Oviductal Cell Proteome Alterations during the Reproductive Cycle in Pigs

Seytanoglu, Adil; Georgiou, A. S.; Šoštarić, Edita; Watson, P. F.; Holt, William V.; Fazeli, Alireza

doi:10.1021/pr8000095

Cited by 55 publications

(34 citation statements)

References 46 publications

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“…The comparison of previously published transcriptomes (14,20,21,33,34) and tissue proteomes (23,25) in other models with the sheep luminal proteomes from this study provided some information about the possible secretory origin of many proteins, suggesting that the regulation of the protein abundance along the cycle may be associated to a significant extent with endocrine control of the expression of several genes.…”

Section: Discussionmentioning

confidence: 82%

“…We searched for these genes in seven studies of the transcriptome or proteome of the female tract during the cycle in other species. These include the transcriptome of the bovine cervix (14), the transcriptomes of the horse (21) and bovine (20) endometrium, the proteome of human endometrium (23,25), the transcriptome of bovine oviduct epithelial cells (34), and the proteome of porcine oviduct epithelial cells (33). A total of 59 proteins were found to be regulated similarly, i.e.…”

Section: Comparison Of Fluid Proteomes Along the Cycle In The Femalementioning

confidence: 99%

“…The quantification of expression of oviduct proteins in the presence of spermatozoa has revealed the dialog between the gametes and the oviduct (31,32). The regulation of expression of genes in the oviduct along the oestrous cycle was shown using oviduct cells from females in oestrus or luteal phase in porcine (33) and bovine species (34). Again, an extensive description of the proteome of the oviduct fluid along the oestrous cycle is lacking.…”

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confidence: 99%

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Proteomes of the Female Genital Tract During the Oestrous Cycle

Soleilhavoup

Riou

Tsikis

et al. 2016

Molecular & Cellular Proteomics

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The success of fertilisation in mammals is linked to the correct migration of spermatozoa in the different compartments of the female genital tract and the adequate timing of their interaction with the female gamete. In many mammalian species including human, the deposition of semen in the vagina is followed by the sperm migration through the cervix, the uterus and then the oviduct before reaching the site of fertilisation. This sperm transit within the female tract includes mechanical and biochemical interactions with the luminal fluids leading to selection of spermatozoa able to fertilize the oocyte.The first physiological barrier the spermatozoa will have to go through is the cervix whose vaginal side is covered by a highly viscous mucus, the cervical vaginal fluid (CVF) 1 . The CVF proteome was analyzed in humans in various physiological conditions (1, 2), mainly during pregnancy (3-7) or in several pathologies such as human papilloma virus (8) or candida albicans (9) infections. But few studies have investigated the CVF proteome during the cycle (10, 11). The amount of CVF increases at the time of ovulation concomitantly with a higher state of hydration and a reduced viscosity, to facilitate sperm migration (12). The mechanical properties of the mucus are essential to select spermatozoa with the highest fertilizing ability, i.e. with normal morphology and efficient mobility. The main structural components of the cervical mucus are mucins, highly glycosylated, high-molecular-weight proteins assembled into a filamentous and viscous mesh (13). The transcription of the mucin genes is increased at oestrus in the bovine cervical epithelium (14). The amount of mucins and their level of glycosylation are expected to contribute to the viscosity of the mucus (11). Therefore, the quantification of proteins such From the ‡INRA, UMR 85 Physiologie de la Reproduction et des Comportements,

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Section: Discussionmentioning

confidence: 82%

Section: Comparison Of Fluid Proteomes Along the Cycle In The Femalementioning

confidence: 99%

mentioning

confidence: 99%

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Proteomes of the Female Genital Tract During the Oestrous Cycle

Soleilhavoup

Riou

Tsikis

et al. 2016

Molecular & Cellular Proteomics

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“…Proteomic analysis of OF have reported significant differences in the protein content between the different phases of the oestrous cycle (Seytanoglu et al 2008). In that study, seven proteins were highly abundant during the follicular phase (endoplasmin precursor, tumour rejection antigen gp96, ezrin, heat-shock 70 kDa protein 5, calreticulin precursor, actin, cytoplasmic 1, creatine kinase B-type), while six proteins were highly abundant during the luteal phase (gelsolin precursor, serum albumin precursor, myo-inositol 1-phosphate synthase A1, adenosylhomocysteinase, keratin, type II cytoskeletal 8, keratin, type I cytoskeletal 19) (Seytanoglu et al 2008). Moreover, the presence of gametes in the oviduct also alters the pattern of protein secretion of the epithelial cells (Georgiou et al 2007).…”

Section: Oviductal Fluidmentioning

confidence: 99%

Oviductal response to gametes and early embryos in mammals

Maillo¹,

Sánchez‐Calabuig²,

Lopera-Vásquez³

et al. 2016

Reproduction

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The oviduct is a complex and organized thin tubular structure connecting the ovary with the uterus. It is the site of final sperm capacitation, oocyte fertilization and, in most species, the first 3-4 days of early embryo development. The oviductal epithelium is made up of ciliary and secretory cells responsible for the secretion of proteins and other factors which contribute to the formation of the oviductal fluid. Despite significant research, most of the pathways and oviductal factors implicated in the crosstalk between gametes/early embryo and the oviduct remain unknown. Therefore, studying the oviductal environment is crucial to improve our understanding of the regulatory mechanisms controlling fertilization and embryo development. In vitro systems are a valuable tool to study in vivo pathways and mechanisms, particularly those in the oviducts which in livestock species are challenging to access. In studies of gamete and embryo interaction with the reproductive tract, oviductal epithelial cells, oviductal fluid and microvesicles co-cultured with gametes/embryos represent the most appropriate in vitro models to mimic the physiological conditions in vivo.Reproduction (2016) 152 R127-R141

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“…Notorious differences in the proteomic profiles of the oviduct between follicular and luteal phases of the reproductive cycle in pig were Oviductal secretion R3 reported (Seytanoglu et al 2008). In addition, the presence of gametes appears to alter the pattern of protein synthesis and secretion of the oviductal cells.…”

Section: Involvement Of Oviductal Proteins In Sperm Functionmentioning

confidence: 99%

Oviductal secretion and gamete interaction

Ghersevich¹,

Massa²,

Zumoffen³

2015

Reproduction

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Experimental evidence from the last 30 years supports the fact that the oviduct is involved in the modulation of the reproductive process in eutherian mammals. Oviductal secretion contains molecules that contribute to regulation of gamete function, gamete interaction, and the early stages of embryo development. The oviductal environment would act as a sperm reservoir, maintaining sperm viability, and modulating the subpopulation of spermatozoa that initiates the capacitation process. It could also contribute to prevent the premature acrosome reaction and to reduce polyspermy. Many studies have reported the beneficial effects of the oviductal environment on fertilization and on the first stages of embryo development. Some oviductal factors have been identified in different mammalian species. The effects of oviductal secretion on the reproductive process could be thought to result from the dynamic combined action (inhibitory or stimulatory) of multiple factors present in the oviductal lumen at different stages of the ovulatory cycle and in the presence of gametes or embryos. It could be hypothesized that the absence of a given molecule would not affect fertility as its action could be compensated by another factor with similar functions. However, any alteration in this balance could affect certain events of the reproductive process and could perhaps impair fertility. Thus, the complexity of the reproductive process warrants a continuous research effort to unveil the mechanisms and factors behind its regulation in the oviductal microenvironment.

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Oviductal Cell Proteome Alterations during the Reproductive Cycle in Pigs

Cited by 55 publications

References 46 publications

Proteomes of the Female Genital Tract During the Oestrous Cycle

Proteomes of the Female Genital Tract During the Oestrous Cycle

Oviductal response to gametes and early embryos in mammals

Oviductal secretion and gamete interaction

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