Inhibition of WNT/β-catenin signalling during sex-specific gonadal differentiation is essential for normal human fetal testis development

Sex-specific gonadal differentiation is directed by complex signalling promoting development in either male or female direction, while simultaneously inhibiting the opposite pathway. In mice, the WNT/β-catenin pathway promotes ovarian development and the importance of actively inhibiting this pathwa...

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Published in:Cell communication and signaling 2024-06, Vol.22 (1), p.330-19
Main Authors: Lundgaard Riis, Malene, Delpouve, Gaspard, Nielsen, John E, Melau, Cecilie, Langhoff Thuesen, Lea, Juul Hare, Kristine, Dreisler, Eva, Aaboe, Kasper, Tutein Brenøe, Pia, Albrethsen, Jakob, Frederiksen, Hanne, Juul, Anders, Giacobini, Paolo, Jørgensen, Anne
Format: Article
Language:English
Subjects:
Androstenedione
beta Catenin - metabolism
Cell culture
Cell Differentiation
Cell lineage
Cell Proliferation
Ex vivo culture
Female
Females
Fetus - metabolism
Fetuses
Gene expression
Germ cell development
Gonads
Human fetal gonads
Humans
Inhibin
Leydig Cells - cytology
Leydig Cells - metabolism
Male
Ovarian and testicular differentiation
Ovaries
Ovary - embryology
Ovary - metabolism
Pilot projects
Secretion
Sex
Sex Differentiation - genetics
Sex-specific development
Signal transduction
Sox9 protein
Testes
Testis - embryology
Testis - metabolism
Testosterone
Wnt protein
Wnt Signaling Pathway
WNT/β-catenin signalling
β-Catenin
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container_end_page 19
container_issue 1
container_start_page 330
container_title Cell communication and signaling
container_volume 22
creator Lundgaard Riis, Malene
Delpouve, Gaspard
Nielsen, John E
Melau, Cecilie
Langhoff Thuesen, Lea
Juul Hare, Kristine
Dreisler, Eva
Aaboe, Kasper
Tutein Brenøe, Pia
Albrethsen, Jakob
Frederiksen, Hanne
Juul, Anders
Giacobini, Paolo
Jørgensen, Anne
description Sex-specific gonadal differentiation is directed by complex signalling promoting development in either male or female direction, while simultaneously inhibiting the opposite pathway. In mice, the WNT/β-catenin pathway promotes ovarian development and the importance of actively inhibiting this pathway to ensure normal testis development has been recognised. However, the implications of alterations in the tightly regulated WNT/β-catenin signalling during human fetal gonad development has not yet been examined in detail. Thus, the aim of this study was to examine the consequences of dysregulating the WNT/β-catenin signalling pathway in the supporting cell lineage during sex-specific human fetal gonad development using an established and extensively validated ex vivo culture model. Inhibition of WNT/β-catenin signalling in human fetal ovary cultures resulted in only minor effects, including reduced secretion of RSPO1 and reduced cell proliferation although this was not consistently found in all treatment groups. In contrast, promotion of WNT/β-catenin signalling in testes severely affected development and function. This included disrupted seminiferous cord structures, reduced cell proliferation, reduced expression of SOX9/AMH, reduced secretion of Inhibin B and AMH as well as loss of the germ cell population. Additionally, Leydig cell function was markedly impaired with reduced secretion of testosterone, androstenedione and INSL3. Together, this study suggests that dysregulated WNT/β-catenin signalling during human fetal gonad development severely impairs testicular development and function. Importantly, our study highlights the notion that sufficient inhibition of the opposite pathway during sex-specific gonadal differentiation is essential to ensure normal development and function also applies to human fetal gonads.
doi_str_mv 10.1186/s12964-024-01704-9
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In mice, the WNT/β-catenin pathway promotes ovarian development and the importance of actively inhibiting this pathway to ensure normal testis development has been recognised. However, the implications of alterations in the tightly regulated WNT/β-catenin signalling during human fetal gonad development has not yet been examined in detail. Thus, the aim of this study was to examine the consequences of dysregulating the WNT/β-catenin signalling pathway in the supporting cell lineage during sex-specific human fetal gonad development using an established and extensively validated ex vivo culture model. Inhibition of WNT/β-catenin signalling in human fetal ovary cultures resulted in only minor effects, including reduced secretion of RSPO1 and reduced cell proliferation although this was not consistently found in all treatment groups. In contrast, promotion of WNT/β-catenin signalling in testes severely affected development and function. This included disrupted seminiferous cord structures, reduced cell proliferation, reduced expression of SOX9/AMH, reduced secretion of Inhibin B and AMH as well as loss of the germ cell population. Additionally, Leydig cell function was markedly impaired with reduced secretion of testosterone, androstenedione and INSL3. Together, this study suggests that dysregulated WNT/β-catenin signalling during human fetal gonad development severely impairs testicular development and function. 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subjects Androstenedione
beta Catenin - metabolism
Cell culture
Cell Differentiation
Cell lineage
Cell Proliferation
Ex vivo culture
Female
Females
Fetus - metabolism
Fetuses
Gene expression
Germ cell development
Gonads
Human fetal gonads
Humans
Inhibin
Leydig Cells - cytology
Leydig Cells - metabolism
Male
Ovarian and testicular differentiation
Ovaries
Ovary - embryology
Ovary - metabolism
Pilot projects
Secretion
Sex
Sex Differentiation - genetics
Sex-specific development
Signal transduction
Sox9 protein
Testes
Testis - embryology
Testis - metabolism
Testosterone
Wnt protein
Wnt Signaling Pathway
WNT/β-catenin signalling
β-Catenin
title Inhibition of WNT/β-catenin signalling during sex-specific gonadal differentiation is essential for normal human fetal testis development
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