YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25B Phosphatase in Mouse Oogenesis and Oocyte Maturation

Alaa A. Eisa; Santanu De; Ariana Detwiler; Eva Gilker; Alexander C. Ignatious; Srinivasan Vijayaraghavan; Douglas Kline

doi:10.1186/s12861-019-0200-1

YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25B Phosphatase in Mouse Oogenesis and Oocyte Maturation

Alaa A. Eisa
, Santanu De
, Ariana Detwiler
, Eva Gilker
, Alexander C. Ignatious
, Srinivasan Vijayaraghavan
, Douglas Kline

Department of Biological Sciences

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

24 Scopus citations

Abstract

Background

Immature mammalian oocytes are held arrested at prophase I of meiosis by an inhibitory phosphorylation of cyclin-dependent kinase 1 (CDK1). Release from this meiotic arrest and germinal vesicle breakdown is dependent on dephosphorylation of CDK1 by the protein, cell cycle division 25B (CDC25B). Evidence suggests that phosphorylated CDC25B is bound to YWHA (14-3-3) proteins in the cytoplasm of immature oocytes and is thus maintained in an inactive form. The importance of YWHA in meiosis demands additional studies.

Results

Messenger RNA for multiple isoforms of the YWHA protein family was detected in mouse oocytes and eggs. All seven mammalian YWHA isoforms previously reported to be expressed in mouse oocytes, were found to interact with CDC25B as evidenced by in situ proximity ligation assays. Interaction of YWHAH with CDC25B was indicated by Förster Resonance Energy Transfer (FRET) microscopy. Intracytoplasmic microinjection of oocytes with R18, a known, synthetic, non-isoform-specific, YWHA-blocking peptide promoted germinal vesicle breakdown. This suggests that inhibiting the interactions between YWHA proteins and their binding partners releases the oocyte from meiotic arrest. Microinjection of isoform-specific, translation-blocking morpholino oligonucleotides to knockdown or downregulate YWHA protein synthesis in oocytes suggested a role for a specific YWHA isoform in maintaining the meiotic arrest. More definitively however, and in contrast to the knockdown experiments, oocyte-specific and global deletion of two isoforms of YWHA, YWHAH (14-3-3 eta) or YWHAE (14-3-3 epsilon) indicated that the complete absence of either or both isoforms does not alter oocyte development and release from the meiotic prophase I arrest.

Conclusions

Multiple isoforms of the YWHA protein are expressed in mouse oocytes and eggs and interact with the cell cycle protein CDC25B, but YWHAH and YWHAE isoforms are not essential for normal mouse oocyte maturation, fertilization and early embryonic development.

Original language	American English
Article number	20
Journal	BMC Developmental Biology
Volume	19
Issue number	1
DOIs	https://doi.org/10.1186/s12861-019-0200-1
State	Published - Oct 22 2019

Bibliographical note

Publisher Copyright:
© 2019 The Author(s).

Funding

This work was supported by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health under Award Number HD061869. The funding agency had no input to the design of the study or in the collection, analysis or interpretation of data.

Funders	Funder number
National Institute of Child Health and Human Development	R15HD061869
Eunice Kennedy Shriver National Institute of Child Health and Human Development

ASJC Scopus Subject Areas

Developmental Biology

Keywords

14-3-3
CDC25B
Meiosis
Mouse
Oocyte maturation
Oogenesis
YWHA
YWHAE
YWHAH
Fertilization
Protein Isoforms/metabolism
Cytoplasm/metabolism
Embryonic Development
cdc25 Phosphatases/metabolism
Animals
Oocytes/metabolism
Fluorescence Resonance Energy Transfer
14-3-3 Proteins/genetics
Female
Mice

Disciplines

Biology
Life Sciences

Access to Document

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YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25BFinal published version, 6.82 MBLicense: Unspecified

Cite this

@article{34b410a7190b4eb3916287fa155762f3,

title = "YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25B Phosphatase in Mouse Oogenesis and Oocyte Maturation",

abstract = " Background Immature mammalian oocytes are held arrested at prophase I of meiosis by an inhibitory phosphorylation of cyclin-dependent kinase 1 (CDK1). Release from this meiotic arrest and germinal vesicle breakdown is dependent on dephosphorylation of CDK1 by the protein, cell cycle division 25B (CDC25B). Evidence suggests that phosphorylated CDC25B is bound to YWHA (14-3-3) proteins in the cytoplasm of immature oocytes and is thus maintained in an inactive form. The importance of YWHA in meiosis demands additional studies. Results Messenger RNA for multiple isoforms of the YWHA protein family was detected in mouse oocytes and eggs. All seven mammalian YWHA isoforms previously reported to be expressed in mouse oocytes, were found to interact with CDC25B as evidenced by in situ proximity ligation assays. Interaction of YWHAH with CDC25B was indicated by F{\"o}rster Resonance Energy Transfer (FRET) microscopy. Intracytoplasmic microinjection of oocytes with R18, a known, synthetic, non-isoform-specific, YWHA-blocking peptide promoted germinal vesicle breakdown. This suggests that inhibiting the interactions between YWHA proteins and their binding partners releases the oocyte from meiotic arrest. Microinjection of isoform-specific, translation-blocking morpholino oligonucleotides to knockdown or downregulate YWHA protein synthesis in oocytes suggested a role for a specific YWHA isoform in maintaining the meiotic arrest. More definitively however, and in contrast to the knockdown experiments, oocyte-specific and global deletion of two isoforms of YWHA, YWHAH (14-3-3 eta) or YWHAE (14-3-3 epsilon) indicated that the complete absence of either or both isoforms does not alter oocyte development and release from the meiotic prophase I arrest. Conclusions Multiple isoforms of the YWHA protein are expressed in mouse oocytes and eggs and interact with the cell cycle protein CDC25B, but YWHAH and YWHAE isoforms are not essential for normal mouse oocyte maturation, fertilization and early embryonic development.",

keywords = "14-3-3, CDC25B, Meiosis, Mouse, Oocyte maturation, Oogenesis, YWHA, YWHAE, YWHAH, Fertilization, Protein Isoforms/metabolism, Cytoplasm/metabolism, Embryonic Development, cdc25 Phosphatases/metabolism, Animals, Oocytes/metabolism, Fluorescence Resonance Energy Transfer, 14-3-3 Proteins/genetics, Female, Mice",

author = "Eisa, \{Alaa A.\} and Santanu De and Ariana Detwiler and Eva Gilker and Ignatious, \{Alexander C.\} and Srinivasan Vijayaraghavan and Douglas Kline",

note = "Publisher Copyright: {\textcopyright} 2019 The Author(s).",

year = "2019",

month = oct,

day = "22",

doi = "10.1186/s12861-019-0200-1",

language = "American English",

volume = "19",

journal = "BMC Developmental Biology",

issn = "1471-213X",

publisher = "BioMed Central Ltd",

number = "1",

}

TY - JOUR

T1 - YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25B Phosphatase in Mouse Oogenesis and Oocyte Maturation

AU - Eisa, Alaa A.

AU - De, Santanu

AU - Detwiler, Ariana

AU - Gilker, Eva

AU - Ignatious, Alexander C.

AU - Vijayaraghavan, Srinivasan

AU - Kline, Douglas

PY - 2019/10/22

Y1 - 2019/10/22

N2 - Background Immature mammalian oocytes are held arrested at prophase I of meiosis by an inhibitory phosphorylation of cyclin-dependent kinase 1 (CDK1). Release from this meiotic arrest and germinal vesicle breakdown is dependent on dephosphorylation of CDK1 by the protein, cell cycle division 25B (CDC25B). Evidence suggests that phosphorylated CDC25B is bound to YWHA (14-3-3) proteins in the cytoplasm of immature oocytes and is thus maintained in an inactive form. The importance of YWHA in meiosis demands additional studies. Results Messenger RNA for multiple isoforms of the YWHA protein family was detected in mouse oocytes and eggs. All seven mammalian YWHA isoforms previously reported to be expressed in mouse oocytes, were found to interact with CDC25B as evidenced by in situ proximity ligation assays. Interaction of YWHAH with CDC25B was indicated by Förster Resonance Energy Transfer (FRET) microscopy. Intracytoplasmic microinjection of oocytes with R18, a known, synthetic, non-isoform-specific, YWHA-blocking peptide promoted germinal vesicle breakdown. This suggests that inhibiting the interactions between YWHA proteins and their binding partners releases the oocyte from meiotic arrest. Microinjection of isoform-specific, translation-blocking morpholino oligonucleotides to knockdown or downregulate YWHA protein synthesis in oocytes suggested a role for a specific YWHA isoform in maintaining the meiotic arrest. More definitively however, and in contrast to the knockdown experiments, oocyte-specific and global deletion of two isoforms of YWHA, YWHAH (14-3-3 eta) or YWHAE (14-3-3 epsilon) indicated that the complete absence of either or both isoforms does not alter oocyte development and release from the meiotic prophase I arrest. Conclusions Multiple isoforms of the YWHA protein are expressed in mouse oocytes and eggs and interact with the cell cycle protein CDC25B, but YWHAH and YWHAE isoforms are not essential for normal mouse oocyte maturation, fertilization and early embryonic development.

AB - Background Immature mammalian oocytes are held arrested at prophase I of meiosis by an inhibitory phosphorylation of cyclin-dependent kinase 1 (CDK1). Release from this meiotic arrest and germinal vesicle breakdown is dependent on dephosphorylation of CDK1 by the protein, cell cycle division 25B (CDC25B). Evidence suggests that phosphorylated CDC25B is bound to YWHA (14-3-3) proteins in the cytoplasm of immature oocytes and is thus maintained in an inactive form. The importance of YWHA in meiosis demands additional studies. Results Messenger RNA for multiple isoforms of the YWHA protein family was detected in mouse oocytes and eggs. All seven mammalian YWHA isoforms previously reported to be expressed in mouse oocytes, were found to interact with CDC25B as evidenced by in situ proximity ligation assays. Interaction of YWHAH with CDC25B was indicated by Förster Resonance Energy Transfer (FRET) microscopy. Intracytoplasmic microinjection of oocytes with R18, a known, synthetic, non-isoform-specific, YWHA-blocking peptide promoted germinal vesicle breakdown. This suggests that inhibiting the interactions between YWHA proteins and their binding partners releases the oocyte from meiotic arrest. Microinjection of isoform-specific, translation-blocking morpholino oligonucleotides to knockdown or downregulate YWHA protein synthesis in oocytes suggested a role for a specific YWHA isoform in maintaining the meiotic arrest. More definitively however, and in contrast to the knockdown experiments, oocyte-specific and global deletion of two isoforms of YWHA, YWHAH (14-3-3 eta) or YWHAE (14-3-3 epsilon) indicated that the complete absence of either or both isoforms does not alter oocyte development and release from the meiotic prophase I arrest. Conclusions Multiple isoforms of the YWHA protein are expressed in mouse oocytes and eggs and interact with the cell cycle protein CDC25B, but YWHAH and YWHAE isoforms are not essential for normal mouse oocyte maturation, fertilization and early embryonic development.

KW - 14-3-3

KW - CDC25B

KW - Meiosis

KW - Mouse

KW - Oocyte maturation

KW - Oogenesis

KW - YWHA

KW - YWHAE

KW - YWHAH

KW - Fertilization

KW - Protein Isoforms/metabolism

KW - Cytoplasm/metabolism

KW - Embryonic Development

KW - cdc25 Phosphatases/metabolism

KW - Animals

KW - Oocytes/metabolism

KW - Fluorescence Resonance Energy Transfer

KW - 14-3-3 Proteins/genetics

KW - Female

KW - Mice

UR - https://nsuworks.nova.edu/cnso_bio_facarticles/984

UR - https://www.scopus.com/pages/publications/85073747004

UR - https://www.scopus.com/pages/publications/85073747004#tab=citedBy

U2 - 10.1186/s12861-019-0200-1

DO - 10.1186/s12861-019-0200-1

M3 - Article

C2 - 31640562

SN - 1471-213X

VL - 19

JO - BMC Developmental Biology

JF - BMC Developmental Biology

IS - 1

M1 - 20

ER -

YWHA (14-3-3) Protein Isoforms and Their Interactions with CDC25B Phosphatase in Mouse Oogenesis and Oocyte Maturation

Abstract

Bibliographical note

Funding

ASJC Scopus Subject Areas

Keywords

Disciplines

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