Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary

Eric H Lee; Daniel Zinshteyn; Fred Miglo; Melissa Q. Wang; Jessica Reinach; Cindy M Chau; Joseph M Grosstephan; Iliana Correa; Kelly Costa; Alberto Vargas; Aminah Johnson; Sheila M Longo; Jennifer I Alexander; AM O'Reilly

doi:10.1242/bio.059625

Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary

Eric H Lee
, Daniel Zinshteyn
, Fred Miglo
, Melissa Q. Wang
, Jessica Reinach
, Cindy M Chau
, Joseph M Grosstephan
, Iliana Correa
, Kelly Costa
, Alberto Vargas
, Aminah Johnson
, Sheila M Longo
, Jennifer I Alexander
, AM O'Reilly

Fox Chase Cancer Center

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

2 Scopus citations

Abstract

Stem cells cycle between periods of quiescence and proliferation to promote tissue health. In Drosophila ovaries, quiescence to proliferation transitions of follicle stem cells (FSCs) are exquisitely feeding-dependent. Here, we demonstrate feeding-dependent induction of follicle cell differentiation markers, eyes absent (Eya) and castor (Cas) in FSCs, a patterning process that does not depend on proliferation induction. Instead, FSCs extend micron-scale cytoplasmic projections that dictate Eya-Cas patterning. We identify still life and sickie as necessary and sufficient for FSC projection growth and Eya-Cas induction. Our results suggest that sequential, interdependent events establish long-term differentiation patterns in follicle cell precursors, independently of FSC proliferation induction.

Original language	American English
Article number	bio059625
Number of pages	14
Journal	Biology Open
Volume	12
Issue number	1
DOIs	https://doi.org/10.1242/bio.059625
State	Published - Jan 2023

Keywords

Cell fate
Cytoplasmic projections
Follicle formation
Oogenesis
Quiescence to proliferation transition
Self-renewal
Stem cell
Drosophila Proteins/genetics
Ovary/metabolism
Drosophila melanogaster/metabolism
Animals
Cell Division
Female
Cell Differentiation
Drosophila/metabolism

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10.1242/bio.059625

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Lee, E. H., Zinshteyn, D., Miglo, F., Wang, M. Q., Reinach, J., Chau, C. M., Grosstephan, J. M., Correa, I., Costa, K., Vargas, A., Johnson, A., Longo, S. M., Alexander, J. I., & O'Reilly, AM. (2023). Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary. Biology Open, 12(1), Article bio059625. https://doi.org/10.1242/bio.059625

@article{b03e4762c37c4cbe9ac086ad432ec580,

title = "Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary",

abstract = "Stem cells cycle between periods of quiescence and proliferation to promote tissue health. In Drosophila ovaries, quiescence to proliferation transitions of follicle stem cells (FSCs) are exquisitely feeding-dependent. Here, we demonstrate feeding-dependent induction of follicle cell differentiation markers, eyes absent (Eya) and castor (Cas) in FSCs, a patterning process that does not depend on proliferation induction. Instead, FSCs extend micron-scale cytoplasmic projections that dictate Eya-Cas patterning. We identify still life and sickie as necessary and sufficient for FSC projection growth and Eya-Cas induction. Our results suggest that sequential, interdependent events establish long-term differentiation patterns in follicle cell precursors, independently of FSC proliferation induction.",

keywords = "Cell fate, Cytoplasmic projections, Follicle formation, Oogenesis, Quiescence to proliferation transition, Self-renewal, Stem cell, Drosophila Proteins/genetics, Ovary/metabolism, Drosophila melanogaster/metabolism, Animals, Cell Division, Female, Cell Differentiation, Drosophila/metabolism",

author = "Lee, \{Eric H\} and Daniel Zinshteyn and Fred Miglo and Wang, \{Melissa Q.\} and Jessica Reinach and Chau, \{Cindy M\} and Grosstephan, \{Joseph M\} and Iliana Correa and Kelly Costa and Alberto Vargas and Aminah Johnson and Longo, \{Sheila M\} and Alexander, \{Jennifer I\} and AM O'Reilly",

note = "Publisher Copyright: {\textcopyright} 2023. Published by The Company of Biologists Ltd.",

year = "2023",

month = jan,

doi = "10.1242/bio.059625",

language = "American English",

volume = "12",

journal = "Biology Open",

issn = "2046-6390",

publisher = "Company of Biologists Ltd",

number = "1",

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Lee, EH, Zinshteyn, D, Miglo, F, Wang, MQ, Reinach, J, Chau, CM, Grosstephan, JM, Correa, I, Costa, K, Vargas, A, Johnson, A, Longo, SM, Alexander, JI & O'Reilly, AM 2023, 'Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary', Biology Open, vol. 12, no. 1, bio059625. https://doi.org/10.1242/bio.059625

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AU - Lee, Eric H

AU - Zinshteyn, Daniel

AU - Miglo, Fred

AU - Wang, Melissa Q.

AU - Reinach, Jessica

AU - Chau, Cindy M

AU - Grosstephan, Joseph M

AU - Correa, Iliana

AU - Costa, Kelly

AU - Vargas, Alberto

AU - Johnson, Aminah

AU - Longo, Sheila M

AU - Alexander, Jennifer I

AU - O'Reilly, AM

PY - 2023/1

Y1 - 2023/1

N2 - Stem cells cycle between periods of quiescence and proliferation to promote tissue health. In Drosophila ovaries, quiescence to proliferation transitions of follicle stem cells (FSCs) are exquisitely feeding-dependent. Here, we demonstrate feeding-dependent induction of follicle cell differentiation markers, eyes absent (Eya) and castor (Cas) in FSCs, a patterning process that does not depend on proliferation induction. Instead, FSCs extend micron-scale cytoplasmic projections that dictate Eya-Cas patterning. We identify still life and sickie as necessary and sufficient for FSC projection growth and Eya-Cas induction. Our results suggest that sequential, interdependent events establish long-term differentiation patterns in follicle cell precursors, independently of FSC proliferation induction.

AB - Stem cells cycle between periods of quiescence and proliferation to promote tissue health. In Drosophila ovaries, quiescence to proliferation transitions of follicle stem cells (FSCs) are exquisitely feeding-dependent. Here, we demonstrate feeding-dependent induction of follicle cell differentiation markers, eyes absent (Eya) and castor (Cas) in FSCs, a patterning process that does not depend on proliferation induction. Instead, FSCs extend micron-scale cytoplasmic projections that dictate Eya-Cas patterning. We identify still life and sickie as necessary and sufficient for FSC projection growth and Eya-Cas induction. Our results suggest that sequential, interdependent events establish long-term differentiation patterns in follicle cell precursors, independently of FSC proliferation induction.

KW - Cell fate

KW - Cytoplasmic projections

KW - Follicle formation

KW - Oogenesis

KW - Quiescence to proliferation transition

KW - Self-renewal

KW - Stem cell

KW - Drosophila Proteins/genetics

KW - Ovary/metabolism

KW - Drosophila melanogaster/metabolism

KW - Animals

KW - Cell Division

KW - Female

KW - Cell Differentiation

KW - Drosophila/metabolism

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JO - Biology Open

JF - Biology Open

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M1 - bio059625

ER -

Sequential events during the quiescence to proliferation transition establish patterns of follicle cell differentiation in the Drosophila ovary

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