Literature DB >> 17848721

The potential of cell fusion for human therapy.

Stephen Sullivan1, Kevin Eggan.   

Abstract

As donor organs and tissues for transplantation medicine are scarce, alternative methods for replacing damaged cells or restoring organ function are highly needed. Here, we consider the therapeutic potential of cell fusion. After highlighting the various contexts in which cells are known to fuse during mammalian development, we discuss the implications of the observation that cell fusion can occur with restorative effects following tissue damage or cell transplantation. There are still, however, many challenges facing those who wish to implement cell fusion as a therapeutic tool. These include identifying the best cells to use for reparative fusion, determining the best route of introducing these cells into the desired tissue, discovering methods to increase the incidence of cell fusion, and ensuring the functionality of the resulting fusion products. If these difficulties can be overcome, cell fusion might have therapeutic potential as highlighted by several recent transplantation studies.

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Year:  2006        PMID: 17848721     DOI: 10.1007/BF02698061

Source DB:  PubMed          Journal:  Stem Cell Rev        ISSN: 1550-8943            Impact factor:   6.692


  76 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2001-09-04       Impact factor: 11.205

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Journal:  Proc Natl Acad Sci U S A       Date:  2004-09-07       Impact factor: 11.205

Review 5.  Stem cell plasticity: from transdifferentiation to macrophage fusion.

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Journal:  Cell Prolif       Date:  2004-02       Impact factor: 6.831

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Journal:  Somatic Cell Genet       Date:  1980-03

8.  Bone marrow-derived cells fuse with normal and transformed intestinal stem cells.

Authors:  Adnan Z Rizvi; John R Swain; Paige S Davies; Alexis S Bailey; Adria D Decker; Holger Willenbring; Markus Grompe; William H Fleming; Melissa H Wong
Journal:  Proc Natl Acad Sci U S A       Date:  2006-04-10       Impact factor: 11.205

9.  Muscle regeneration by bone marrow-derived myogenic progenitors.

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Journal:  Science       Date:  1998-03-06       Impact factor: 47.728

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Authors:  N Takagi; M A Yoshida; O Sugawara; M Sasaki
Journal:  Cell       Date:  1983-10       Impact factor: 41.582
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  8 in total

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Authors:  Zubin Master; G K D Crozier
Journal:  Health Care Anal       Date:  2012-03

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Authors:  Marko Usaj; Masa Kanduser
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Authors:  You Qing Xu; Zun Chang Liu
Journal:  Stem Cell Rev       Date:  2008       Impact factor: 5.739

4.  Cell Fusion along the Anterior-Posterior Neuroaxis in Mice with Experimental Autoimmune Encephalomyelitis.

Authors:  Sreenivasa R Sankavaram; Mikael A Svensson; Tomas Olsson; Lou Brundin; Clas B Johansson
Journal:  PLoS One       Date:  2015-07-24       Impact factor: 3.240

5.  Retinal transplantation of photoreceptors results in donor-host cytoplasmic exchange.

Authors:  Tiago Santos-Ferreira; Sílvia Llonch; Oliver Borsch; Kai Postel; Jochen Haas; Marius Ader
Journal:  Nat Commun       Date:  2016-10-04       Impact factor: 14.919

6.  Modeling Dynamics and Function of Bone Marrow Cells in Mouse Liver Regeneration.

Authors:  Elisa Pedone; Vlad-Aris Olteanu; Lucia Marucci; Maria Isabel Muñoz-Martin; Sameh A Youssef; Alain de Bruin; Maria Pia Cosma
Journal:  Cell Rep       Date:  2017-01-03       Impact factor: 9.423

7.  Electrofusion of single cells in picoliter droplets.

Authors:  Rogier M Schoeman; Wesley T E van den Beld; Evelien W M Kemna; Floor Wolbers; Jan C T Eijkel; Albert van den Berg
Journal:  Sci Rep       Date:  2018-02-27       Impact factor: 4.379

8.  Controlled ploidy reduction of pluripotent 4n cells generates 2n cells during mouse embryo development.

Authors:  João Frade; Shoma Nakagawa; Paola Cortes; Umberto di Vicino; Neus Romo; Frederic Lluis; Maria Pia Cosma
Journal:  Sci Adv       Date:  2019-10-16       Impact factor: 14.136
  8 in total

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