共查询到20条相似文献,搜索用时 33 毫秒
1.
Alberto Gonz lez-Gonz lez Daniel Garc a-S nchez Monica Dotta Jos C Rodr guez-Rey Flor M P rez-Campo 《World journal of stem cells》2020,12(12):1529-1552
Mesenchymal stem cells (MSCs) are the most frequently used stem cells in clinical trials due to their easy isolation from various adult tissues, their ability of homing to injury sites and their potential to differentiate into multiple cell types. However, the realization that the beneficial effect of MSCs relies mainly on their paracrine action, rather than on their engraftment in the recipient tissue and subsequent differentiation, has opened the way to cell-free therapeutic strategies in regenerative medicine. All the soluble factors and vesicles secreted by MSCs are commonly known as secretome. MSCs secretome has a key role in cell-to-cell communication and has been proven to be an active mediator of immune-modulation and regeneration both in vitro and in vivo. Moreover, the use of secretome has key advantages over cell-based therapies, such as a lower immunogenicity and easy production, handling and storage. Importantly, MSCs can be modulated to alter their secretome composition to better suit specific therapeutic goals, thus, opening a large number of possibilities. Altogether these advantages now place MSCs secretome at the center of an important number of investigations in different clinical contexts, enabling rapid scientific progress in this field. 相似文献
2.
Recently, transplantation of allogeneic and autologous cells has been used for regenerative medicine. A critical issue is
monitoring migration and homing of transplanted cells, as well as engraftment efficiency and functional capability in vivo. Monitoring of superparamagnetic iron oxide (SPIO) particles by magnetic resonance imaging (MRI) has been used in animal
models and clinical settings to track labeled cells. A major limitation of MRI is that the signals do not show biological
characteristics of transplanted cells in vivo. Bone marrow mesenchymal stem cells (MSCs) have been extensively investigated for their various therapeutic properties, and
exhibit the potential to differentiate into cells of diverse lineages. In this study, cynomolgus monkey MSCs (cMSCs) were
labeled with Molday ION Rhodamine-B™ (MIRB), a new SPIO agent, to investigate and characterize the biophysical and MRI properties
of labeled cMSCs in vitro and in vivo. The results indicate that MIRB is biocompatible and useful for cMSCs labeling and cell tracking by multimodality imaging.
Our method is helpful for detection of transplanted stem cells in vivo, which is required for understanding mechanisms of cell therapy. 相似文献
3.
Biological,chemical and mechanical factors regulating migration and homing of mesenchymal stem cells
Renata Szydlak 《World journal of stem cells》2021,13(6):619-631
Mesenchymal stem cells (MSCs) are a population of primary and non-specialized cells, which can be isolated from various tissues. Currently, MSCs are key players in cellular therapy and regenerative medicine. However, the possibility of using MSCs in the treatment of many diseases needs to be preceded, though, by in-depth analysis of their properties, especially by determining the mechanism of tissue homing as well as the mechanism, due to which cells contribute to tissue regeneration. This review is intended to present information on recent findings regarding the mechanism of recruitment and tissue homing by MSCs and discuss current hypotheses for how MSCs can reach target tissues. 相似文献
4.
间充质干细胞(Mesenchymal Stem Cells,MSCs)是一种具有多向分化潜能的成体干细胞,其具有分泌营养物质和调节炎症反应的能力,虽然间充质干细胞在组织修复、重塑和免疫调节方面已得到临床运用,但MSCs趋化和归巢的机制仍不清楚。基质细胞衍生因子-1(stromal cell-derived factor 1,SDF-1)和其趋化因子受体4(C-X-C chemokine receptor 4,CXCR4)在介导MSCs的分化、迁移和归巢中起着至关重要的作用,若能深入探讨、明确其在归巢中的作用,期望给间充质干细胞在临床的应用开辟新的应用前景。 相似文献
5.
Rastegar F Shenaq D Huang J Zhang W Zhang BQ He BC Chen L Zuo GW Luo Q Shi Q Wagner ER Huang E Gao Y Gao JL Kim SH Zhou JZ Bi Y Su Y Zhu G Luo J Luo X Qin J Reid RR Luu HH Haydon RC Deng ZL He TC 《World journal of stem cells》2010,2(4):67-80
Mesenchymal stem cells (MSCs) are non-hematopoietic stem cells with the capacity to differentiate into tissues of both mesenchymal and non-mesenchymal origin. MSCs can differentiate into osteoblastic, chondrogenic, and adipogenic lineages, although recent studies have demonstrated that MSCs are also able to differentiate into other lineages, including neuronal and cardiomyogenic lineages. Since their original isolation from the bone marrow, MSCs have been successfully harvested from many other tissues. Their ease of isolation and ex vivo expansion combined with their immunoprivileged nature has made these cells popular candidates for stem cell therapies. These cells have the potential to alter disease pathophysiology through many modalities including cytokine secretion, capacity to differentiate along various lineages, immune modulation and direct cell-cell interaction with diseased tissue. Here we first review basic features of MSC biology including MSC characteristics in culture, homing mechanisms, differentiation capabilities and immune modulation. We then highlight some in vivo and clinical evidence supporting the therapeutic roles of MSCs and their uses in orthopedic, autoimmune, and ischemic disorders. 相似文献
6.
Jasmin Ana Luiza M Torres Henrique MP Nunes Juliana A Passipieri Linda A Jelicks Emerson L Gasparetto David C Spray Antonio C Campos de Carvalho Rosalia Mendez-Otero 《Journal of nanobiotechnology》2011,9(1):4
Background
Stem cell therapy has emerged as a promising addition to traditional treatments for a number of diseases. However, harnessing the therapeutic potential of stem cells requires an understanding of their fate in vivo. Non-invasive cell tracking can provide knowledge about mechanisms responsible for functional improvement of host tissue. Superparamagnetic iron oxide nanoparticles (SPIONs) have been used to label and visualize various cell types with magnetic resonance imaging (MRI). In this study we performed experiments designed to investigate the biological properties, including proliferation, viability and differentiation capacity of mesenchymal cells (MSCs) labeled with clinically approved SPIONs. 相似文献7.
Daniel Garc a-S nchez Dar o Fern ndez Jos C Rodr guez-Rey Flor M P rez-Campo 《World journal of stem cells》2019,11(10):748-763
Mesenchymal stem cells (MSCs) are promising candidates for bone regeneration therapies due to their plasticity and easiness of sourcing. MSC-based treatments are generally considered a safe procedure, however, the long-term results obtained up to now are far from satisfactory. The main causes of these therapeutic limitations are inefficient homing, engraftment, and osteogenic differentiation. Many studies have proposed modifications to improve MSC engraftment and osteogenic differentiation of the transplanted cells. Several strategies are aimed to improve cell resistance to the hostile microenvironment found in the recipient tissue and increase cell survival after transplantation. These strategies could range from a simple modification of the culture conditions, known as cell-preconditioning, to the genetic modification of the cells to avoid cellular senescence. Many efforts have also been done in order to enhance the osteogenic potential of the transplanted cells and induce bone formation, mainly by the use of bioactive or biomimetic scaffolds, although alternative approaches will also be discussed. This review aims to summarize several of the most recent approaches, providing an up-to-date view of the main developments in MSC-based regenerative techniques. 相似文献
8.
Qing-Shu Meng Jing Liu Lu Wei Hui-Min Fan Xiao-Hui Zhou Xiao-Ting Liang 《World journal of stem cells》2020,12(9):966-985
Mesenchymal stem/stromal cells (MSCs) have various properties that make them promising candidates for stem cell-based therapies in clinical settings. These include self-renewal, multilineage differentiation, and immunoregulation. However, recent studies have confirmed that aging is a vital factor that limits their function and therapeutic properties as standardized clinical products. Understanding the features of senescence and exploration of cell rejuvenation methods are necessary to develop effective strategies that can overcome the shortage and instability of MSCs. This review will summarize the current knowledge on characteristics and functional changes of aged MSCs. Additionally, it will highlight cell rejuvenation strategies such as molecular regulation, non-coding RNA modifications, and microenvironment controls that may enhance the therapeutic potential of MSCs in clinical settings. 相似文献
9.
Mesenchymal stem cells (MSCs) from post-natal bone marrow possess tremendous potential for cell-mediated gene therapy in several disease processes, and recent reports have broadened the spectrum for therapeutic applications to cancer therapy. The evidence that sites of active tumorigenesis favor the homing of exogenous MSCs have support the rationale for developing engineered MSCs as a tool to track malignant tissues and deliver anticancer agents within the tumor microenvironment. Several reports have proven the efficiency of MSCs as cell carrier for in vivo delivery of various clinically relevant anticancer factors, including cytokines, interferon, pro-drugs or replicative adenovirus, and tumor growth inhibition following engraftment within or in the vicinity of tumor. The enthusiasm for MSCs is further reinforced by the striking observation that unmodified MSCs can exert antitumorigenic activity, and preliminary reports in immunocompetent animals have provided encouraging results for the use of MSCs in cancer immunotherapy. This review highlights recent works and potential clinical applications of MSCs in this field. 相似文献
10.
Mesenchymal stem cell(MSC)therapy is entering a challenging phase after completion of many preclinical and clinical trials.Among the major hurdles encountered in MSC therapy are inconsistent stem cell potency,poor cell engraftment and survival,and age/disease-related host tissue impairment.The recognition that MSCs primarily mediate therapeutic benefits through paracrine mechanisms independent of cell differentiation provides a promising framework for enhancing stem cell potency and therapeutic benefits.Several MSC priming approaches are highlighted,which will likely allow us to harness the full potential of adult stem cells for their future routine clinical use. 相似文献
11.
Zhongyuan Su Rongrong Wu Zhou Tan Ying Li Jingfeng Luo 《Biochemical and biophysical research communications》2010,394(3):616-622
Mesenchymal stem cells (MSCs) have been induced to differentiate successfully from human embryonic stem cells (hES-MSCs), which could serve as an in vitro source of MSCs. However, the homing behaviors of such cells and their potential utility for liver regeneration in vivo have not been reported. We investigated factors that influenced early homing and the hepatic-directed differentiation potency of hES-MSCs in a mouse model of acute liver injury. The hES-MSCs could be detected 36 h after cell infusion and this was unaffected by the number of cell passages in culture. Pretreatment of hES-MSCs with TNF-α resulted in higher rates of homing of these cells to the injured liver. Interestingly most of the cells homing at an early stage expressed alpha-fetoprotein (AFP), indicating hepatic differentiation. Thus, hES-MSCs can home to the acutely injured liver at high efficiency and undergo hepatic differentiation, suggesting that these cells could be useful for treating acute human liver injury. 相似文献
12.
Lucia E. Duinhouwer Bernard J. M. van Rossum Sandra T. van Tiel Ramon M. van der Werf Gabriela N. Doeswijk Joost C. Haeck Elwin W. J. C. Rombouts Mari?tte N. D. ter Borg Gyula Kotek Eric Braakman Jan J. Cornelissen Monique R. Bernsen 《PloS one》2015,10(9)
Impaired homing and delayed recovery upon hematopoietic stem cell transplantation (HSCT) with hematopoietic stem cells (HSC) derived from umbilical cord blood (UCB) is a major problem. Tracking transplanted cells in vivo will be helpful to detect impaired homing at an early stage and allows early interventions to improve engraftment and outcome after transplantation. In this study, we show sufficient intracellular labeling of UCB-derived CD34+ cells, with 19F-containing PLGA nanoparticles which were detectable with both flow cytometry and magnetic resonance spectroscopy (MRS). In addition, labeled CD34+ cells maintain their capacity to proliferate and differentiate, which is pivotal for successful engraftment after transplantation in vivo. These results set the stage for in vivo tracking experiments, through which the homing efficiency of transplanted cells can be studied. 相似文献
13.
The pathophysiology of Type 1 diabetes (T1D) appears largely related to an innate defect in the immune system culminating in a loss of self tolerance and destruction of the insulin producing β-cells. Currently, there is no definitive cure for diabetes. Insulin injection does not mimic the precise regulation of β-cells on glucose homeostasis, leading long term to the development of complications. Other therapeutic approaches therefore, are necessary and cell therapy is thought to be a possible approach. In this sense, mesenchymal stem cells (MSCs) can offer a promising possibility that deserves to be explored. MSCs are multipotent non-hematopoietic progenitor cells. Their therapeutic potentials have recently been brought into the spotlights of many fields of research. Although the regenerative capabilities of MSCs have been a driving force to initiate studies testing their therapeutic effectiveness, their immunomodulatory properties have been equally exciting. MSCs possess specific immunomodulatory properties that would appear capable of disabling immune dysregulation that leads to β-cell destruction in T1D. Furthermore, MSCs can be sequentially cultured in specially defined conditions and their differentiation extends toward the β-cell phenotype and the formation of insulin producing cells (IPCs). To date, the role of MSCs in T1D remains completely unexplored. We herein summarize multiple strategies that have been proposed and tested for its potential therapeutic benefit for T1D. 相似文献
14.
Orthotopic liver transplantation is, to date, the only proven effective treatment for end-stage liver disease. However, it suffers from lack of donors and immunorejection. Here, we speculate that co-transplantation of induced pluripotent stem (iPS) cells derived hepatocytes and mesenchymal stem cells (MSCs) may offer an alternative way to treat patients with end-stage liver disease. Recently, progress on iPS cells, homogeneous differentiation of hepatocyte-like cells from embryonic stem cells (ESCs), and paracrine effects by MSCs highlight the possibility. Safe, efficient and rapid generation of iPS cells has been reliably produced by several experimental laboratories. Methods for highly efficient and homogeneous differentiation of ESCs into functional hepatocytes have been established as well. Moreover, paracrine effects by MSCs have been proven to play an important role in liver regeneration and repair, and the effects can be used as an enhancer for engraftment. All of these remarkable developments lead to this hypothesis which may offer a novel therapeutic strategy for treatment of patients with end-stage liver disease, though some issues about safety and efficacy need to be further guaranteed. 相似文献
15.
Uccelli A Morando S Bonanno S Bonanni I Leonardi A Mancardi G 《Current stem cell research & therapy》2011,6(1):69-72
The lack of therapies fostering remyelination and regeneration of the neural network deranged by the autoimmune attack occurring in multiple sclerosis (MS), is raising great expectations about stem cells therapies for tissue repair. Mesenchymal stem cells (MSCs) have been proposed as a possible treatment for MS due to the reported capacity of transdifferentiation into neural cells and their ability at modulating immune responses. However, recent studies have demonstrated that many other functional properties are likely to play a role in the therapeutic plasticity of MSCs, including anti-apoptotic, trophic and anti-oxidant effects. These features are mostly based on the paracrine release of soluble molecules, often dictated by local environmental cues. Based on the modest evidence of long-term engraftment and the striking clinical effects that are observed immediately after MSCs administration in the experimental model of MS, we do not favor a major role for transdifferentiation as an important mechanism involved in the therapeutic effect of MSCs. 相似文献
16.
Soyoun Um Jueun Ha Soo Jin Choi Wonil Oh Hye Jin Jin 《World journal of stem cells》2020,12(12):1511-1528
Umbilical cord blood (UCB) is a primitive and abundant source of mesenchymal stem cells (MSCs). UCB-derived MSCs have a broad and efficient therapeutic capacity to treat various diseases and disorders. Despite the high latent self-renewal and differentiation capacity of these cells, the safety, efficacy, and yield of MSCs expanded for ex vivo clinical applications remains a concern. However, immunomodulatory effects have emerged in various disease models, exhibiting specific mechanisms of action, such as cell migration and homing, angiogenesis, anti-apoptosis, proliferation, anti-cancer, anti-fibrosis, anti-inflammation and tissue regeneration. Herein, we review the current literature pertaining to the UCB-derived MSC application as potential treatment strategies, and discuss the concerns regarding the safety and mass production issues in future applications. 相似文献
17.
Martha L Arango-Rodriguez Fernando Ezquer Marcelo Ezquer Paulette Conget 《World journal of stem cells》2015,7(2):408-417
Multipotent mesenchymal stromal cells [also referred to as mesenchymal stem cells(MSCs)] are a heterogeneous subset of stromal cells. They can be isolated from bone marrow and many other types of tissue. MSCs are currently being tested for therapeutic purposes(i.e., improving hematopoietic stem cell engraftment, managing inflammatory diseases and regenerating damaged organs). Their tropism for tumors and inflamed sites and their context-dependent potential for producing trophic and immunomodulatory factors raises the question as to whether MSCs promote cancer and/or infection. Thisarticle reviews the effect of MSCs on tumor establishment, growth and metastasis and also susceptibility to infection and its progression. Data published to date shows a paradoxical effect regarding MSCs, which seems to depend on isolation and expansion, cells source and dose and the route and timing of administration. Cancer and infection may thus be adverse or therapeutic effects arising form MSC administration. 相似文献
18.
Fatemeh Amiri Ali Jahanian-Najafabadi Mehryar Habibi Roudkenar 《Cell stress & chaperones》2015,20(2):237-251
Mesenchymal stem cells (MSCs) are under intensive investigation for use in cell-based therapies because their differentiation abilities, immunomodulatory effects, and homing properties offer potential for significantly augmenting regenerative capacity of many tissues. Nevertheless, major impediments to their therapeutic application, such as low proliferation and survival rates remain as obstacles to broad clinical use of MSCs. Another major challenge to evolution of MSC-based therapies is functional degradation of these cells as a result of their exposure to oxidative stressors during isolation. Indeed, oxidative stress-mediated MSC depletion occurs due to inflammatory processes associated with chemotherapy, radiotherapy, and expression of pro-apoptotic factors, and the microenvironment of damaged tissue in patients receiving MSC therapy is typically therapeutic not favorable to their survival. For this reason, any strategies that enhance the viability and proliferative capacity of MSCs associated with their therapeutic use are of great value. Here, recent strategies used by various researchers to improve MSC allograft function are reviewed, with particular focus on in vitro conditioning of MSCs in preparation for clinical application. Preconditioning, genetic manipulation, and optimization of MSC culture conditions are some examples of the methodologies described in the present article, along with novel strategies such as treatment of MSCs with secretome and MSC-derived microvesicles. This topic material is likely to find value as a guide for both research and clinical use of MSC allografts and for improvement of the value that use of these cells brings to health care. 相似文献
19.
Ivana Okić-Đorđević Hristina Obradović Tamara Kukolj Anđelija Petrović Slavko Mojsilović Diana Bugarski Aleksandra Jauković 《World journal of stem cells》2021,13(12):1863-1880
Current research data reveal microenvironment as a significant modifier of physical functions, pathologic changes, as well as the therapeutic effects of stem cells. When comparing regeneration potential of various stem cell types used for cytotherapy and tissue engineering, mesenchymal stem cells (MSCs) are currently the most attractive cell source for bone and tooth regeneration due to their differentiation and immunomodulatory potential and lack of ethical issues associated with their use. The microenvironment of donors and recipients selected in cytotherapy plays a crucial role in regenerative potential of transplanted MSCs, indicating interactions of cells with their microenvironment indispensable in MSC-mediated bone and dental regeneration. Since a variety of MSC populations have been procured from different parts of the tooth and tooth-supporting tissues, MSCs of dental origin and their achievements in capacity to reconstitute various dental tissues have gained attention of many research groups over the years. This review discusses recent advances in comparative analyses of dental MSC regeneration potential with regards to their tissue origin and specific microenvironmental conditions, giving additional insight into the current clinical application of these cells. 相似文献
20.
Julie Higgins Carol Midgley Anna-Maria Bergh Sandra M Bell Jonathan M Askham Emma Roberts Ruth K Binns Saghira M Sharif Christopher Bennett David M Glover C Geoffrey Woods Ewan E Morrison Jacquelyn Bond 《BMC cell biology》2010,11(1):1-17