Literature DB >> 26490462

An Overview of Neural Differentiation Potential of Human Adipose Derived Stem Cells.

Hossein Salehi, Noushin Amirpour, Ali Niapour, Shahnaz Razavi.   

Abstract

There is wide interest in application of adult stem cells due to easy to obtain with a minimal patient discomfort, capable of producing cell numbers in large quantities and their immunocompatible properties without restriction by ethical concerns. Among these stem cells, multipotent mesenchymal stem cells (MSCs) from human adipose tissue are considered as an ideal source for various regenerative medicine. In spite of mesodermal origin of human adipose-derived stem cells (hADSCs), these cells have differentiation potential toward mesodermal and non-mesodermal lineages. Up to now, several studies have shown that hADSCs can undergo transdifferentiation and produce cells outside of their lineage, especially into neural cells when they are transferred to a specific cell environment. The purpose of this literature review is to provide an overview of the existing state of knowledge of the differentiation potential of hADSCs, specifically their ability to give rise to neuronal cells. The following review discusses different protocols considered for differentiation of hADSCs to neural cells, the neural markers that are used in each procedure and possible mechanisms that are involved in this differentiation.

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Year:  2016        PMID: 26490462     DOI: 10.1007/s12015-015-9631-7

Source DB:  PubMed          Journal:  Stem Cell Rev Rep        ISSN: 2629-3277            Impact factor:   5.739


  148 in total

1.  Isolation and transcription profiling of purified uncultured human stromal stem cells: alteration of gene expression after in vitro cell culture.

Authors:  Andrew C Boquest; Aboulghassem Shahdadfar; Katrine Frønsdal; Olafur Sigurjonsson; Siv H Tunheim; Philippe Collas; Jan E Brinchmann
Journal:  Mol Biol Cell       Date:  2005-01-05       Impact factor: 4.138

2.  Induction of neural-like differentiation in human mesenchymal stem cells derived from bone marrow, fat, spleen and thymus.

Authors:  Mauro Krampera; Silvia Marconi; Annalisa Pasini; Mirco Galiè; Gino Rigotti; Federico Mosna; Martina Tinelli; Laura Lovato; Elena Anghileri; Angelo Andreini; Giovanni Pizzolo; Andrea Sbarbati; Bruno Bonetti
Journal:  Bone       Date:  2006-10-16       Impact factor: 4.398

3.  Human adipose tissue is a source of multipotent stem cells.

Authors:  Patricia A Zuk; Min Zhu; Peter Ashjian; Daniel A De Ugarte; Jerry I Huang; Hiroshi Mizuno; Zeni C Alfonso; John K Fraser; Prosper Benhaim; Marc H Hedrick
Journal:  Mol Biol Cell       Date:  2002-12       Impact factor: 4.138

4.  Human dental pulp stem cells demonstrate better neural and epithelial stem cell properties than bone marrow-derived mesenchymal stem cells.

Authors:  Erdal Karaöz; Pınar Cetinalp Demircan; Ozlem Sağlam; Ayca Aksoy; Figen Kaymaz; Gökhan Duruksu
Journal:  Histochem Cell Biol       Date:  2011-08-31       Impact factor: 4.304

5.  Adult bone marrow stromal cells differentiate into neural cells in vitro.

Authors:  J Sanchez-Ramos; S Song; F Cardozo-Pelaez; C Hazzi; T Stedeford; A Willing; T B Freeman; S Saporta; W Janssen; N Patel; D R Cooper; P R Sanberg
Journal:  Exp Neurol       Date:  2000-08       Impact factor: 5.330

6.  Forskolin, a Hedgehog signal inhibitor, inhibits cell proliferation and induces apoptosis in pediatric tumor cell lines.

Authors:  Hiroaki Yamanaka; Takaharu Oue; Shuichiro Uehara; Masahiro Fukuzawa
Journal:  Mol Med Rep       Date:  2010 Jan-Feb       Impact factor: 2.952

7.  Differential expression of Shh and BMP signaling in the potential conversion of human adipose tissue stem cells into neuron-like cells in vitro.

Authors:  Alejandra Cardozo; Marcelo Ielpi; Daniel Gómez; Pablo Argibay
Journal:  Gene Expr       Date:  2010

8.  Comparison of the efficiencies of three neural induction protocols in human adipose stromal cells.

Authors:  Dong-Xiang Qian; Hong-Tian Zhang; Xu Ma; Xiao-Dan Jiang; Ru-Xiang Xu
Journal:  Neurochem Res       Date:  2009-12-04       Impact factor: 3.996

9.  Secretion of angiogenic and antiapoptotic factors by human adipose stromal cells.

Authors:  Jalees Rehman; Dmitry Traktuev; Jingling Li; Stephanie Merfeld-Clauss; Constance J Temm-Grove; Jason E Bovenkerk; Carrie L Pell; Brian H Johnstone; Robert V Considine; Keith L March
Journal:  Circulation       Date:  2004-03-01       Impact factor: 29.690

10.  Mesenchymal stem cells.

Authors:  A I Caplan
Journal:  J Orthop Res       Date:  1991-09       Impact factor: 3.494
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  25 in total

1.  Application of Hanging Drop Culture for Retinal Precursor-Like Cells Differentiation of Human Adipose-Derived Stem Cells Using Small Molecules.

Authors:  Hossein Salehi; Shahnaz Razavi; Ebrahim Esfandiari; Mohammad Kazemi; Shahram Amini; Noushin Amirpour
Journal:  J Mol Neurosci       Date:  2019-07-30       Impact factor: 3.444

Review 2.  The Therapeutic Potential of Mesenchymal Stromal Cells in the Treatment of Chemotherapy-Induced Tissue Damage.

Authors:  Alexander Rühle; Ramon Lopez Perez; Bingwen Zou; Anca-Ligia Grosu; Peter E Huber; Nils H Nicolay
Journal:  Stem Cell Rev Rep       Date:  2019-06       Impact factor: 5.739

3.  Implant Composed of Demineralized Bone and Mesenchymal Stem Cells Genetically Modified with AdBMP2/AdBMP7 for the Regeneration of Bone Fractures in Ovis aries.

Authors:  Adelina A Hernandez-Hurtado; Gissela Borrego-Soto; Ivan A Marino-Martinez; Jorge Lara-Arias; Viktor J Romero-Diaz; Adalberto Abrego-Guerra; Jose F Vilchez-Cavazos; Guillermo Elizondo-Riojas; Herminia G Martinez-Rodriguez; Marcela A Espinoza-Juarez; Gloria C Lopez-Romero; Alejandro Robles-Zamora; Oscar F Mendoza Lemus; Rocio Ortiz-Lopez; Augusto Rojas-Martinez
Journal:  Stem Cells Int       Date:  2016-10-13       Impact factor: 5.443

4.  The effect of adipose tissue-derived stem cells in a middle cerebral artery occlusion stroke model depends on their engraftment rate.

Authors:  Saskia Grudzenski; Sebastian Baier; Anne Ebert; Pim Pullens; Andreas Lemke; Karen Bieback; Rick M Dijkhuizen; Lothar R Schad; Angelika Alonso; Michael G Hennerici; Marc Fatar
Journal:  Stem Cell Res Ther       Date:  2017-04-26       Impact factor: 6.832

5.  Comparative Analysis of the Cell Fates of Induced Schwann Cells from Subcutaneous Fat Tissue and Naïve Schwann Cells in the Sciatic Nerve Injury Model.

Authors:  Mingzi Zhang; Mei Hua Jiang; Dae-Wook Kim; Woosung Ahn; Eunkyung Chung; Youngsook Son; Guangfan Chi
Journal:  Biomed Res Int       Date:  2017-06-20       Impact factor: 3.411

6.  Direct Conjugation of Retinoic Acid with Gold Nanoparticles to Improve Neural Differentiation of Human Adipose Stem Cells.

Authors:  Vajihe Asgari; Amir Landarani-Isfahani; Hossein Salehi; Noushin Amirpour; Batool Hashemibeni; Mohammad Kazemi; Hamid Bahramian
Journal:  J Mol Neurosci       Date:  2020-06-08       Impact factor: 3.444

7.  Isolation and Differentiation of Adipose-Derived Stem Cells into Odontoblast-Like Cells: A Preliminary In Vitro Study.

Authors:  Saber Khazaei; Abbasali Khademi; Mohammad Hossein Nasr Esfahani; Mozafar Khazaei; Mohammad Hossein Nekoofar; Paul M H Dummer
Journal:  Cell J       Date:  2021-07-17       Impact factor: 2.479

8.  BET protein inhibitor JQ1 inhibits growth and modulates WNT signaling in mesenchymal stem cells.

Authors:  Saeed Alghamdi; Irfan Khan; Naimisha Beeravolu; Christina McKee; Bryan Thibodeau; George Wilson; G Rasul Chaudhry
Journal:  Stem Cell Res Ther       Date:  2016-02-01       Impact factor: 6.832

9.  MiR-124 Promote Neurogenic Transdifferentiation of Adipose Derived Mesenchymal Stromal Cells Partly through RhoA/ROCK1, but Not ROCK2 Signaling Pathway.

Authors:  Ye Wang; Desheng Wang; Dawen Guo
Journal:  PLoS One       Date:  2016-01-08       Impact factor: 3.240

Review 10.  Physiologically based microenvironment for in vitro neural differentiation of adipose-derived stem cells.

Authors:  Adriana Carol Eleonora Graziano; Rosanna Avola; Vincenzo Perciavalle; Ferdinando Nicoletti; Gianluca Cicala; Marinella Coco; Venera Cardile
Journal:  World J Stem Cells       Date:  2018-03-26       Impact factor: 5.326
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