Derivation of human embryonic germ cells: an alternative source of pluripotent stem cells
Derivation of human embryonic germ cells: an alternative source of pluripotent stem cells
Based on evidence suggesting similarities to human embryonic stem cells, human embryonic germ (hEG) cells have been advocated as an alternative pluripotent stem cell resource but have so far received limited attention. To redress this imbalance, human fetal gonads were collected for the isolation and culture of primordial germ cells at 7-9 weeks postconception. We provide evidence for the derivation, culture, and differentiation of hEG cells in vitro. This evidence includes the expression of markers characteristic of pluripotent cells, the retention of normal XX or XY karyotypes, and the demonstration of pluripotency, as suggested by the expression of markers indicative of differentiation along the three germ lineages (ectoderm, mesoderm, and endoderm) and an associated loss of pluripotent markers. In assessing this differentiation, however, we also demonstrate a hitherto unacknowledged overlap in gene expression profiles between undifferentiated and differentiated cell types, highlighting the difficulty in ascribing cell lineage by gene expression analyses. Furthermore, we draw attention to the problems inherent in the management of these cells in prolonged culture, chiefly the difficulty in preventing spontaneous differentiation, which hinders the isolation of pure, undifferentiated clonal lines. While these data advocate the pursuit of pluripotent hEG cell studies with relevance to early human embryonic development, culture limitations carry implications for their potential applicability to ambitious cell replacement therapies.
pluripotent, embryonic stem, primordial germ cells, embryonic germ, embryoid body, differentiation
598-609
Turnpenny, Lee
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Brickwood, Sarah
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Spalluto, Cosma M.
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Piper, Karen
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Cameron, Iain T.
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Wilson, David I.
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Hanley, Neil A.
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September 2003
Turnpenny, Lee
31a2fb0f-b76a-490a-845d-f9d9a1501d3d
Brickwood, Sarah
060d82f7-5787-4bef-8dc6-1d2943ecd1c7
Spalluto, Cosma M.
6802ad50-bc38-404f-9a19-40916425183b
Piper, Karen
9e8b2383-59f5-42ac-8291-c8411df68713
Cameron, Iain T.
f7595539-efa6-4687-b161-e1e93ff710f2
Wilson, David I.
1500fca1-7082-4271-95f4-691f1d1252a2
Hanley, Neil A.
bf03f7bb-f377-44fb-8344-0bb1ca8b2ef9
Turnpenny, Lee, Brickwood, Sarah, Spalluto, Cosma M., Piper, Karen, Cameron, Iain T., Wilson, David I. and Hanley, Neil A.
(2003)
Derivation of human embryonic germ cells: an alternative source of pluripotent stem cells.
Stem Cells, 21 (5), .
(doi:10.1634/stemcells.21-5-598).
Abstract
Based on evidence suggesting similarities to human embryonic stem cells, human embryonic germ (hEG) cells have been advocated as an alternative pluripotent stem cell resource but have so far received limited attention. To redress this imbalance, human fetal gonads were collected for the isolation and culture of primordial germ cells at 7-9 weeks postconception. We provide evidence for the derivation, culture, and differentiation of hEG cells in vitro. This evidence includes the expression of markers characteristic of pluripotent cells, the retention of normal XX or XY karyotypes, and the demonstration of pluripotency, as suggested by the expression of markers indicative of differentiation along the three germ lineages (ectoderm, mesoderm, and endoderm) and an associated loss of pluripotent markers. In assessing this differentiation, however, we also demonstrate a hitherto unacknowledged overlap in gene expression profiles between undifferentiated and differentiated cell types, highlighting the difficulty in ascribing cell lineage by gene expression analyses. Furthermore, we draw attention to the problems inherent in the management of these cells in prolonged culture, chiefly the difficulty in preventing spontaneous differentiation, which hinders the isolation of pure, undifferentiated clonal lines. While these data advocate the pursuit of pluripotent hEG cell studies with relevance to early human embryonic development, culture limitations carry implications for their potential applicability to ambitious cell replacement therapies.
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Published date: September 2003
Keywords:
pluripotent, embryonic stem, primordial germ cells, embryonic germ, embryoid body, differentiation
Identifiers
Local EPrints ID: 40601
URI: http://eprints.soton.ac.uk/id/eprint/40601
ISSN: 1066-5099
PURE UUID: 97c05aa7-1c84-4e63-8aab-a83b5530a3b4
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Date deposited: 07 Jul 2006
Last modified: 16 Mar 2024 03:24
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Contributors
Author:
Lee Turnpenny
Author:
Sarah Brickwood
Author:
Cosma M. Spalluto
Author:
Karen Piper
Author:
Neil A. Hanley
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