Major sperm protein signaling promotes oocyte microtubule reorganization prior to fertilization in Caenorhabditis elegans

Jana E. Harris; J. Amaranath Govindan; Ikuko Yamamoto; Joel Schwartz; Irina Kaverina; David Greenstein

doi:10.1016/j.ydbio.2006.07.013

Major sperm protein signaling promotes oocyte microtubule reorganization prior to fertilization in Caenorhabditis elegans

Jana E. Harris, J. Amaranath Govindan, Ikuko Yamamoto, Joel Schwartz, Irina Kaverina, David Greenstein

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

51 Scopus citations

Abstract

In most animals, female meiotic spindles assemble in the absence of centrosomes; instead, microtubule nucleation by chromatin, motor activity, and microtubule dynamics drive the self-organization of a bipolar meiotic spindle. Meiotic spindle assembly commences when microtubules gain access to chromatin after nuclear envelope breakdown (NEBD) during meiotic maturation. Although many studies have addressed the chromatin-based mechanism of female meiotic spindle assembly, it is less clear how signaling influences microtubule localization and dynamics prior to NEBD. Here we analyze microtubule behavior in Caenorhabditis elegans oocytes at early stages of the meiotic maturation process using confocal microscopy and live-cell imaging. In C. elegans, sperm trigger oocyte meiotic maturation and ovulation using the major sperm protein (MSP) as an extracellular signaling molecule. We show that MSP signaling reorganizes oocyte microtubules prior to NEBD and fertilization by affecting their localization and dynamics. We present evidence that MSP signaling reorganizes oocyte microtubules through a signaling network involving antagonistic Gα_o/i and Gα_s pathways and gap-junctional communication with somatic cells of the gonad. We propose that MSP-dependent microtubule reorganization promotes meiotic spindle assembly by facilitating the search and capture of microtubules by meiotic chromatin following NEBD.

Original language	English (US)
Pages (from-to)	105-121
Number of pages	17
Journal	Developmental Biology
Volume	299
Issue number	1
DOIs	https://doi.org/10.1016/j.ydbio.2006.07.013
State	Published - Nov 1 2006
Externally published	Yes

Bibliographical note

Funding Information:
We are grateful to Al Reynolds and Nicole Lobdell for generously sharing their spinning disk confocal microscope and providing training and assistance. We thank Anne Kenworthy and Jeffrey Shawn Goodwin for advice on the FRAP analysis. Sam Wells and Sean Schaffer provided helpful suggestions for optimizing live-cell imaging. Bob Barstead, Gary Moulder, Martin Srayko, Geraldine Seydoux, and the Caenorhabditis Genetic Center kindly provided strains. We thank Karen Oegema and Tony Hyman for their gift of the CeGrip-1 antibodies and Byeong Cha and Barth Grant for critical reading of the manuscript. J.E.H. would like to thank Mary Kosinski and Brandon Lute for their ideas and encouragement. This work was supported by NIH grants GM65115 and GM57173 (D.G.) and an NIH Training Grant 2T32HD007043-31 (J.E.H.).

Keywords

C. elegans
G-protein
Meiosis
Meiotic maturation
Microtubule
Oocyte
Signaling
Somatic gonad

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title = "Major sperm protein signaling promotes oocyte microtubule reorganization prior to fertilization in Caenorhabditis elegans",

abstract = "In most animals, female meiotic spindles assemble in the absence of centrosomes; instead, microtubule nucleation by chromatin, motor activity, and microtubule dynamics drive the self-organization of a bipolar meiotic spindle. Meiotic spindle assembly commences when microtubules gain access to chromatin after nuclear envelope breakdown (NEBD) during meiotic maturation. Although many studies have addressed the chromatin-based mechanism of female meiotic spindle assembly, it is less clear how signaling influences microtubule localization and dynamics prior to NEBD. Here we analyze microtubule behavior in Caenorhabditis elegans oocytes at early stages of the meiotic maturation process using confocal microscopy and live-cell imaging. In C. elegans, sperm trigger oocyte meiotic maturation and ovulation using the major sperm protein (MSP) as an extracellular signaling molecule. We show that MSP signaling reorganizes oocyte microtubules prior to NEBD and fertilization by affecting their localization and dynamics. We present evidence that MSP signaling reorganizes oocyte microtubules through a signaling network involving antagonistic Gαo/i and Gαs pathways and gap-junctional communication with somatic cells of the gonad. We propose that MSP-dependent microtubule reorganization promotes meiotic spindle assembly by facilitating the search and capture of microtubules by meiotic chromatin following NEBD.",

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author = "Harris, {Jana E.} and Govindan, {J. Amaranath} and Ikuko Yamamoto and Joel Schwartz and Irina Kaverina and David Greenstein",

note = "Funding Information: We are grateful to Al Reynolds and Nicole Lobdell for generously sharing their spinning disk confocal microscope and providing training and assistance. We thank Anne Kenworthy and Jeffrey Shawn Goodwin for advice on the FRAP analysis. Sam Wells and Sean Schaffer provided helpful suggestions for optimizing live-cell imaging. Bob Barstead, Gary Moulder, Martin Srayko, Geraldine Seydoux, and the Caenorhabditis Genetic Center kindly provided strains. We thank Karen Oegema and Tony Hyman for their gift of the CeGrip-1 antibodies and Byeong Cha and Barth Grant for critical reading of the manuscript. J.E.H. would like to thank Mary Kosinski and Brandon Lute for their ideas and encouragement. This work was supported by NIH grants GM65115 and GM57173 (D.G.) and an NIH Training Grant 2T32HD007043-31 (J.E.H.). ",

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doi = "10.1016/j.ydbio.2006.07.013",

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AU - Schwartz, Joel

AU - Kaverina, Irina

AU - Greenstein, David

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KW - G-protein

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KW - Microtubule

KW - Oocyte

KW - Signaling

KW - Somatic gonad

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Major sperm protein signaling promotes oocyte microtubule reorganization prior to fertilization in Caenorhabditis elegans

Abstract

Bibliographical note

Keywords

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