Cyclin A Associates with the Fusome during Germline Cyst Formation in the Drosophila Ovary

ABSTRACT During oocyte differentiation in mouse fetal ovaries, sister germ cells are connected by intercellular bridges, forming germline cysts. Within the cyst, primary oocytes form via gaining cytoplasm and organelles from sister germ cells through germ cell connectivity. To uncover the role of intercellular bridges in oocyte differentiation, we analyzed mutant female mice lacking testis-expressed 14 (TEX14), a protein involved in intercellular bridge formation and stabilization. In Tex14 homozygous mutant fetal ovaries, germ cells divide to form a reduced number of cysts in which germ cells remained connected via syncytia or fragmented cell membranes, rather than normal intercellular bridges. Compared with wild-type cysts, homozygous mutant cysts fragmented at a higher frequency and produced a greatly reduced number of primary oocytes with precocious cytoplasmic enrichment and enlarged volume. By contrast, Tex14 heterozygous mutant germline cysts were less fragmented and generate primary oocytes at a reduced size. Moreover, enlarged primary oocytes in homozygous mutants were used more efficiently to sustain folliculogenesis than undersized heterozygous mutant primary oocytes. Our observations directly link the nature of fetal germline cysts to oocyte differentiation and development.

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Orbit/CLASP Is Required for Germline Cyst Formation through Its Developmental Control of Fusomes and Ring Canals in Drosophila Males

PLoS ONE ◽

10.1371/journal.pone.0058220 ◽

2013 ◽

Vol 8 (3) ◽

pp. e58220 ◽

Cited By ~ 10

Author(s):

Chie Miyauchi ◽

Daishi Kitazawa ◽

Itaru Ando ◽

Daisuke Hayashi ◽

Yoshihiro H. Inoue

Keyword(s):

Cyst Formation ◽

Developmental Control ◽

Ring Canals ◽

Germline Cyst

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Female mouse germ cells form synchronously dividing cysts

Development ◽

10.1242/dev.125.17.3323 ◽

1998 ◽

Vol 125 (17) ◽

pp. 3323-3328 ◽

Cited By ~ 1

Author(s):

M.E. Pepling ◽

A.C. Spradling

Keyword(s):

Confocal Microscopy ◽

Germ Cells ◽

Female Mouse ◽

Progenitor Cell ◽

Molecular Level ◽

Cyst Formation ◽

Intercellular Bridges ◽

Cell Clusters ◽

Key Characteristics ◽

Germline Cyst

Oocytes from many invertebrates initiate development within distinctive cysts of interconnected cells, which are formed through synchronous divisions of a progenitor cell. Recently, processes underlying cyst formation have been extensively characterized at the molecular level in Drosophila. Defects in this process cause sterility in female flies. Early female mouse germ cells are organized as cell clusters as well, but it is uncertain whether these groups are similar to the cysts of invertebrates. We find that mouse germ cells are connected by intercellular bridges in the ovaries of 11.5 to 17.5 days postcoitum embryos; microtubules and organelles have been observed within these bridges. Confocal microscopy shows that cells within mouse clusters divide synchronously and frequently correspond in number to powers of two. Thus, female mouse germ cell clusters exhibit key characteristics of invertebrate germline cysts indicating that the process of germline cyst formation is conserved in the mouse.

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Protein Phosphatase 1ß Limits Ring Canal Constriction during Drosophila Germline Cyst Formation

PLoS ONE ◽

10.1371/journal.pone.0070502 ◽

2013 ◽

Vol 8 (7) ◽

pp. e70502 ◽

Cited By ~ 20

Author(s):

Shinya Yamamoto ◽

Vafa Bayat ◽

Hugo J. Bellen ◽

Change Tan

Keyword(s):

Protein Phosphatase ◽

Cyst Formation ◽

Ring Canal ◽

Germline Cyst

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Adult stem cells and niche cells segregate gradually from common precursors that build the adult Drosophila ovary during pupal development

eLife ◽

10.7554/elife.69749 ◽

2021 ◽

Vol 10 ◽

Author(s):

Amy Reilein ◽

Helen V Kogan ◽

Rachel Misner ◽

Karen Sophia Park ◽

Daniel Kalderon

Keyword(s):

Stem Cells ◽

Adult Stem Cells ◽

Spatial Organization ◽

Follicle Cells ◽

Pupal Development ◽

Adult Cell ◽

Germline Cyst ◽

Follicle Stem Cells ◽

Drosophila Ovary ◽

Adult Drosophila

Production of proliferative Follicle Cells (FCs) and quiescent Escort Cells (ECs) by Follicle Stem Cells (FSCs) in adult Drosophila ovaries is regulated by niche signals from anterior (Cap Cells, ECs) and posterior (polar FCs) sources. Here we show that ECs, FSCs and FCs develop from common pupal precursors, with different fates acquired by progressive separation of cells along the AP axis and a graded decline in anterior cell proliferation. ECs, FSCs and most FCs derive from Intermingled Cell (IC) precursors interspersed with germline cells. Precursors also accumulate posterior to ICs before engulfing a naked germline cyst projected out of the germarium to form the first egg chamber and posterior polar FC signaling center. Thus, stem and niche cells develop in appropriate numbers and spatial organization through regulated proliferative expansion together with progressive establishment of spatial signaling cues that guide adult cell behavior, rather than through rigid early specification events.

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