The bovine cumulus proteome is influenced by maturation condition and maturational competence of the oocyte

Walter, Jasmin; Monthoux, Chloé; Fortes, Claudia; Grossmann, Jonas; Roschitzki, Bernd; Meili, Theres; Riond, Barbara; Hofmann‐Lehmann, Regina; Naegeli, Hanspeter; Bleul, Ulrich

doi:10.1038/s41598-020-66822-z

Cited by 22 publications

(30 citation statements)

References 82 publications

(101 reference statements)

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“…Nonetheless, the few studies described many proteins involved in cell signaling that may have a role in cumulus-oocyte communication and competence. Most of the proteins are involved in components of integrin, actin cytoskeleton, mitogen-activated protein kinases (MAPK) and phosphatidylinositol 3-kinase (PI3K) signaling pathways, extracellular matrix (ECM) receptor interactions, steroid biosynthesis, and glucose and carbohydrate metabolism, which may have implications in various reproductive processes such as oocyte development and maturation [156][157][158] (Table 2). A recent study reported a highly sensitive approach to characterize the CC proteome from a single COC after in vivo or in vitro maturation [156].…”

Section: Transcriptomic and Proteomic Of Cumulus Cellsmentioning

confidence: 99%

Oocyte Selection for In Vitro Embryo Production in Bovine Species: Noninvasive Approaches for New Challenges of Oocyte Competence

Águila

Treulén

Therrien

et al. 2020

Animals

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The efficiency of producing embryos using in vitro technologies in livestock species rarely exceeds the 30–40% threshold, indicating that the proportion of oocytes that fail to develop after in vitro fertilization and culture is considerably large. Considering that the intrinsic quality of the oocyte is one of the main factors affecting blastocyst yield, the precise identification of noninvasive cellular or molecular markers that predict oocyte competence is of major interest to research and practical applications. The aim of this review was to explore the current literature on different noninvasive markers associated with oocyte quality in the bovine model. Apart from some controversial findings, the presence of cycle-related structures in ovaries, a follicle size between 6 and 10 mm, large number of surrounding cumulus cells, slightly expanded investment without dark areas, large oocyte diameter (>120 microns), dark cytoplasm, and the presence of a round and smooth first polar body have been associated with better competence. In addition, the combination of oocyte and zygote selection via brilliant cresyl blue (BCB) test, spindle imaging, and the anti-Stokes Raman scattering microscopy together with studies decoding molecular cues in oocyte maturation have the potential to further optimize the identification of oocytes with better developmental competence for in-vitro-derived technologies in livestock species.

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Section: Transcriptomic and Proteomic Of Cumulus Cellsmentioning

confidence: 99%

Oocyte Selection for In Vitro Embryo Production in Bovine Species: Noninvasive Approaches for New Challenges of Oocyte Competence

Águila

Treulén

Therrien

et al. 2020

Animals

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“…The findings of the present study enhance our knowledge of bovine ffEV protein cargo. Indeed, until now, EV-proteomic studies in bovine have been limited to exosomes derived from milk ( 44 ) plasma, saliva, urine ( 27 , 28 ), oviduct fluid ( 10 ), and spent medium containing ovarian cell secretions ( 45 ). Here, we identified 322 proteins in ffEVs.…”

Section: Discussionmentioning

confidence: 99%

“…This characteristic of ffEVs makes them a valuable source of novel diagnostic and therapeutic strategies in reproductive medicine ( 74 ). Although their utility is theoretical currently, data have shown that levels of cumulus proteins were different in mature and non-mature COCs ( 45 ). These differential proteins were detected in ffEVs, and therefore, ffEVs may be involved in the acquisition of competence by the enclosed oocyte.…”

Section: Discussionmentioning

confidence: 99%

Protein Cargo of Extracellular Vesicles From Bovine Follicular Fluid and Analysis of Their Origin From Different Ovarian Cells

et al. 2020

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Follicular fluid (FF) fills the interior portion of the ovarian antral follicle and provides a suitable microenvironment for the growth of the enclosed oocyte through molecular factors that originate from plasma and the secretions of follicular cells. FF contains extracellular nanovesicles (ffEVs), including 30–100-nm membrane-coated exosomes, which carry different types of RNA, proteins, and lipids and directly influence oocyte competence to develop embryo. In the present study, we aimed to characterize the protein cargo of EVs from the FF of 3–6-mm follicles and uncover the origins of ffEVs by assessing expression levels of corresponding mRNAs in bovine follicular cells and oocyte and cell proteomes. Isolated exosome-like ffEVs were 53.6 + 23.3 nm in size and could be internalized by cumulus-oocyte complex. Proteomes of ffEVs and granulosa cells (GC) were assessed using nanoflow liquid chromatography coupled with high-resolution tandem mass spectrometry after the gel fractionation of total proteins. In total, 460 protein isoforms corresponding to 322 unique proteins were identified in ffEVs; among them, 190 were also identified via GC. Gene Ontology terms related to the ribosome, protein and RNA folding, molecular transport, endocytosis, signal transduction, complement and coagulation cascades, apoptosis, and developmental biology pathways, including PI3K-Akt signaling, were significantly enriched features of ffEV proteins. FfEVs contain numerous ribosome and RNA-binding proteins, which may serve to compact different RNAs to regulate gene expression and RNA degradation, and might transfer ribosomal constituents to the oocyte. Majority of genes encoding ffEV proteins expressed at different levels in follicular cells and oocyte, corroborating with numerous proteins, which were reported in bovine oocyte and cumulus cells in other studies thus indicating possible origin of ffEV proteins. The limited abundance of several mRNAs within follicular cells indicated that corresponding ffEV proteins likely originated from circulating exosomes released by other tissues. Analysis of bovine ffEV transcriptome revealed that mRNAs present in ffEV accounted for only 18.3% of detected ffEV proteins. In conclusion, our study revealed numerous proteins within ffEVs, which originated from follicular and other cells. These proteins are likely involved in the maintenance of follicular homeostasis and may affect oocyte competence.

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“…Nonetheless, the few studies have described many proteins involved in the cell signaling that may have a role in cumulus-oocyte communication and competence. Most of the proteins involved are components of integrin, actin cytoskeleton, MAPK and PI3K signaling pathways, ECM-receptor interactions, steroid biosynthesis, glucose and carbohydrate metabolism, that may have implications in various reproductive processes such as oocyte development, and maturation [154,155] (Table 2). A recent study reports a highly sensitive approach to characterize the CC proteome from a single COC after in vivo or in vitro maturation [154].…”

Section: Transcriptomic and Proteomic Of Cumulus Cellsmentioning

confidence: 99%

“…Most of the proteins involved are components of integrin, actin cytoskeleton, MAPK and PI3K signaling pathways, ECM-receptor interactions, steroid biosynthesis, glucose and carbohydrate metabolism, that may have implications in various reproductive processes such as oocyte development, and maturation [154,155] (Table 2). A recent study reports a highly sensitive approach to characterize the CC proteome from a single COC after in vivo or in vitro maturation [154]. This method shows the potential to directly connect the cumulus proteome to the developmental potential of the corresponding oocyte, as already performed at gene expression level.…”

Section: Transcriptomic and Proteomic Of Cumulus Cellsmentioning

confidence: 99%

Oocyte Selection for <em>in vitro</em> embryo Production in Bovine Species: Non-Invasive Approaches for the New Challenges of Oocyte Competence

Águila¹,

Treulén²,

Therrien³

et al. 2020

Preprint

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The efficiency of producing embryos using in vitro technologies in livestock species rarely exceeds the 30 to 40% threshold, indicating that the proportion of oocytes that fail to develop after in vitro fertilization and culture is considerably large. Considering that the intrinsic quality of the oocyte is one of the main factors affecting blastocyst yield, the precise identification of non-invasive cellular or molecular markers that predict oocyte competence is of major interest to research and practical applications. The aim of this review was to explore the current literature on different non-invasive markers associated with oocyte quality in the bovine model. Apart from some controversial findings, the presence of cycle-related structures in ovaries, a follicle size between 6 and 10 mm, large number of surrounding cumulus cells, slightly expanded investment without dark areas, large oocyte diameter (>120 microns), dark cytoplasm, and the presence of a round and smooth first polar body have been associated to better competence. In addition, the combination of oocyte and zygote selection by BCB test and spindle imaging have the potential to further optimize the identification of oocytes with better developmental competence for in vitro-derived technologies in livestock species.

show abstract

The bovine cumulus proteome is influenced by maturation condition and maturational competence of the oocyte

Cited by 22 publications

References 82 publications

Oocyte Selection for In Vitro Embryo Production in Bovine Species: Noninvasive Approaches for New Challenges of Oocyte Competence

Oocyte Selection for In Vitro Embryo Production in Bovine Species: Noninvasive Approaches for New Challenges of Oocyte Competence

Protein Cargo of Extracellular Vesicles From Bovine Follicular Fluid and Analysis of Their Origin From Different Ovarian Cells

Oocyte Selection for <em>in vitro</em> embryo Production in Bovine Species: Non-Invasive Approaches for the New Challenges of Oocyte Competence

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