Human theca arises from ovarian stroma and is comprised of three discrete subtypes

Nicole Lustgarten Guahmich; Limor Man; Jerry Wang; Laury Arazi; Eleni Kallinos; Ariana Topper-Kroog; Gabriel Grullon; Kimberly Zhang; Joshua Stewart; Nina Schatz-Siemers; Sam H. Jones; Richard Bodine; Nikica Zaninovic; Glenn Schattman; Zev Rosenwaks; Daylon James

doi:10.1038/s42003-022-04384-8

Human theca arises from ovarian stroma and is comprised of three discrete subtypes

Nicole Lustgarten Guahmich, Limor Man, Jerry Wang, Laury Arazi, Eleni Kallinos, Ariana Topper-Kroog, Gabriel Grullon, Kimberly Zhang, Joshua Stewart, Nina Schatz-Siemers, Sam H. Jones, Richard Bodine, Nikica Zaninovic, Glenn Schattman, Zev Rosenwaks, Daylon James

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Theca cells serve multiple essential functions during the growth and maturation of ovarian follicles, providing structural, metabolic, and steroidogenic support. While the function of theca during folliculogenesis is well established, their cellular origins and the differentiation hierarchy that generates distinct theca sub-types, remain unknown. Here, we performed single cell multi-omics analysis of primary cell populations purified from human antral stage follicles (1–3 mm) to define the differentiation trajectory of theca/stroma cells. We then corroborated the temporal emergence and growth kinetics of defined theca/stroma subpopulations using human ovarian tissue samples and xenografts of cryopreserved/thawed ovarian cortex, respectively. We identified three lineage specific derivatives termed structural, androgenic, and perifollicular theca cells, as well as their putative lineage-negative progenitor. These findings provide a framework for understanding the differentiation process that occurs in each primordial follicle and identifies specific cellular/molecular phenotypes that may be relevant to either diagnosis or treatment of ovarian pathologies.

Original language	English
Article number	7
Journal	Communications Biology
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s42003-022-04384-8
State	Published - 1 Dec 2023
Externally published	Yes

ASJC Scopus subject areas

Medicine (miscellaneous)
General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences

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Guahmich, N. L., Man, L., Wang, J., Arazi, L., Kallinos, E., Topper-Kroog, A., Grullon, G., Zhang, K., Stewart, J., Schatz-Siemers, N., Jones, S. H., Bodine, R., Zaninovic, N., Schattman, G., Rosenwaks, Z., & James, D. (2023). Human theca arises from ovarian stroma and is comprised of three discrete subtypes. Communications Biology, 6(1), Article 7. https://doi.org/10.1038/s42003-022-04384-8

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title = "Human theca arises from ovarian stroma and is comprised of three discrete subtypes",

abstract = "Theca cells serve multiple essential functions during the growth and maturation of ovarian follicles, providing structural, metabolic, and steroidogenic support. While the function of theca during folliculogenesis is well established, their cellular origins and the differentiation hierarchy that generates distinct theca sub-types, remain unknown. Here, we performed single cell multi-omics analysis of primary cell populations purified from human antral stage follicles (1–3 mm) to define the differentiation trajectory of theca/stroma cells. We then corroborated the temporal emergence and growth kinetics of defined theca/stroma subpopulations using human ovarian tissue samples and xenografts of cryopreserved/thawed ovarian cortex, respectively. We identified three lineage specific derivatives termed structural, androgenic, and perifollicular theca cells, as well as their putative lineage-negative progenitor. These findings provide a framework for understanding the differentiation process that occurs in each primordial follicle and identifies specific cellular/molecular phenotypes that may be relevant to either diagnosis or treatment of ovarian pathologies.",

author = "Guahmich, \{Nicole Lustgarten\} and Limor Man and Jerry Wang and Laury Arazi and Eleni Kallinos and Ariana Topper-Kroog and Gabriel Grullon and Kimberly Zhang and Joshua Stewart and Nina Schatz-Siemers and Jones, \{Sam H.\} and Richard Bodine and Nikica Zaninovic and Glenn Schattman and Zev Rosenwaks and Daylon James",

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doi = "10.1038/s42003-022-04384-8",

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Guahmich, NL, Man, L, Wang, J, Arazi, L, Kallinos, E, Topper-Kroog, A, Grullon, G, Zhang, K, Stewart, J, Schatz-Siemers, N, Jones, SH, Bodine, R, Zaninovic, N, Schattman, G, Rosenwaks, Z & James, D 2023, 'Human theca arises from ovarian stroma and is comprised of three discrete subtypes', Communications Biology, vol. 6, no. 1, 7. https://doi.org/10.1038/s42003-022-04384-8

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AU - Guahmich, Nicole Lustgarten

AU - Man, Limor

AU - Wang, Jerry

AU - Arazi, Laury

AU - Kallinos, Eleni

AU - Topper-Kroog, Ariana

AU - Grullon, Gabriel

AU - Zhang, Kimberly

AU - Stewart, Joshua

AU - Schatz-Siemers, Nina

AU - Jones, Sam H.

AU - Bodine, Richard

AU - Zaninovic, Nikica

AU - Schattman, Glenn

AU - Rosenwaks, Zev

AU - James, Daylon

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Theca cells serve multiple essential functions during the growth and maturation of ovarian follicles, providing structural, metabolic, and steroidogenic support. While the function of theca during folliculogenesis is well established, their cellular origins and the differentiation hierarchy that generates distinct theca sub-types, remain unknown. Here, we performed single cell multi-omics analysis of primary cell populations purified from human antral stage follicles (1–3 mm) to define the differentiation trajectory of theca/stroma cells. We then corroborated the temporal emergence and growth kinetics of defined theca/stroma subpopulations using human ovarian tissue samples and xenografts of cryopreserved/thawed ovarian cortex, respectively. We identified three lineage specific derivatives termed structural, androgenic, and perifollicular theca cells, as well as their putative lineage-negative progenitor. These findings provide a framework for understanding the differentiation process that occurs in each primordial follicle and identifies specific cellular/molecular phenotypes that may be relevant to either diagnosis or treatment of ovarian pathologies.

AB - Theca cells serve multiple essential functions during the growth and maturation of ovarian follicles, providing structural, metabolic, and steroidogenic support. While the function of theca during folliculogenesis is well established, their cellular origins and the differentiation hierarchy that generates distinct theca sub-types, remain unknown. Here, we performed single cell multi-omics analysis of primary cell populations purified from human antral stage follicles (1–3 mm) to define the differentiation trajectory of theca/stroma cells. We then corroborated the temporal emergence and growth kinetics of defined theca/stroma subpopulations using human ovarian tissue samples and xenografts of cryopreserved/thawed ovarian cortex, respectively. We identified three lineage specific derivatives termed structural, androgenic, and perifollicular theca cells, as well as their putative lineage-negative progenitor. These findings provide a framework for understanding the differentiation process that occurs in each primordial follicle and identifies specific cellular/molecular phenotypes that may be relevant to either diagnosis or treatment of ovarian pathologies.

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Human theca arises from ovarian stroma and is comprised of three discrete subtypes

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