Delineating the hepatocyte's hematopoietic fusion partner

Holger Willenbring; Markus Grompe

doi:10.4161/cc.3.12.1304

Delineating the hepatocyte's hematopoietic fusion partner

Holger Willenbring, Markus Grompe

Research output: Contribution to journal › Short survey › peer-review

15 Scopus citations

Abstract

Cell fusion has evolved as an explanation of how transplanted bone marrow cells adopt the phenotype of hepatocytes, Purkinje neurons, skeletal and cardiac muscle cells. In vivo nuclear transfer associated with cell fusion has direct implications for regenerative medicine, but the spontaneous frequency of cell fusion is well below the thresholds of therapeutic significance. Increased efficiency could be achieved by utilizing cellular factors known to govern fusion but for this the identity of the hematopoietic cell that fuses with the host cell must be known. Using increasingly lineage-restricted donor bone marrow cell populations we have shown in mouse liver that fusion occurs between host hepatocytes and transplanted myelomonocytic cells such as macrophages. Now it should be feasible to increase the efficiency and assess the potential of cell fusion for the correction of a broad range of somatic cell types that can be targeted by fusion.

Original language	English (US)
Pages (from-to)	1489-1491
Number of pages	3
Journal	Cell Cycle
Volume	3
Issue number	12
DOIs	https://doi.org/10.4161/cc.3.12.1304
State	Published - Dec 2004

Keywords

Bone marrow-derived hepatocytes
Cell fusion
Granulocyte/macrophage progenitors
Hematopoietic stem cells
Macrophages
Myelomonocytic cells

ASJC Scopus subject areas

Molecular Biology
Developmental Biology
Cell Biology

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title = "Delineating the hepatocyte's hematopoietic fusion partner",

abstract = "Cell fusion has evolved as an explanation of how transplanted bone marrow cells adopt the phenotype of hepatocytes, Purkinje neurons, skeletal and cardiac muscle cells. In vivo nuclear transfer associated with cell fusion has direct implications for regenerative medicine, but the spontaneous frequency of cell fusion is well below the thresholds of therapeutic significance. Increased efficiency could be achieved by utilizing cellular factors known to govern fusion but for this the identity of the hematopoietic cell that fuses with the host cell must be known. Using increasingly lineage-restricted donor bone marrow cell populations we have shown in mouse liver that fusion occurs between host hepatocytes and transplanted myelomonocytic cells such as macrophages. Now it should be feasible to increase the efficiency and assess the potential of cell fusion for the correction of a broad range of somatic cell types that can be targeted by fusion.",

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AU - Grompe, Markus

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AB - Cell fusion has evolved as an explanation of how transplanted bone marrow cells adopt the phenotype of hepatocytes, Purkinje neurons, skeletal and cardiac muscle cells. In vivo nuclear transfer associated with cell fusion has direct implications for regenerative medicine, but the spontaneous frequency of cell fusion is well below the thresholds of therapeutic significance. Increased efficiency could be achieved by utilizing cellular factors known to govern fusion but for this the identity of the hematopoietic cell that fuses with the host cell must be known. Using increasingly lineage-restricted donor bone marrow cell populations we have shown in mouse liver that fusion occurs between host hepatocytes and transplanted myelomonocytic cells such as macrophages. Now it should be feasible to increase the efficiency and assess the potential of cell fusion for the correction of a broad range of somatic cell types that can be targeted by fusion.

KW - Bone marrow-derived hepatocytes

KW - Cell fusion

KW - Granulocyte/macrophage progenitors

KW - Hematopoietic stem cells

KW - Macrophages

KW - Myelomonocytic cells

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Delineating the hepatocyte's hematopoietic fusion partner

Abstract

Keywords

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