Your search keyword '"Adipose tissue stem cells"' showing total 33 results

1. Adipose tissue — derived mesenchymal stem: a role in the pathogenesis of obesity and type 2 diabetes mellitus

Author

E. G. Uchasova, Yu. A. Dyleva, E. V. Belik, and O. V. Gruzdeva

Subjects

adipose tissue stem cells, inflammation, obesity, type 2 diabetes mellitus, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Adipose tissue-derived mesenchymal stem are adult stem cells endowed with multipotent abilities and immunomodulatory properties, like mesenchymal stem cells of other origins. Numerous studies show that adipose tissue stem cells are involved in the pathological process and can exhibit pro-inflammatory properties and attract inflammatory immune cells in the neighborhood. Subsequently, inflammation creates a microenvironment leading to adipose tissue dysfunction. Examples of such a process are obesity and type 2 diabetes mellitus, in which adipogenesis is disrupted and insulin resistance is initiated. The aim of this review is to understand the role of adipose tissue stem cells in the pathogenesis of obesity and type 2 diabetes mellitus.

Published

2023

2. One-stage cartilage repair using the autologous matrix-induced chondrogenesis combined with simultaneous use of autologous adipose tissue graft and adipose tissue mesenchymal cells technique: clinical results and magnetic resonance imaging evaluation at five-year follow-up

Author

Sciarretta, Fabio Valerio, Ascani, Claudio, Sodano, Luca, Fossati, Carolina, and Campisi, Silvana

Subjects

*MAGNETIC resonance imaging, *ADIPOSE tissues, *CHONDROGENESIS, *CARTILAGE

Abstract

Purpose: To evaluate medium-term outcomes of knee cartilage defects repair by autologous matrix-induced chondrogenesis combined with simultaneous use of autologous adipose tissue graft and adipose tissue mesenchymal cells, defined as LIPO-AMIC technique. Methods: The LIPO-AMIC technique has been used in ICRS degree III–IV knee defects. Eighteen patients have been prospectively evaluated during two and five years both clinically and by MRI. Results: Patients showed progressive significant improvement of all scores starting early at six months, and further increased values were noted till the last follow-up at 60 months. Mean subjective pre-operative IKDC score of 36.1 significantly increased to 86.4 at 24 months and to 87.2 at 60 months. Mean pre-operative Lysholm score of 44.4 reached 93.5 at two years and 93.5 at five years. MRI examination showed early subchondral lamina regrowth and progressive maturation of repair tissue and filling of defects. The mean total MOCART score showed that a significative improvement from two year follow-up (69.1 points) to last follow-up was 81.9 points (range, 30–100 points, SD 24). Complete filling of the defect at the level of the surrounding cartilage was found in 77.8%. Conclusions: Adipose tissue can represent ideal source of MSCs since easiness of withdrawal and definite chondrogenic capacity. This study clearly demonstrated the LIPO-AMIC technique to be feasible for treatment of knee cartilage defects and to result in statistically significant progressive clinical, functional and pain improvement in all treated patients better than what reported for the AMIC standard technique, starting very early from the 6-month follow-up and maintaining the good clinical results more durably with stable results at mid-term follow-up. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Lower in Vivo Osteogenicity of Adipose Tissue-Derived Stem Cells Correlates with a Higher Innate Immune Response.

Author

Maroquenne, Manon, Bourguignon, Marianne, Larochette, Nathanael, El-Hafci, Hanane, Margottin, Morgane, Potier, Esther, and Logeart-Avramoglou, Delphine

Subjects

*STEM cells, *MULTINUCLEATED giant cells, *IMMUNE response, *MESENCHYMAL stem cells, *BONE growth, *INSECT trapping, *ADIPOSE tissues, *TISSUE engineering

Abstract

Adipose tissue-derived mesenchymal stem cells (ATSCs) have been used as an alternative to bone marrow-derived mesenchymal stem cells (BMSCs) for bone tissue engineering applications. The ability of ATSCs to promote new bone formation remains lower than that of BMSCs. This study aimed to investigate the mechanisms underlying osteogenicity differences between human ATSCs and BMSCs in ceramic constructs, focusing on the effects of inflammation on this process. In contrast to ATSC-containing constructs, which did not induce bone formation in an ectopic mouse model, BMSC constructs consistently did so. Gene expression analysis revealed that human BMSCs, concomitantly with host murine progenitors, differentiated into the osteogenic lineage early post-implantation. In contrast, ATSCs differentiated later, when few implanted viable cells remained post-implantation, while the host murine cells did not differentiate. Comparison of the inflammatory profile in the cell constructs indicated concomitant upregulation of some human and murine inflammatory genes in the ATSC-constructs compared to the BMSC-constructs during the first-week post-implantation. The high level of chemokine production by the ATSCs was confirmed at the gene and protein levels before implantation. The immune cell recruitment within the constructs was then explored post-implantation. Higher numbers of TRAP-/ MRC1 (CD206) + multinucleated giant cells, NOS2 + M1, and ARG1 + M2 macrophages were present in the ATSC constructs than in the BMSC constructs. These results proved that ATSCs are a transient source of inflammatory cytokines promoting a transient immune response post-implantation; this milieu correlates with impaired osteogenic differentiation of both the implanted ATSCs and the host osteoprogenitor cells. [ABSTRACT FROM AUTHOR]

Published

2023

4. Application of Adipose Tissue Stem Cells in Regenerative Dentistry: A Systematic Review.

Author

Gaur, Sumit and Agnihotri, Rupali

Subjects

ADIPOSE tissues, REGENERATION (Biology), STEM cells, DENTAL pulp, BONE regeneration

Abstract

Aim: The aim of this study was to systematically review the applications of adipose tissue stem cells (ADSCs) in regenerative dentistry. Materials and Methods: An M electronic search was conducted in Medline (PubMed) and Scopus databases. The original research associated with the role of ADSCs in regeneration of alveolar bone, periodontal ligament (PDL), cementum as well as the dental pulp was evaluated. Among the included studies, three animal studies and one human study had low risk of bias. Results: A total of 33 relevant studies were included in the review. The animal models, in vivo human, and in vitro studies revealed that ADSCs had a significant osteogenic differentiation potential. Besides, they had potential to differentiate into PDL, cementum, and dental pulp tissue. Conclusion: The ADSCs may be specifically applied for bone tissue engineering in the management of alveolar bone defects, specifically in dental implants and periodontal disease. However, their role in regeneration of PDL, cementum, and dental pulp requires further investigations. Overall, their applications in regenerative dentistry needs further verification through human clinical trials. [ABSTRACT FROM AUTHOR]

Published

2021

5. Regional grafting of autologous adipose tissue is effective in inducing prompt healing of indolent digital ulcers in patients with systemic sclerosis: results of a monocentric randomized controlled study

Author

Nicoletta Del Papa, Gabriele Di Luca, Romina Andracco, Eleonora Zaccara, Wanda Maglione, Francesca Pignataro, Antonina Minniti, and Claudio Vitali

Subjects

Systemic sclerosis, Digital ulcers, Autologous fat grafting, Adipose tissue stem cells, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background A randomized controlled trial (RCT) was performed to confirm preliminary uncontrolled data indicating that regional adipose tissue (AT) grafting (G) is effective in inducing ischemic digital ulcer (IDU) healing in patients with systemic sclerosis (SSc). Patients and methods SSc patients with IDUs were randomized to be blindly treated with AT-G or a sham procedure (SP). AT-G consisted of injection, at the base of the finger with the IDU, of 0.5–1 ml AT after centrifugation of fat aspirate. The SP consisted of false liposuction and local injection of saline solution. The primary endpoint was to compare the cumulative prevalence of healed IDUs in the two groups within the following 8 weeks. Results AT-G and the SP were carried out in 25 and 13 patients, respectively. The two groups were comparable for age, gender, disease duration, and SSc subtypes. IDU healing was observed in 23/25 and 1/13 patients treated with AT-G and the SP, respectively (p

Published

2019

6. Integrative Analysis of MicroRNAs and mRNAs in LPS-Induced Macrophage Inflammation Based on Adipose Tissue Stem Cell Therapy.

Author

Bai, Xiaozhi, He, Ting, Liu, Mingchuan, Li, Lincheng, Chen, Jie, Cao, Mengyuan, Liu, Yang, Yang, Chen, Jia, Wenbin, Tao, Ke, Han, Juntao, and Hu, Dahai

Subjects

*ADIPOSE tissue diseases, *STEM cell treatment, *ADIPOSE tissues, *NUCLEOTIDE sequence, *MACROPHAGES, *MICRORNA

Abstract

Severe inflammation can lead to multiple organ dysfunction syndrome, which has high mortality. Adipose-derived stem cells have been shown to affect the inflammatory response of macrophages. However, the molecular mechanism of the anti-inflammatory capacity of adipose-derived stem cells (ADSCs) remains to be understood. In the present study, a macrophage inflammation model was established by LPS, and treated with different volumes of ADSC supernatant. Then, we investigated the key genes in the LPS group and treatment group by RT-PCR, RNA sequencing technology, and bioinformatics analysis. A total of 26 miRNAs and 11,882 mRNAs were differentially expressed between them. The expression of 15 of the miRNAs (9 upregulated and 6 downregulated) was confirmed by RT-PCR. GO and KEGG pathway analyses of the targets of the 9 significantly upregulated miRNAs showed that they were related to immune system process, inflammatory response, lipopolysaccharide, and TNF-α, NF-κB, Toll-like receptor, and MAPK signaling pathways. Moreover, a miRNA-mRNA network also revealed 8 important genes (Mapkapk2, Sepp1, Cers6, Snn, ZfP568, Ccdc93, Pofut1, Pik3cd). We finally confirmed the expression of these 8 targeted genes by performing the RT-PCR analysis. This study may provide a new understanding of the molecular mechanism of ADSCs in the inflammatory response related to multiple miRNAs and mRNAs. [ABSTRACT FROM AUTHOR]

Published

2021

7. Cellular Therapies in Nerve Regeneration

Author

Cwykiel, Joanna, Tfaily, Ewa Bryndza, Siemionow, Maria Z., and Siemionow, Maria Z., editor

Published

2015

8. Human Adipose-Derived Pericytes: Biological Characterization and Reprogramming into Induced Pluripotent Stem Cells.

Author

Ahmed, Toka A., Shousha, Wafaa G., Abdo, Sara M., Mohamed, Ihab K., and El-Badri, Nagwa

Subjects

*PERICYTES, *BLOOD vessels, *ELECTRON microscopy, *CATENINS, *CELLULAR therapy, *REGENERATIVE medicine

Abstract

Background/Aims: Pericytes (PCs) are multipotent vascular precursors that play a critical physiological role in the development and maintenance of blood vessel integrity. In this study, we aim to characterize PCs isolated from human abdominal adipose tissue and develop an integration-free induced pluripotent stem cells (iPSCs) using episomal vectors. Methods: The ultrastructure of adipose tissue-derived PCs was determined using scanning and transmission electron microscopy. The expression of mesenchymal stem cells (MSCs) and pericyte markers were examined using flow cytometry and PCR analysis. PCs were induced to adipogenic, osteogenic and myogenic lineages, and their angiogenic potential was determined using tube formation assay. We further established pericyte reprogramming protocol using episomal vectors. Results: Our data showed that human adipose tissue-derived PCs uniformly expressed MSCs, CD105 and CD73, and PCs markers, desmin, and alpha smooth muscle actin (α-SMA), while lacked the expression of HLA-DR and the hematopoietic markers CD34, CD11b and CD45. Ultrastructure analysis showed typical internal structure for the PCs with a characteristic prominent eccentric nuclei and cytoplasmic invaginations forming a caveolar system. Functional analysis showed efficient differentiation into adipocytes, osteocytes, and myocytelike cells. Adipose tissue-derived PCs showed angiogenic potential using tube-forming assay. To determine further application of these cells for personalized therapy, we reprogrammed PCs into induced pluripotent stem cells (iPSCs) using episomal vectors. Reprogrammed cells gradually lost their fusiform shape, acquired the epithelial cell morphology and formed colonies. Furthermore, reprogrammed cells successfully expressed the pluripotency markers OCT4, Nanog, SSEA-4, and β-catenin, an early reprogramming marker. Conclusion: The accessibility and abundance of human fat supports the application of adipose derived PCs as a novel and promising source of cell therapy and regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2020

9. Adipose‐derived stem cells decreased microglia activation and protected dopaminergic loss in rat lipopolysaccharide model.

Author

Muñoz, Mario F., Argüelles, Sandro, Medina, Rafael, Cano, Mercedes, and Ayala, Antonio

Subjects

*DOPAMINERGIC neurons, *STEM cells, *STEM cell treatment, *PARKINSON'S disease, *FAT cells, *NEURODEGENERATION

Abstract

Adult stem cell therapy is being used extensively to rejuvenate damaged tissue. One important tissue source to obtain these cells is adipose, which contains cells called adipose‐derived stem cells (ADSCs). These cells have a great therapeutic potential not only for their multipotent properties as well as for immunomodulatory effects on the immune system. Parkinson's disease is characterized as neurodegenerative disorder which etiology is undoubtedly related to neuroinflammation process. The properties of ADSCs can be used as a new tool in stem cells therapy to treat neurodegenerative disorders. However, their efficacies are still controversial. Some authors have reported neuroprotection effects, while others did not find differences or stem cells increased the damage. Our previous study showed that ADSCs can survive long time after transplantation, suggesting us some biological effects could need more time to be repaired. In this study, we assessed the neuroprotection 6 months after transplantation. Our results suggest ADSCs can protect the dopaminergic loss after lipopolysaccharide (LPS) injection both reducing the microglia activation and differentiating into dopaminergic cells. [ABSTRACT FROM AUTHOR]

Published

2019

10. Influence of passage number on the impact of the secretome of adipose tissue stem cells on neural survival, neurodifferentiation and axonal growth.

Author

Serra, Sofia C., Costa, João C., Assunção-Silva, Rita C., Teixeira, Fábio G., Silva, Nuno A., Anjo, Sandro I., Manadas, Bruno, Gimble, Jeffrey M., Behie, Leo A., and Salgado, António J.

Subjects

*ADIPOSE tissues, *MESENCHYMAL stem cells, *PROGENITOR cells, *CELL culture, *CENTRAL nervous system

Abstract

Abstract Mesenchymal stem cells (MSCs), and within them adipose tissue derived stem cells (ASCs), have been shown to have therapeutic effects on central nervous system (CNS) cell populations. Such effects have been mostly attributed to soluble factors, as well as vesicles, present in their secretome. Yet, little is known about the impact that MSC passaging might have in the secretion therapeutic profile. Our aim was to show how human ASCs (hASCs) passage number influences the effect of their secretome in neuronal survival, differentiation and axonal growth. For this purpose, post-natal rat hippocampal primary cultures, human neural progenitor cell (hNPCs) cultures and dorsal root ganglia (DRGs) explants were incubated with secretome, collected as conditioned media (CM), obtained from hASCs in P3, P6, P9 and P12. Results showed no differences when comparing percentages of MAP-2 positive cells (a mature neuronal marker) in neuronal cultures or hNPCs, after incubation with hASCs secretome from different passages. The same was observed regarding DRG neurite outgrowth. In order to characterize the secretomes obtained from different passages, a proteomic analysis was performed, revealing that its composition did not vary significantly with passage number P3 to P12. Results allowed us to identify several key proteins, such as pigment epithelium derived factor (PEDF), DJ-1, interleucin-6 (IL-6) and galectin, all of which have already proven to play neuroprotective and neurodifferentiating roles. Proteins that promote neurite outgrowth were also found present, such as semaphorin 7A and glypican-1. We conclude that cellular passaging does not influence significantly hASCs's secretome properties especially their ability to support post-natal neuronal survival, induce neurodifferentiation and promote axonal growth. Highlights • The secretome of ASCs induces neuronal survival and differentiation, and axonal growth. • Cell passaging of ASCs does not influence the impact of their secretome in neuronal differentiation and axonal growth. • The expression of neuroregulatory molecules in the secretome of ASCs does not significantly change with cell passaging. [ABSTRACT FROM AUTHOR]

Published

2018

11. Cell tracking, survival, and differentiation capacity of adipose‐derived stem cells after engraftment in rat tissue.

Author

Muñoz, Mario F., Argüelles, Sandro, Guzman‐Chozas, Matias, Guillén‐Sanz, Remedios, Franco, Jaime M., Pintor‐Toro, José A., Cano, Mercedes, and Ayala, Antonio

Subjects

*ADIPOSE tissues, *STEM cells, *STEM cell transplantation, *BIOLUMINESCENCE, *MESENCHYMAL stem cells, *TRANSPLANTATION of organs, tissues, etc.

Abstract

Adipose tissue is an important source of adipose derived stem cells (ADSCs). These cells have the potential of being used for certain therapies, in which the main objective is to recover the function of a tissue/organ affected by a disease. In order to contribute to repair of the tissue, these cells should be able to survive and carry out their functions in unfavorable conditions after being transplanted. This process requires a better understanding of the biology involved: such as the time cells remain in the implant site, how long they stay there, and whether or not they differentiate into host tissue cells. This report focuses on these questions. ADSC were injected into three different tissues (substantia nigra, ventricle, liver) and they were tracked in vivo with a dual GFP‐Luc reporter system. The results show that ADSCs were able to survive up to 4 months after the engraftment and some of them started showing resident cell tissue phenotype. These results demonstrate their long‐term capacity of survival and differentiation when injected in vivo. [ABSTRACT FROM AUTHOR]

Published

2018

12. Adipose tissue stem cells in regenerative medicine.

Author

Miana, Vanesa Verónica and González, Elio A. Prieto

Subjects

*REGENERATIVE medicine, *MESENCHYMAL stem cells, *CELL differentiation

Abstract

Adipose tissue-derived stem cells (ADSCs) are mesenchymal cells with the capacity for self-renewal and multipotential differentiation. This multipotentiality allows them to become adipocytes, chondrocytes, myocytes, osteoblasts and neurocytes among other cell lineages. Stem cells and, in particular, adipose tissue-derived cells, play a key role in reconstructive or tissue engineering medicine as they have already proven effective in developing new treatments. The purpose of this work is to review the applications of ADSCs in various areas of regenerative medicine, as well as some of the risks associated with treatment with ADSCs in neoplastic disease. [ABSTRACT FROM AUTHOR]

Published

2018

13. WNT3A and the induction of the osteogenic differentiation in adipose tissue derived mesenchymal stem cells.

Author

Morsczeck, C., Reck, A., and Reichert, T.E.

Subjects

ADIPOSE tissues, WNT proteins, MESENCHYMAL stem cells, OSTEOINDUCTION, ALKALINE phosphatase

Abstract

Adipose tissue derived stem cells (ASCs) can easily be isolated, but the osteogenic differentiation potential is limited. To improve this differentiation potential, more investigations are required about signaling proteins for the induction of the osteogenic differentiation. This study focused on the WNT3A protein, because little is known about the canonical WNT signaling pathway and the osteogenic differentiation of ASCs. The alkaline phosphatase (ALP) activity was measured for the evaluation of the osteogenic differentiation. WNT3A and Dickkopf-related protein 1 (DKK1) were used for the activation and the inhibition of the canonical WNT signaling pathway, respectively. For control we manipulated the bone morphogenetic protein (BMP) pathway in ASCs with BMP2 and NOGGIN (BMP pathway inhibitor). WNT3A stimulated significantly the ALP activity in ASCs, while BMP2, DKK1 and NOGGIN did not induce highly the ALP activity in ASCs. Moreover, an osteogenic differentiation medium with dexamethasone and WNT3A increased the ALP activity, but the gene expression of osteoblast markers and the biomineralization after long-term cultures were not increased. In contrast, ASCs differentiated into adipocyte-like cells in all tested differentiation media. WNT3A did not repress the expression of the adipogenic transcription factor Peroxisome Proliferator-Activated Receptor Gamma (PPARG). In conclusion, WNT3A supports early stages such as the ALP activity, but it does neither improve later stages of the osteogenic differentiation nor it inhibits the genuine adipogenic differentiation of ASCs. [ABSTRACT FROM AUTHOR]

Published

2017

14. Effect of low-intensity pulsed ultrasound on regenerative potential of transplanted ASCs â€'PCL construct in articular cartilage defects in sheep

Author

PARVIZ VAHEDI, LEILA ROSHANGAR, SEYEDHOSEIN JAROLMASJED, HAJAR SHAFAEI, NASSER SAMADI, and JAFAR SOLEIMANIRAD

Subjects

Adipose tissue stem cells, Cartilage defects, Chondrogenesis, Scaffolds, Ultrasound therapy, Animal culture, SF1-1100

Abstract

Articular cartilage is affected by weight loading and mechanical stimuli. Low intensity ultrasound promotes chondrogenesis in cartilage injury. This study was designed to show the effect of low-intensity pulsed ultrasound on chondrogenesis potential of transplanted adipose derived stem cells- polycaprolactone (ASCs –PCL) construct in vivo.The adipose tissue was obtained from infrapatellar fat pad of 5 male sheep. Adipose tissue derived stem cells (ASCs) at passage 2 were seeded in polycaprolactone (PCL). The cartilage defects were created on both sides of distal femoral articular cartilage. The right joint was chosen as control group. The left joint was chosen as experimental group and was exposed to low-intensity pulsed ultrasound with intensity 200 mW/cm², 10 min/day for 6 weeks. After 6 months, animals were euthanized to retrieve repaired articular cartilage tissue. Macroscopic appearance of defects was examined and samples of repaired cartilage tissue were analyzed by real time RT-PCR. The results showed that in the treated group with-LIPUS, cartilage defects were totally filled with relatively thin amorphous proliferative tissue and in the control group the defects were left as a dimple in the cartilage defects. Real time RT-PCR analysis showed that cartilage-specific genes expression levels are significantly increased by application of LIPUS after transplantation of ASCs-PCL construct in vivo. The results suggested that low-intensity pulsed ultrasound stimulates ASCs differentiation and induces chondrogenesis at the ASCs-PCL construct in in vivo.

Published

2016

15. Effect of low-intensity pulsed ultrasound on regenerative potential of transplanted ASCs -PCL construct in articular cartilage defects in sheep.

Author

VAHEDI, PARVIZ, ROSHANGAR, LEILA, JAROLMASJED, SEYEDHOSEIN, SHAFAEI, HAJAR, SAMADI, NASSER, and SOLEIMANIRAD, JAFAR

Subjects

SHEEP diseases, ARTICULAR cartilage diseases, CHONDROGENESIS, GENE expression, ULTRASONIC imaging

Abstract

Articular cartilage is affected by weight loading and mechanical stimuli. Low intensity ultrasound promotes chondrogenesis in cartilage injury. This study was designed to show the effect of low-intensity pulsed ultrasound on chondrogenesis potential of transplanted adipose derived stem cells- polycaprolactone (ASCs -PCL) construct in vivo.The adipose tissue was obtained from infrapatellar fat pad of 5 male sheep. Adipose tissue derived stem cells (ASCs) at passage 2 were seeded in polycaprolactone (PCL). The cartilage defects were created on both sides of distal femoral articular cartilage. The right joint was chosen as control group. The left joint was chosen as experimental group and was exposed to low-intensity pulsed ultrasound with intensity 200 mW/cm2, 10 min/day for 6 weeks. After 6 months, animals were euthanized to retrieve repaired articular cartilage tissue. Macroscopic appearance of defects was examined and samples of repaired cartilage tissue were analyzed by real time RT-PCR. The results showed that in the treated group with-LIPUS, cartilage defects were totally filled with relatively thin amorphous proliferative tissue and in the control group the defects were left as a dimple in the cartilage defects. Real time RT-PCR analysis showed that cartilage-specific genes expression levels are significantly increased by application of LIPUS after transplantation of ASCs-PCL construct in vivo. The results suggested that low-intensity pulsed ultrasound stimulates ASCs differentiation and induces chondrogenesis at the ASCs-PCL construct in in vivo. [ABSTRACT FROM AUTHOR]

Published

2016

16. Mouse adipose tissue stromal cells give rise to skeletal and cardiomyogenic cell sub-populations

Author

Cécile eDromard, Corinne eBarreau, Mireille eAndré, Sandra eBerger-Müller, Louis eCasteilla, and Valerie ePlanat-Benard

Subjects

Cell plasticity, Adipose tissue stem cells, in vitro differentiation, Skeletal myogenesis, Cardiac myogenesis, Biology (General), QH301-705.5

Abstract

We previously reported that adipose tissue could generate cardiomyocyte-like cells from crude stromal vascular fraction (SVF) in vitro that improved cardiac function in a myocardial infarction context. However, it is not clear whether these adipose-derived cardiomyogenic cells (AD-CMG) constitute a homogenous population and if AD-CMG progenitors could be isolated as a pure population from the SVF of adipose tissue. This study aims to characterize the different cell types that constitute myogenic clusters and identify the earliest AD-CMG progenitors in vitro for establishing a complete phenotype and use it to sort AD-CMG progenitors from crude SVF. Here, we report cell heterogeneity among adipose-derived clusters during their course of maturation and highlighted sub-populations that exhibit original mixed cardiac/skeletal muscle phenotypes with a progressive loss of cardiac phenotype with time in liquid culture conditions. Moreover, we completed the phenotype of AD-CMG progenitors but we failed to sort them from the stromal vascular fraction. We demonstrated that micro-environment is required for the maturation of myogenic phenotype by co-culture experiments. These findings bring complementary data on AD-CMG and suggest that their emergence results from in vitro events.

Published

2014

17. Application of Adipose Tissue Stem Cells in Regenerative Dentistry: A Systematic Review

Author

Sumit, Gaur and Rupali, Agnihotri

Subjects

stomatognathic diseases, stomatognathic system, periodontal ligament, pulp, regeneration, tissue engineering, Review Article, Adipose tissue stem cells, bone, cementum

Abstract

Aim: The aim of this study was to systematically review the applications of adipose tissue stem cells (ADSCs) in regenerative dentistry. Materials and Methods: An electronic search was conducted in Medline (PubMed) and Scopus databases. The original research associated with the role of ADSCs in regeneration of alveolar bone, periodontal ligament (PDL), cementum as well as the dental pulp was evaluated. Among the included studies, three animal studies and one human study had low risk of bias. Results: A total of 33 relevant studies were included in the review. The animal models, in vivo human, and in vitro studies revealed that ADSCs had a significant osteogenic differentiation potential. Besides, they had potential to differentiate into PDL, cementum, and dental pulp tissue. Conclusion: The ADSCs may be specifically applied for bone tissue engineering in the management of alveolar bone defects, specifically in dental implants and periodontal disease. However, their role in regeneration of PDL, cementum, and dental pulp requires further investigations. Overall, their applications in regenerative dentistry needs further verification through human clinical trials.

Published

2021

18. Molecular and Cellular Mechanisms Involved in Adipose-derived stem cell and their extracellular vesicles in an Experimental Model of Cardio- renal Syndrome type 3: Histological and Biochemical Study.

Author

Alasmari, Wardah Abdullah, Hosny, Somaya, Fouad, Hanan, Quthami, Khalid Al, Althobiany, Essa Abdulaziz Mohammed, and Faruk, Eman Mohamed

Subjects

EXTRACELLULAR vesicles, STEM cells, ATRIAL natriuretic peptides, CARDIO-renal syndrome, FAT cells, CELL death, HEART cells

Abstract

A cardio-renal syndrome (CRS) is a medical condition in which kidney problems are accompanied by heart problems and diagnosed when acute kidney injury contributes to the development of acute cardiac injury. Regenerative medicine is becoming increasingly interested in adipose stem cells. We evaluated the effect of both adipose-derived stem cell extracellular vesicles (ADSCs-EVs) and adipose stem cells (ADSCs) on an experimental model of CRSIII. In this study, isolation, and further identification of ADSCs and ADSCs-EVs by transmission electron microscopy and flow cytometric analysis. Cardio-renal syndrome in rats was induced by renal artery ligation RAL followed by a single dose injection of both ADSCs and ADSCs-EVs in separate groups. The effects of ADSCs-EVs and ADSCs against induced CRSIII were evaluated by both renal and cardiac oxidant/antioxidant biomarkers, renal function, and mRNA gene expression quantitation for atrial natriuretic peptide (ANP), p300, and myocyte enhancer factor 2 (MEF2C and MEF2A), as well as myocardin (MYOCD), as molecules associated with cardiac hypertrophy. Additionally, histological and immunohistochemical studies of cardiac and renal tissues were done. ADSCs-EVs were effectively isolated and characterized. ADSCs-EVs and ADSCs reversed induced CRSIII, evidenced by considerably decreased serum urea and creatinine levels. Returned oxidant/antioxidant stability, and decreased caspase 3-mediated apoptotic programmed cell death in cardiac and renal tissues. Additionally, they led to successful down-regulation of hypertrophic cardiac genes levels and reversed histopathological cardiac and renal injures. ADSCs-derived extracellular vesicles and ADSCs injection restored damaged cardiac and renal tissue and improved its function greatly following induced CRSIII. They could therefore be useful as a means of protecting the heart from the deleterious effects of acute renal injury and reprogramed injured cardiac cells by activating regenerative processes. Cardiorenal syndrome (CRS) type III is a subcategory of CRS whereby acute kidney injury (AKI) could contribute to the development of acute cardiac dysfunction. This study provided innovatory data regarding the role of adipose-derived stem cell extracellular vesicles ADSCs-EVs and adipose stem cells (ADSCs) in acute renal and cardiac dysfunction and renal biopsy specimens in the form of interstitial inflammation/tubular degeneration. The main cause of renal and cardiac dysfunction is identified to be the activation and accumulation of inflammatory cells and oxidants in the interstitium, surrounded by increased amounts of extracellular matrix, and ADSCs-EVs have been proposed as a contributor factor. The study has evidenced that both ADSCs-EVs and adipose stem cells display beneficial effects on renal and cardiac tissues survival in terms of the frequent occurrence of cardio-renal syndrome, ADSC-EVs treatment repaired damaged renal and cardiac tissues and recovered their function. ADSC-EVs reversed the effects of cardio-renal syndrome and reprogramed injured cells by activating regenerative processes. The clinical significance of the results presented in future studies needs to be investigated further. [Display omitted] • Cardiorenal syndrome (CRS) type III is a subcategory of CRS whereby acute kidney injury (AKI) could contribute to the development of acute cardiac dysfunction. • Mesenchymal stem/or stromal cells (MSCs) have been proved to exert significant therapeutic effects in experimental AKI and CKD and have been used in clinical studies with great safety. • ADSCs can be obtained from abundant adipose tissue through a minimally invasive procedure. ADSCs can therefore be used to regenerate tissues and organs that have been injured or diseased. • Extracellular vesicles contain numerous proteins and genetic materials that could activate several repair mechanisms in the recipient cells. [ABSTRACT FROM AUTHOR]

Published

2022

19. Priming mesenchymal stem cells boosts stem cell therapy to treat myocardial infarction.

Author

Carvalho, Juliana L., Braga, Vinicius B. A., Melo, Marcos B., Campos, Ana Carolina D. A., Oliveira, Maira S., Gomes, Dawidson A., Ferreira, Anderson J., Santos, Robson A. S., and Goes, Alfredo M.

Subjects

MESENCHYMAL stem cells, STEM cell treatment, MYOCARDIAL infarction treatment, CARDIOVASCULAR disease related mortality, TREATMENT effectiveness, GENE expression, ECHOCARDIOGRAPHY

Abstract

Cardiovascular diseases are the number one cause of death globally and are projected to remain the single leading cause of death. Treatment options abounds, although efficacy is limited. Recent studies attribute discrete and ephemeral benefits to adult stem cell therapies, indicating the urge to improve stem cell based-therapy. In this study, we show that priming mesenchymal stem cells ( MSC) towards cardiomyogenic lineage enhances their beneficial effects in vivo as treatment option for acute phase myocardial infarction. MSC were primed using cardiomyogenic media for 4 days, after which peak expression of key cardiomyogenic genes are reached and protein expression of Cx-43 and sarcomeric α-actinin are observed. MSC and primed MSC ( pMSC) were characterized in vitro and used to treat infarcted rats immediately after left anterior descending ( LAD) occlusion. Echocardiography analysis indicated that MSC-treated myocardium presented discrete improvement in function, but it also showed that pMSC treatment lead to superior beneficial results, compared with undifferentiated MSC. Seven days after cell injection, MSC and pMSC could still be detected in the myocardium. Connexin-43 expression was quantified through immunoblotting, and was superior in pMSC, indicating that this could be a possible explanation for the superior performance of pMSC therapy. [ABSTRACT FROM AUTHOR]

Published

2013

20. Generation of Pancreatic Hormone-Expressing Islet-Like Cell Aggregates from Murine Adipose Tissue-Derived Stem Cells.

Author

Chandra, Vikash, Swetha, G., Phadnis, Smruti, Nair, Prabha D., and Bhonde, Ramesh R.

Subjects

INSULIN, HORMONES, CELLULAR therapy, STEM cells, CELL populations, CELL surface antigens, TISSUE-specific antigens

Abstract

The success of cell replacement therapy for diabetes depends on the availability and generation of an adequate number of islets, preferably from an autologous origin. Stem cells are now being probed for the generation of physiologically competent, insulin-producing cells. In this investigation, we explored the potential of adipose tissuederived stem cells (ASCs) to differentiate into pancreatic hormone-expressing islet-like cell aggregates (ICAs). We initiated ASC culture from epididymal fat pads of Swiss albino mice to obtain mesenchymal cells, murine epididymal (mE)-ASCs. Subsequent single-cell cloning resulted in a homogeneous cell population with a CD29+CD44+Sca-1+ surface antigen expression profile. We formulated a 10- day differentiation protocol to generate insulin-expressing ICAs from mE-ASCs by progressively changing the differentiation cocktail on day 1, day 3, and day 5. Our stagespecific approach successfully differentiated mesodermic mE-ASCs into definitive endoderm (cells expressing Sox17, Foxa2, GATA-4, and cytokeratin [CK]-19), then into pancreatic endoderm (cells expressing pancreatic and duodenal homeobox [PDX]-1, Ngn3, NeuroD, Pax4, and glucose transporter 2), and finally into cells expressing pancreatic hormones (insulin, glucagon, somatostatin). Fluorescenceactivated cell sorting analysis showed that day 5 ICAs contained 64.84% ± 7.03% PDX-1+ cells, and in day 10 mature ICAs, 48.17% ± 3% of cells expressed C-peptide. Day 10 ICAs released C-peptide in a glucose-dependent manner, exhibiting in vitro functionality. Electron microscopy of day 10 ICAs revealed the presence of numerous secretory granules within the cell cytoplasm. Calcium alginate- encapsulated day 10 ICAs (1,000-1,200), when transplanted i.p. into streptozotocin-induced diabetic mice, restored normoglycemia within 2 weeks. The data presented here demonstrate the feasibility of using ASCs as a source of autologous stem cells to differentiate into the pancreatic lineage. [ABSTRACT FROM AUTHOR]

Published

2009

21. Influence of passage number on the impact of the secretome of adipose tissue stem cells on neural survival, neurodifferentiation and axonal growth

Author

Sofia Serra, Jeffrey M. Gimble, João C. W. A. Costa, Leo A. Behie, Fábio G. Teixeira, António J. Salgado, Nuno A. Silva, Bruno Manadas, Rita C. Assunção-Silva, Sandro I. Anjo, and Universidade do Minho

Subjects

0301 basic medicine, Proteomics, Neurite, Cellular differentiation, Wistar, Adipose tissue, Stem cells, Biology, Biochemistry, Axonal growth, 03 medical and health sciences, PEDF, Semaphorin, Cell differentiation, Animals, Humans, Rats, Wistar, Progenitor cell, Secretome, Science & Technology, Mesenchymal stem cell, General Medicine, Axons, Cell biology, Rats, 030104 developmental biology, Cell culture, Central nervous system, Differentiation, Stem cell, Cell culture techniques, Adipose tissue stem cells

Abstract

Mesenchymal stem cells (MSCs), and within them adipose tissue derived stem cells (ASCs), have been shown to have therapeutic effects on central nervous system (CNS) cell populations. Such effects have been mostly attributed to soluble factors, as well as vesicles, present in their secretome. Yet, little is known about the impact that MSC passaging might have in the secretion therapeutic profile. Our aim was to show how human ASCs (hASCs) passage number influences the effect of their secretome in neuronal survival, differentiation and axonal growth. For this purpose, post-natal rat hippocampal primary cultures, human neural progenitor cell (hNPCs) cultures and dorsal root ganglia (DRGs) explants were incubated with secretome, collected as conditioned media (CM), obtained from hASCs in P3, P6, P9 and P12. Results showed no differences when comparing percentages of MAP-2 positive cells (a mature neuronal marker) in neuronal cultures or hNPCs, after incubation with hASCs secretome from different passages. The same was observed regarding DRG neurite outgrowth. In order to characterize the secretomes obtained from different passages, a proteomic analysis was performed, revealing that its composition did not vary significantly with passage number P3 to P12. Results allowed us to identify several key proteins, such as pigment epithelium derived factor (PEDF), DJ-1, interleucin-6 (IL-6) and galectin, all of which have already proven to play neuroprotective and neurodifferentiating roles. Proteins that promote neurite outgrowth were also found present, such as semaphorin 7A and glypican-1. We conclude that cellular passaging does not influence significantly hASCs's secretome properties especially their ability to support post-natal neuronal survival, induce neurodifferentiation and promote axonal growth., Prémios Santa Casa Neurociências - Prize Melo e Castro for Spinal Cord Injury Research (MC-17-2013 and MC-04-2017), Canada Research Chair in Biomedical Engineering (LAB), Northern Portugal Regional Operational Programme (NORTE 2020),, European Regional Development Fund (FEDER), Competitiveness Factors Operational Programme (COMPETE), National Mass Spectrometry Network (RNEM), info:eu-repo/semantics/publishedVersion

Published

2018

22. Regional grafting of autologous adipose tissue is effective in inducing prompt healing of indolent digital ulcers in patients with systemic sclerosis: results of a monocentric randomized controlled study

Author

R. Andracco, Antonina Minniti, Eleonora Zaccara, Francesca Pignataro, Nicoletta Del Papa, Wanda Maglione, Claudio Vitali, and Gabriele Di Luca

Subjects

0301 basic medicine, Adult, Male, medicine.medical_specialty, lcsh:Diseases of the musculoskeletal system, Visual analogue scale, medicine.medical_treatment, Adipose tissue, Gastroenterology, law.invention, Fingers, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Randomized controlled trial, law, Internal medicine, Skin Ulcer, medicine, Clinical endpoint, Humans, Autografts, Autologous fat grafting, Saline, Aged, 030203 arthritis & rheumatology, Wound Healing, Scleroderma, Systemic, business.industry, Digital ulcers, Middle Aged, Rheumatology, 030104 developmental biology, Treatment Outcome, Adipose Tissue, Liposuction, Orthopedic surgery, Tissue Transplantation, Systemic sclerosis, Female, lcsh:RC925-935, business, Adipose tissue stem cells, Follow-Up Studies, Research Article

Abstract

Background A randomized controlled trial (RCT) was performed to confirm preliminary uncontrolled data indicating that regional adipose tissue (AT) grafting (G) is effective in inducing ischemic digital ulcer (IDU) healing in patients with systemic sclerosis (SSc). Patients and methods SSc patients with IDUs were randomized to be blindly treated with AT-G or a sham procedure (SP). AT-G consisted of injection, at the base of the finger with the IDU, of 0.5–1 ml AT after centrifugation of fat aspirate. The SP consisted of false liposuction and local injection of saline solution. The primary endpoint was to compare the cumulative prevalence of healed IDUs in the two groups within the following 8 weeks. Results AT-G and the SP were carried out in 25 and 13 patients, respectively. The two groups were comparable for age, gender, disease duration, and SSc subtypes. IDU healing was observed in 23/25 and 1/13 patients treated with AT-G and the SP, respectively (p

Published

2018

23. Adipose tissue stem cells in regenerative medicine

Author

Vanesa Verónica Miana and Elio A. Prieto González

Subjects

0301 basic medicine, Cancer Research, business.industry, Mesenchymal stem cell, Cell, Adipose tissue, Review, adipose tissue stem cells, Regenerative medicine, reconstructive surgery, Cell biology, 03 medical and health sciences, secretome, 030104 developmental biology, medicine.anatomical_structure, Oncology, Tissue engineering, stem cell treatment, medicine, Myocyte, cancer, Stem cell, business, Multipotentiality

Abstract

Adipose tissue-derived stem cells (ADSCs) are mesenchymal cells with the capacity for self-renewal and multipotential differentiation. This multipotentiality allows them to become adipocytes, chondrocytes, myocytes, osteoblasts and neurocytes among other cell lineages. Stem cells and, in particular, adipose tissue-derived cells, play a key role in reconstructive or tissue engineering medicine as they have already proven effective in developing new treatments. The purpose of this work is to review the applications of ADSCs in various areas of regenerative medicine, as well as some of the risks associated with treatment with ADSCs in neoplastic disease.

Published

2018

24. Cell Tracking, Survival, and Differentiation Capacity of Adipose-Derived Stem Cells After Engraftment in Rat Tissue

Author

Universidad de Sevilla. Departamento de Bioquímica y Biología Molecular, Universidad de Sevilla. Departamento de Fisiología, Universidad de Sevilla. Departamento de Nutrición y Bromatología, Toxicología y Medicina Legal, Junta de Andalucía, Muñoz Pinto, Mario Faustino, Argüelles Castilla, Sandro, Guzmán Chozas, Matías, Guillén Sans, Remedios, Franco, Jaime M., Pintor Toro, José A., Cano Rodríguez, María Mercedes, Ayala Gómez, Antonio, Universidad de Sevilla. Departamento de Bioquímica y Biología Molecular, Universidad de Sevilla. Departamento de Fisiología, Universidad de Sevilla. Departamento de Nutrición y Bromatología, Toxicología y Medicina Legal, Junta de Andalucía, Muñoz Pinto, Mario Faustino, Argüelles Castilla, Sandro, Guzmán Chozas, Matías, Guillén Sans, Remedios, Franco, Jaime M., Pintor Toro, José A., Cano Rodríguez, María Mercedes, and Ayala Gómez, Antonio

Abstract

Adipose tissue is an important source of adipose derived stem cells (ADSCs). These cells have the potential of being used for certain therapies, in which the main objective is to recover the function of a tissue/organ affected by a disease. In order to contribute to repair of the tissue, these cells should be able to survive and carry out their functions in unfavorable conditions after being transplanted. This process requires a better understanding of the biology involved: such as the time cells remain in the implant site, how long they stay there, and whether or not they differentiate into host tissue cells. This report focuses on these questions. ADSC were injected into three different tissues (substantia nigra, ventricle, liver) and they were tracked in vivo with a dual GFP-Luc reporter system. The results show that ADSCs were able to survive up to 4 months after the engraftment and some of them started showing resident cell tissue phenotype. These results demonstrate their long-term capacity of survival and differentiation when injected in vivo.

Published

2018

25. Cell tracking, survival, and differentiation capacity of adipose-derived stem cells after engraftment in rat tissue

Author

Muñoz, M. F., Argüelles, Sandro, Guzmán-Chozas, M., Guillén-Sanz, M., Franco, Jaime M., Pintor-Toro, José Antonio, Cano, M., Ayala, A., Muñoz, M. F., Argüelles, Sandro, Guzmán-Chozas, M., Guillén-Sanz, M., Franco, Jaime M., Pintor-Toro, José Antonio, Cano, M., and Ayala, A.

Abstract

Adipose tissue is an important source of adipose derived stem cells (ADSCs). These cells have the potential of being used for certain therapies, in which the main objective is to recover the function of a tissue/organ affected by a disease. In order to contribute to repair of the tissue, these cells should be able to survive and carry out their functions in unfavorable conditions after being transplanted. This process requires a better understanding of the biology involved: such as the time cells remain in the implant site, how long they stay there, and whether or not they differentiate into host tissue cells. This report focuses on these questions. ADSC were injected into three different tissues (substantia nigra, ventricle, liver) and they were tracked in vivo with a dual GFP-Luc reporter system. The results show that ADSCs were able to survive up to 4 months after the engraftment and some of them started showing resident cell tissue phenotype. These results demonstrate their long-term capacity of survival and differentiation when injected in vivo

Published

2018

26. Effect of Purification, Chemical Factor and Shear Stress on Endothelial Differentiation of Human Adipose-Derived Mesenchymal Stem Cells using a Perfusion Bioreactor

Author

Gholami N, Amoabediny GH, Haghighipour N, Hasanzadeh E, Mohammadnejad J, and Shojaei S

Subjects

Adipose Tissue Stem Cells, Perfusion Bioreactor, CD271 Marker, Endothelial Cells, Purification, VEGF, Shear Stress

Abstract

The objective of this study was to answer to these principal questions that whether a more homogeneous and purified colony of Human adipose-derived mesenchymal stem cells (hASCs) has significantly higher ability of differentiation in comparison to heterogeneous hASCs colony? And also is the any synergism between chemical and mechanical motivation of hASCs? For this purpose, CD-271+ hASCs were isolated by flow cytometry approach and their differentiation ability toward endothelial cells (ECs) was analyzed after application of mechanical shear stress and chemical growth factor. The results were compared to that of heterogeneous colony of hASCs. Abdominal adipose tissues were isolated from previously informed and consent 25-35 year old healthy women. A perfusion bioreactor was used for application of flow shear stress of magnitude of 4.64 dyne/cm2 purified and nonpurified hASCs which lie on collagen type I coated silicon scaffold. In addition to that, cells were exposed to 50 ng/ml vascular endothelial growth factor (VEGF) for 7 days. Three endothelial specific genes (FLK-1, vWF and VE-cadherin) were selected and their expressions in RNA level were assessed by real time PCR. Real time PCR results demonstrated that generally CD-271+ hASCs have more promising differentiation ability. Also it has been shown that highest expression of ECs specific genes is related to concurrent chemically and mechanically motivated hASCs. In conclusion, mechanical stimulation is at least as important as chemical stimulations and a more homogeneous group of hASCs could be regarded as a more convenient source of cells for vascular tissue engineering applications.

Published

2018

27. Cell tracking, survival, and differentiation capacity of adipose-derived stem cells after engraftment in rat tissue

Author

Antonio Ayala, M. Guzman-Chozas, Sandro Argüelles, Mercedes Cano, José Antonio Pintor-Toro, Remedios Guillén‐Sanz, Jaime M. Franco, and Mario F. Muñoz

Subjects

0301 basic medicine, Physiology, Cell Survival, Clinical Biochemistry, Cell, Adipose tissue, Substantia nigra, Biology, 03 medical and health sciences, In vivo, medicine, Adipocytes, Animals, Humans, Ventricular Function, Rats, Wistar, Process (anatomy), Cell Proliferation, Adult stem cells, Stem Cells, Mesenchymal stem cell, Engraftment, Cell Differentiation, Cell Biology, Phenotype, Cell biology, Rats, Substantia Nigra, 030104 developmental biology, medicine.anatomical_structure, Adipose Tissue, Liver, Cell Tracking, Differentiation, Mesenchymal stem cells, Bioluminescence, Adipose tissue stem cells, Adult stem cell, Stem Cell Transplantation

Abstract

Adipose tissue is an important source of adipose derived stem cells (ADSCs). These cells have the potential of being used for certain therapies, in which the main objective is to recover the function of a tissue/organ affected by a disease. In order to contribute to repair of the tissue, these cells should be able to survive and carry out their functions in unfavorable conditions after being transplanted. This process requires a better understanding of the biology involved: such as the time cells remain in the implant site, how long they stay there, and whether or not they differentiate into host tissue cells. This report focuses on these questions. ADSC were injected into three different tissues (substantia nigra, ventricle, liver) and they were tracked in vivo with a dual GFP-Luc reporter system. The results show that ADSCs were able to survive up to 4 months after the engraftment and some of them started showing resident cell tissue phenotype. These results demonstrate their long-term capacity of survival and differentiation when injected in vivo

Published

2017

28. Adipose Tissue Stem Cells for Therapy: An Update on the Progress of Isolation, Culture, Storage, and Clinical Application

Author

Le Bui Minh, Dang-Khoa Tran, Thuy Nguyen Thi Phuong, Nguyen Le Bao Tien, Van Huy Pham, Dinh-Toi Chu, Pham Gia Anh, Vu Thi Nga, and Vo Van Thanh

Subjects

endocrine system, Cell type, Stromal cell, animal diseases, medicine.medical_treatment, lcsh:Medicine, Adipose tissue, chemical and pharmacologic phenomena, Review, stem cell therapy, storage, 03 medical and health sciences, 0302 clinical medicine, Medicine, Immune Regulators, 030304 developmental biology, 0303 health sciences, business.industry, lcsh:R, hemic and immune systems, General Medicine, Stem-cell therapy, adipose tissue stem cells, eye diseases, culture, clinical application, medicine.anatomical_structure, Multipotent Stem Cell, 030220 oncology & carcinogenesis, Cancer research, Bone marrow, Stem cell, business, isolation

Abstract

Adipose tissue stem cells (ASCs), known as multipotent stem cells, are most commonly used in the clinical applications in recent years. Adipose tissues (AT) have the advantage in the harvesting, isolation, and expansion of ASCs, especially an abundant amount of stem cells compared to bone marrow. ASCs can be found in stromal vascular fractions (SVF) which are easily obtained from the dissociation of adipose tissue. Both SVFs and culture-expanded ASCs exhibit the stem cell characteristics such as differentiation into multiple cell types, regeneration, and immune regulators. Therefore, SVFs and ASCs have been researched to evaluate the safety and benefits for human use. In fact, the number of clinical trials on ASCs is going to increase by years; however, most trials are in phase I and II, and lack phase III and IV. This systemic review highlights and updates the process of the harvesting, characteristics, isolation, culture, storage, and application of ASCs, as well as provides further directions on the therapeutic use of ASCs.

Published

2019

29. ATSC transplantation contributes to liver regeneration following paracetamol-induced acute liver injury through differentiation into hepatic-like cells.

Author

Feretis T, Katselis C, Papanikolaou IG, Apostolou K, Tsikalakis S, Toutouzas KG, Theodoropoulos G, Trigka EA, Saetta AA, Alexakis N, Konstandoulakis M, Tsarea K, Karamperi M, Kletsas D, Patsouris E, Manouras A, Zografos GC, and Papalois A

Abstract

Introduction: Drug-induced liver injury (DILI) is a leading cause of acute liver injury (ALI). Acetaminophen (also termed paracetamol), can often be found in drugs that may be abused (i.e., prescription for pain relief). Animal experiments have shown that mesenchymal stem cell transplantation can ameliorate or even reverse hepatic injury., Material and Methods: ALI was induced in Wistar rats using paracetamol. ATSCs were transplanted via the intravenous, portal vein, or intrahepatic route directly onto the liver parenchyma. Histological evaluation was conducted to assess drug-induced injury following transplantation. Fluorescence in situ hybridization (FISH) was used to verify the location of stem cells on the liver parenchyma. The effect of those cells on liver regeneration was tested by immunohistochemistry for hepatic growth factor (HGF). In addition, reverse transcription-quantitative PCR (qRT-PCR) was used to assess hepatic growth factor (HGF), hepatic nuclear factor 4α (HNF4α), cytochrome P450 1A2 (CYP1A2) and α-fetoprotein (AFP) mRNA expression., Results: Immunohistochemical staining for HGF was stronger in the transplanted groups than that in the control group (P<0.001). HNF4α and HGF mRNA levels were increased on day 7 following transplantation (P<0.001 and P=0.009, respectively). CYP1A2 mRNA levels were also increased (P=0.013) in the intravenous groups, while AFP levels were higher in the intrahepatic groups (P=0.006). ATSC transplantation attenuates ALI injury and promotes liver regeneration. Furthermore, expression of specific hepatic enzymes points to ATSC hepatic differentiation., Conclusion: The study showed the positive effects of transplanted adipose tissue stem cells (ATSCs) on liver regeneration (LG) through hepatotrophic factors. Furthermore, increased expression of hepatic specific proteins was recorded in ATSC transplanted groups that indicate stem cells differentiation into hepatic cells., Competing Interests: None., (AJSC Copyright © 2020.)

Published

2020

30. Adipose Tissue Stem Cells for Therapy: An Update on the Progress of Isolation, Culture, Storage, and Clinical Application.

Author

Chu, Dinh-Toi, Nguyen Thi Phuong, Thuy, Tien, Nguyen Le Bao, Tran, Dang Khoa, Minh, Le Bui, Thanh, Vo Van, Gia Anh, Pham, Pham, Van Huy, and Thi Nga, Vu

Subjects

ADIPOSE tissues, STEM cell treatment, MULTIPOTENT stem cells, BONE marrow cells, STEM cells

Abstract

Adipose tissue stem cells (ASCs), known as multipotent stem cells, are most commonly used in the clinical applications in recent years. Adipose tissues (AT) have the advantage in the harvesting, isolation, and expansion of ASCs, especially an abundant amount of stem cells compared to bone marrow. ASCs can be found in stromal vascular fractions (SVF) which are easily obtained from the dissociation of adipose tissue. Both SVFs and culture-expanded ASCs exhibit the stem cell characteristics such as differentiation into multiple cell types, regeneration, and immune regulators. Therefore, SVFs and ASCs have been researched to evaluate the safety and benefits for human use. In fact, the number of clinical trials on ASCs is going to increase by years; however, most trials are in phase I and II, and lack phase III and IV. This systemic review highlights and updates the process of the harvesting, characteristics, isolation, culture, storage, and application of ASCs, as well as provides further directions on the therapeutic use of ASCs. [ABSTRACT FROM AUTHOR]

Published

2019

31. Priming mesenchymal stem cells boosts stem cell therapy to treat myocardial infarction

Author

Dawidson Assis Gomes, Maira Souza Oliveira, Juliana Lott Carvalho, Anderson J. Ferreira, Robson A.S. Santos, Ana Carolina De Angelis Campos, Vinicius B. A. Braga, Marcos B. Melo, and Alfredo M. Goes

Subjects

Sarcomeres, connexin-43, medicine.medical_treatment, Cellular differentiation, Green Fluorescent Proteins, Immunoblotting, Myocardial Infarction, Priming (immunology), Cell Separation, Mesenchymal Stem Cell Transplantation, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, In vivo, medicine, Animals, Actinin, Myocytes, Cardiac, 030304 developmental biology, 0303 health sciences, mesenchymal stem cells, business.industry, Mesenchymal stem cell, Cell Differentiation, Cell Biology, Stem-cell therapy, Original Articles, adipose tissue stem cells, 3. Good health, Rats, Echocardiography, Rats, Inbred Lew, 030220 oncology & carcinogenesis, Connexin 43, Immunology, Heart Function Tests, Cancer research, Molecular Medicine, Stem cell, cell therapy, business, Adult stem cell

Abstract

Cardiovascular diseases are the number one cause of death globally and are projected to remain the single leading cause of death. Treatment options abounds, although efficacy is limited. Recent studies attribute discrete and ephemeral benefits to adult stem cell therapies, indicating the urge to improve stem cell based-therapy. In this study, we show that priming mesenchymal stem cells (MSC) towards cardiomyogenic lineage enhances their beneficial effects in vivo as treatment option for acute phase myocardial infarction. MSC were primed using cardiomyogenic media for 4 days, after which peak expression of key cardiomyogenic genes are reached and protein expression of Cx-43 and sarcomeric α-actinin are observed. MSC and primed MSC (pMSC) were characterized in vitro and used to treat infarcted rats immediately after left anterior descending (LAD) occlusion. Echocardiography analysis indicated that MSC-treated myocardium presented discrete improvement in function, but it also showed that pMSC treatment lead to superior beneficial results, compared with undifferentiated MSC. Seven days after cell injection, MSC and pMSC could still be detected in the myocardium. Connexin-43 expression was quantified through immunoblotting, and was superior in pMSC, indicating that this could be a possible explanation for the superior performance of pMSC therapy.

Published

2012

32. Immunolocalization of Substance P and NK-1 Receptor in ADIPOSE Stem Cells.

Author

Muñoz M, Muñoz MF, and Ayala A

Subjects

Adipose Tissue cytology, Animals, Humans, Rats, Stem Cells cytology, Adipose Tissue metabolism, Cell Nucleus metabolism, Cytoplasm metabolism, Receptors, Neurokinin-1 metabolism, Stem Cells metabolism, Substance P metabolism

Abstract

Substance P (SP) is a neuropeptide belonging to the thachykinin peptide family. SP, after binding to its receptor, the neurokinin 1 receptor (NK1R), controls several transcription factors such as NF-κB, hypoxia inducible factor (HIF-1α), c-myc, c-fos, c-jun, and AP-1. SP and NK1R have a widespread distribution in both the central and peripheral nervous systems. They are also present in cells not belonging to the nervous system (immune cells, placenta, etc.). SP is located in all body fluids, that is, blood, cerebrospinal fluid, etc., making it ubiquitous throughout the human body. SP and NK1R genes are expressed in the stem cell line TF-1 and in primary stem cells derived from human placental cord blood. However, to our knowledge, the presence of SP and the NK1R receptor in adipose stem cells (ADSC) is unknown. We demonstrated by immunofluorescence the localization of SP and NK1R in human and rat ADSC. SP and NK1R are located in both the cytoplasm and the nucleus of these cells. The NK1R is higher in the nucleus than in the cytoplasm of ADSCs. By Western blot we demonstrated the presence of different isoforms of NK1R that have different subcellular locations in the ADSC. SP induces proliferation and mitogenesis through NK1R in ADSCs. These findings reported here for the first time suggest an important role for a SP/NK1R system, either as genetic and/or epigenetic factor, in both the cytoplasm and nucleus functions of the ADSCs. J. Cell. Biochem. 118: 4686-4696, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

33. [New approaches for recovery of erectile function in patients after radical prostatectomy].

Author

Epifanova MV, Chalyi ME, Gvasaliya BR, Eremin II, Pulin AA, Nadelyaeva II, Artemenko SA, Galitskaya DA, and Repin AM

Subjects

Humans, Male, Erectile Dysfunction etiology, Erectile Dysfunction therapy, Penile Erection, Postoperative Complications therapy, Prostatectomy adverse effects, Prostatic Neoplasms surgery, Recovery of Function

Abstract

Prostate cancer (PCa) is one of the most common maligmancies and causes of death among men. Radical prostatectomy (RP) is optimal and recommended treatment modality for localized prostate cancer. More than half of all men undergoing surgery experience problems with erectile function and existing treatments do not provide a positive effect. Thus, there is a need for new approaches to the restoration of erectile function in patients after RP. One of these is the use of cell technologies, namely the stromal-vascular fraction and autologous platelet-rich plasma. This review examines the results of preclinical and clinical studies investigating the efficacy and safety of these treatment options in erectile dysfunction.

Published

2017