Pre‐adipocytes commitment to neurogenesis 1: Preliminary localisation of cholinergic molecules

Aluigi, Maria Grazia; Coradeghini, Rosella; Guida, Chiara; Scanarotti, Chiara; Bassi, Anna Maria; Falugi, Carla; Santi, Pierluigi; Raposio, Edoardo

doi:10.1016/j.cellbi.2009.02.014

Cited by 34 publications

(23 citation statements)

References 38 publications

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“…Additionally, when transplanted into a SCID mouse model, the transplanted cells expressed albumin in vivo. When proper induction cues are applied in vitro, ASCs display neuronal and/or oligodendrocytic markers [16,[136][137][138]. ASCs take on a bipolar morphology, similar to that of neuronal cells, while expressing neuronal associated proteins such as nestin, intermediate filament M, Neu N, as well as glial fibrillary acidic protein (GFAP), a protein associated with oligodendrocyte differentiation.…”

Section: Asc Differentiation Potentialmentioning

confidence: 98%

The Potential of Adipose Stem Cells in Regenerative Medicine

Lindroos

Suuronen

Miettinen

2010

Stem Cell Rev and Rep

400

340

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Adipose stem cells (ASCs) are an attractive and abundant stem cell source with therapeutic applicability in diverse fields for the repair and regeneration of acute and chronically damaged tissues. Importantly, unlike the human bone marrow stromal/stem stem cells (BMSCs) that are present at low frequency in the bone marrow, ASCs can be retrieved in high number from either liposuction aspirates or subcutaneous adipose tissue fragments and can easily be expanded in vitro. ASCs display properties similar to that observed in BMSCs and, upon induction, undergo at least osteogenic, chondrogenic, adipogenic and neurogenic, differentiation in vitro. Furthermore, ASCs have been shown to be immunoprivileged, prevent severe graft-versus-host disease in vitro and in vivo and to be genetically stable in long-term culture. They have also proven applicability in other functions, such as providing hematopoietic support and gene transfer. Due to these characteristics, ASCs have rapidly advanced into clinical trials for treatment of a broad range of conditions. As cell therapies are becoming more frequent, clinical laboratories following good manufacturing practices are needed. At the same time as laboratory processes become more extensive, the need for control in the processing laboratory grows consequently involving a greater risk of complications and possibly adverse events for the recipient. Therefore, the safety, reproducibility and quality of the stem cells must thoroughly be examined prior to extensive use in clinical applications. In this review, some of the aspects of examination on ASCs in vitro and the utilization of ASCs in clinical studies are discussed.

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Section: Asc Differentiation Potentialmentioning

confidence: 98%

The Potential of Adipose Stem Cells in Regenerative Medicine

Lindroos

Suuronen

Miettinen

2010

Stem Cell Rev and Rep

400

340

View full text Add to dashboard Cite

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“…Since ASCs are of mesodermal origin, they can differentiate into the adipogenic, osteogenic, and chondrogenic lineages, and even the myogenic lineage, leading to skeletal muscle, smooth muscle, and cardiomyocytes [41], [42], [47], [48]. Interestingly, however, ASCs have also been shown to possess the potential to differentiate into cells of the ectodermal and endodermal lineages, such as neuron-like cells, endothelial cells, epithelial cells, hepatocytes, pancreatic cells, and hematopoietic supporting cells [49], [50], [51], [52], [53], [54], [55], [56], [57].…”

Section: Adipose-derived Stem Cells (Ascs)mentioning

confidence: 99%

The biological and clinical basis for the use of adipose-derived stem cells in the field of wound healing

Bertozzi

Simonacci

Grieco

et al. 2017

Annals of Medicine &Amp; Surgery

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Worldwide, hard-to-heal lower limb wounds are estimated to affect 1.5–3% of the adult population with a treatment-related annual cost of $10 billion. Thus, chronic skin ulcers of the lower limb are a matter of economic and public concern. Over the years, multiple medical and surgical approaches have been proposed but they are still inadequate, and no effective therapy yet exists. Regenerative medicine and stem cell-based therapies hold great promise for wound healing. Recently, many plastic surgeons have studied the potential clinical application of adipose-derived stem cells (ASCs), which are a readily available adult stem cell population that can undergo multilineage differentiation and secrete growth factors that can enhance wound-healing processes by promoting angiogenesis, and hence increase local blood supply. ASCs have been widely studied in vitro and in vivo in animal models. However, there are few randomized clinical trials on humans, and these are still ongoing or recruiting patients. Moreover, there is no consensus on a common isolation protocol that is clinically feasible and which would ensure reproducible results. The authors aim to provide readers with an overview of the biological properties of ASCs as well as their clinical application, to help better understanding of present and future strategies for the treatment of hard-to-heal wounds by means of stem cell-based therapies.

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“…Fat is an active and dynamic tissue composed of several different cell types, including adipocytes, fibroblasts, smooth muscle cells, endothelial cells, and adipogenic progenitor cells called pre-adipocytes [30], [31], [32]. Stem cells isolated from lipoaspirates have demonstrated a broad in vitro adipogenic, chondrogenic, osteogenic, and myogenic lineage commitment [33], [34] as well as differentiation into pancreatic cells, hepatocytes, and neurogenic cells [35], [36], [37]. Cytometric analysis of adipose-derived stem cells (ASCs) has shown that these cells do not express CD31 and CD45, but do express CD34, CD73, CD105, and the mesenchymal stem cell marker CD90 [38], [39].…”

Section: Efficacy Of Lipofillingmentioning

confidence: 99%

Autologous fat transplantation for breast reconstruction: A literature review

Simonacci

Bertozzi

Grieco

et al. 2016

Annals of Medicine &Amp; Surgery

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IntroductionThe use of autologous fat transplantation to correct volume and contour defects, scars, and asymmetry after breast cancer surgery has increased over the past 20 years. Many developments and refinements in this technique have taken place in recent years, and several studies of the safety of lipofilling in the breast have been published.Presentation of caseWe performed a literature review of this technique, highlighting the crucial role of lipofilling in breast cancer reconstruction.DiscussionThe efficacy of the fat graft transplantation depends on the experience and the technique used by the surgeon. The ASCs (adipose-derived stem cells) contained in the fat graft has proven to be crucial for breast reconstruction by mean the regeneration of tissue, through the chemotactic, paracrine, and immunomodulatory activities and their in situ differentiation.ConclusionThe role of lipofilling for breast reconstruction could be more significant with the application of the findings of experimental research on tissue engineering and ASCs.

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Pre‐adipocytes commitment to neurogenesis 1: Preliminary localisation of cholinergic molecules

Cited by 34 publications

References 38 publications

The Potential of Adipose Stem Cells in Regenerative Medicine

The Potential of Adipose Stem Cells in Regenerative Medicine

The biological and clinical basis for the use of adipose-derived stem cells in the field of wound healing

Autologous fat transplantation for breast reconstruction: A literature review

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