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Origin of pluripotent germ cell tumours: the role of microenvironment during embryonic development

Origin of pluripotent germ cell tumours: the role of microenvironment during embryonic development
Origin of pluripotent germ cell tumours: the role of microenvironment during embryonic development
Carcinoma in situ (CIS) testis, known also as intratubular germ cell neoplasia, is the cancer stem cell from which the great majority of testicular germ cell derived tumours (TGCTs) of the testis arise. TGCTs can proliferate into morphologically homogeneous seminomas or can differentiate into virtually any type of tissue and form teratomas (non-seminomas). CIS cells display a close phenotypic similarity to fetal germ cells (primordial germ cells or gonocytes) suggesting an origin due to a developmental delay or arrest of differentiation of early germ cells. The pluripotency of these neoplasms has recently been explained by a close resemblance of their expression profile to that of embryonic inner cell mass cells studied in culture as embryonic stem cells, with high expression of transcription factors associated with pluripotency, such as NANOG and OCT3/4, as well as proteins found in several tissue specific stem cells, such as TFAP2C (AP-2 gamma) or KIT. CIS and seminomas highly express a number of pre-meiotic germ cell specific genes, which are down-regulated during development to non-seminomas, while the expression of other embryonic markers, such as SOX2, is up-regulated. The mechanistic pathways and causative factors remain to be elucidated of both the initial transformation of fetal germ cells into CIS cells and the progression of CIS cells into an invasive tumour in the young adult. However, evidence supported by epidemiological studies indicate that disturbances in the hormonal microenvironment of the differentiating gonads may results in both the neoplasia and a host of other problems later in life, such as genital malformations, decreased spermatogenesis, and signs of hypogonadism.
pluripotency, cancer risks, testicular dysgenesis syndrome, environmental aspects, embryonic stem cells, malformations, carcinoma-in-situ, ireland, stem cells, culture, cancer stem cells, human, germ cells, proteins, growth, carcinoma, contralateral testis, germ cell differentiation, transcription factors, testis, carcinoma in situ testis, england, expression, differentiation, time, germ cell neoplasm, cancer, stem-cells, delay, es cells, neoplasms, fetal, role, hypogonadism, seminoma, protein, genes, infertile men, embryonic development, comparative genomic hybridization, gene, adult
111-118
Kristensen, David Møbjerg
73ecc1e3-cf12-489a-80fc-441a41e5bd53
Sonne, Si Brask
94b061e0-c31b-4244-86fe-b1c462e59c7d
Ottesen, Anne Marie
c77d1e8a-f43d-41e6-9cbd-f13cc5a6cff0
Perrett, Rebecca M.
f69582f3-9fc6-497f-9a3e-2b93f972fd17
Nielsen, John E.
837679a9-3817-49bb-9c84-5b63f7152efe
Almstrup, Kristian
79b785e5-280b-4a4c-97cd-ebcb376bb6d6
Skakkeblaek, Niels E.
93895781-88f3-4380-bafe-e206e373fb8f
Leffers, Henrik
1143ebe8-4175-42d8-87c9-ed8e6e2e44f8
Meyts, Ewa Rajpert-De
49e46b4b-1b17-4787-ba22-b2f92124338b
Kristensen, David Møbjerg
73ecc1e3-cf12-489a-80fc-441a41e5bd53
Sonne, Si Brask
94b061e0-c31b-4244-86fe-b1c462e59c7d
Ottesen, Anne Marie
c77d1e8a-f43d-41e6-9cbd-f13cc5a6cff0
Perrett, Rebecca M.
f69582f3-9fc6-497f-9a3e-2b93f972fd17
Nielsen, John E.
837679a9-3817-49bb-9c84-5b63f7152efe
Almstrup, Kristian
79b785e5-280b-4a4c-97cd-ebcb376bb6d6
Skakkeblaek, Niels E.
93895781-88f3-4380-bafe-e206e373fb8f
Leffers, Henrik
1143ebe8-4175-42d8-87c9-ed8e6e2e44f8
Meyts, Ewa Rajpert-De
49e46b4b-1b17-4787-ba22-b2f92124338b

Kristensen, David Møbjerg, Sonne, Si Brask, Ottesen, Anne Marie, Perrett, Rebecca M., Nielsen, John E., Almstrup, Kristian, Skakkeblaek, Niels E., Leffers, Henrik and Meyts, Ewa Rajpert-De (2008) Origin of pluripotent germ cell tumours: the role of microenvironment during embryonic development. Molecular and Cellular Endocrinology, 288 (1-2), 111-118. (doi:10.1016/j.mce.2008.02.018).

Record type: Article

Abstract

Carcinoma in situ (CIS) testis, known also as intratubular germ cell neoplasia, is the cancer stem cell from which the great majority of testicular germ cell derived tumours (TGCTs) of the testis arise. TGCTs can proliferate into morphologically homogeneous seminomas or can differentiate into virtually any type of tissue and form teratomas (non-seminomas). CIS cells display a close phenotypic similarity to fetal germ cells (primordial germ cells or gonocytes) suggesting an origin due to a developmental delay or arrest of differentiation of early germ cells. The pluripotency of these neoplasms has recently been explained by a close resemblance of their expression profile to that of embryonic inner cell mass cells studied in culture as embryonic stem cells, with high expression of transcription factors associated with pluripotency, such as NANOG and OCT3/4, as well as proteins found in several tissue specific stem cells, such as TFAP2C (AP-2 gamma) or KIT. CIS and seminomas highly express a number of pre-meiotic germ cell specific genes, which are down-regulated during development to non-seminomas, while the expression of other embryonic markers, such as SOX2, is up-regulated. The mechanistic pathways and causative factors remain to be elucidated of both the initial transformation of fetal germ cells into CIS cells and the progression of CIS cells into an invasive tumour in the young adult. However, evidence supported by epidemiological studies indicate that disturbances in the hormonal microenvironment of the differentiating gonads may results in both the neoplasia and a host of other problems later in life, such as genital malformations, decreased spermatogenesis, and signs of hypogonadism.

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Published date: June 2008
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Keywords: pluripotency, cancer risks, testicular dysgenesis syndrome, environmental aspects, embryonic stem cells, malformations, carcinoma-in-situ, ireland, stem cells, culture, cancer stem cells, human, germ cells, proteins, growth, carcinoma, contralateral testis, germ cell differentiation, transcription factors, testis, carcinoma in situ testis, england, expression, differentiation, time, germ cell neoplasm, cancer, stem-cells, delay, es cells, neoplasms, fetal, role, hypogonadism, seminoma, protein, genes, infertile men, embryonic development, comparative genomic hybridization, gene, adult
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Identifiers

Local EPrints ID: 70775
URI: http://eprints.soton.ac.uk/id/eprint/70775
DOI: doi:10.1016/j.mce.2008.02.018
PURE UUID: 434ae59e-b927-4277-a6e8-c9dfaf063705

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Date deposited: 06 Jan 2010
Last modified: 13 Mar 2024 20:07

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Contributors

Author: David Møbjerg Kristensen
Author: Si Brask Sonne
Author: Anne Marie Ottesen
Author: Rebecca M. Perrett
Author: John E. Nielsen
Author: Kristian Almstrup
Author: Niels E. Skakkeblaek
Author: Henrik Leffers
Author: Ewa Rajpert-De Meyts

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