from December 2011 to June 2012, The third-degree skin burn was induced on the shaved backs of healthy 7-8 week old male mice (N=18) using a metal rods heated in boiling water. After 1 hour, based on the equal physical condition mice were randomly divided into two separate groups and then subcutaneously administered with phosphate buffered saline (PBS 400 µl) or bone marrow-derived stromal cells (106 cell in 400µl PBS) at the burn site. 7, 14 and 21 days after induction of burn injury, biopsies were taken from burn wounds and then the sections were prepared. Subsequently the prepared sections were stained with hematoxylin/eosin and Masson's trichrome to explore histopathological changes evoke by administration of bone marrow derived stromal cells in comparison with control subjects.
Results: Considering investigated parameters including formation of granulation tissue (respectively on days 7, 14 and 21 P≤ 0/007, P≤ 0/0013 and P≤ 0/001), angiogenesis (on day 21 P≤ 0/002) and collagen deposition, in mice treated with bone marrow-derived stromal cells the rate of healing of third-degree thermal burns was significantly accelerated when compared to the PBS-treated mice.
Conclusion: This experimental modulation of wound healing suggests that bone marrow-derived stromal cells can significantly enhance the rate of wound healing possibly through stimulation of granulation tissue, angiogenesis, fibroblast proliferation and collagen deposition.
Seyed Khalil Pestehei, Mahdieh Ghiasi, Seyed-Hassan Emami-Razavi ,
Volume 81, Issue 7 (10-2023)
Abstract
Human mesenchymal stromal cells are multipotent cells capable of differentiating into the mesenchymal lineage that can be isolated from bone marrow and adipose tissue or from umbilical cord blood and fetal tissues. Among the widely characterized in vitro properties, MSCs show strong anti-proliferative and anti-inflammatory effects on immune responses Exosomes derived from mesenchymal stem cells derived from different tissues are promising cell-free treatments for tissue damage repair. Exosomes serve as a potential portal for cell-free drug delivery systems, as these drugs possess the properties of the parent cell from which they are derived. Extracellular vesicles (EVs) play key roles in cell biology and may provide new clinical diagnostics and therapies. Exosomes, called extracellular vesicles (EcVs), are present in almost all cells, tissues, and body fluids. They contribute to intercellular signaling and maintain tissue homeostasis. The biogenesis of exosomes starts in the endosomal system. Researchers have identified 9769 proteins, 2838 miRNAs, 3408 and 1116 lipids present in exosome of mRNA cargo. Isolation of exosomes from cells, tissues and body fluids follows a different pattern. Exosomes interact with receptor cells through their surface receptor molecules and ligands and are internalized into receptor cells through micropinocytosis and phagocytosis. This varies depending on the origin of the EV, its physiological and pathological state, and even the exact site of cellular release. The composition of the protein inside can also indicate the presence of disease pathologies such as cancer or inflammatory diseases; However, exosomes also contain a number of common proteins as well as proteins involved in vesicle formation. Advanced technologies in regenerative medicine have caused researchers to use exosomes isolated from mesenchymal stem cells (MSCs) with high regeneration ability in diseases. Exosome cargo plays a key role in diagnosis and treatment by controlling the disease process. Various studies in laboratory conditions have shown the effectiveness and therapeutic potential of exosomes in cancer, neurodegenerative, cardiovascular and orthopedic diseases. This article describes the therapeutic role and potential of exosomes derived from mesenchymal stem cells, as well as the necessary precautions for their processing.
