Viable and morphologically normal boar spermatozoa alter the expression of heat‐shock protein genes in oviductal epithelial cells during co‐culture in vitro

Yeste, Marc; Holt, William V.; Bonet, Sergi; Rodríguez-Gil, Joan E.; Lloyd, Rhiannon

doi:10.1002/mrd.22350

Cited by 30 publications

(19 citation statements)

References 52 publications

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“…A later study in mice found that insemination induced de novo gene transcription in the female reproductive tract, stimulated specifically by spermatozoa and not by seminal plasma [61]. These results were later confirmed by both in vitro and in vivo experiments involving insemination responses in pigs and cattle [62][63][64][65][66]. Interestingly, similar responses to the arrival of spermatozoa have also been noted in avian sperm storage glands [67][68][69].…”

Section: Oviductal Responses To Sperm Entrymentioning

confidence: 72%

“…It appears that the process is initiated rapidly, with changes being detectable within 1 hour [66]. Moreover, the importance of direct contact between oviductal epithelial and spermatozoa in initiating gene expression responses was demonstrated by in vitro studies, where porcine oviductal epithelial cells failed to initiate the production of heat shock proteins when direct contact was prevented [65].…”

Section: Oviductal Responses To Sperm Entrymentioning

confidence: 99%

See 1 more Smart Citation

Sperm selection in the female mammalian reproductive tract. Focus on the oviduct: Hypotheses, mechanisms, and new opportunities

Holt¹,

Fazeli²

2016

Theriogenology

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Section: Oviductal Responses To Sperm Entrymentioning

confidence: 72%

Section: Oviductal Responses To Sperm Entrymentioning

confidence: 99%

Sperm selection in the female mammalian reproductive tract. Focus on the oviduct: Hypotheses, mechanisms, and new opportunities

Holt¹,

Fazeli²

2016

Theriogenology

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“…It has neither been lost nor duplicated in the sampled species, contrary to HSPA8, which was duplicated in orangutan, rat, sheep, and pig. Heat shock proteins A5 and A8 play a role in the modulation of boar sperm function in the oviductal reservoir (Yeste et al 2014). …”

Section: Discussionmentioning

confidence: 99%

Genes Encoding Mammalian Oviductal Proteins Involved in Fertilization are Subjected to Gene Death and Positive Selection

Moros-Nicolás¹,

Fouchécourt²,

Goudet³

et al. 2018

J Mol Evol

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Oviductal proteins play an important role in mammalian fertilization, as proteins from seminal fluid. However, in contrast with the latter, their phylogenetic evolution has been poorly studied. Our objective was to study in 16 mammals the evolution of 16 genes that encode oviductal proteins involved in at least one of the following steps: (1) sperm–oviduct interaction, (2) acrosome reaction, and/or (3) sperm–zona pellucida interaction. Most genes were present in all studied mammals. However, some genes were lost along the evolution of mammals and found as pseudogenes: annexin A5 (ANXA5) and deleted in malignant brain tumor 1 (DMBT1) in tarsier; oviductin (OVGP1) in megabat; and probably progestagen-associated endometrial protein (PAEP) in tarsier, mouse, rat, rabbit, dolphin, and megabat; prostaglandin D2 synthase (PTGDS) in microbat; and plasminogen (PLG) in megabat. Four genes [ANXA1, ANXA4, ANXA5, and heat shock 70 kDa protein 5 (HSPA5)] showed branch-site positive selection, whereas for seven genes [ANXA2, lactotransferrin (LTF), OVGP1, PLG, S100 calcium-binding protein A11 (S100A11), Sperm adhesion molecule 1 (SPAM1), and osteopontin (SPP1)] branch-site model and model-site positive selection were observed. These results strongly suggest that genes encoding oviductal proteins that are known to be important for gamete fertilization are subjected to positive selection during evolution, as numerous genes encoding proteins from mammalian seminal fluid. This suggests that such a rapid evolution may have as a consequence that two isolated populations become separate species more rapidly.

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“…Yeste et al and Moein-Vaziri et al showed that when epithelial cells in the oviduct are co-cultured with viable spermatozoa, the gene expression profile of these epithelial cells is altered. These changes coincide with the restoration of sperm membrane integrity and fluidity that are essential for sperm capacitation [47, 48]. Based on morphology, the oviduct can be subdivided into four segments, the uterotubulo junction, isthmus, ampulla, and infundibulum (from the uterus toward the ovary); each segment contains similar sorts of cells, but in different proportions.…”

Section: Modifications Of the Sperm Membrane Surface By The Female Rementioning

confidence: 99%

Roles of the reproductive tract in modifications of the sperm membrane surface

Kuo

Maeda

et al. 2016

Journal of Reproduction and Development

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Successful fertilization requires viable and functional spermatozoa to recognize and fuse with the oocyte. In most mammalian species, mature spermatozoa are not capable of fertilizing the oocytes immediately after ejaculation. However, unlike somatic cells, spermatozoa, after leaving the testis, are transcriptionally and translationally silent; therefore, upon completion of spermiogenesis, spermatozoa carry only a minimal amount of essential proteins on their membranes as well as within their restricted volume of cytoplasm. To develop into a fully functional and competent sperm that is capable of successful fertilization, modifications of the sperm membrane surface during its transit in the reproductive tracts is critical. These post-spermatogenesis modifications advance the maturation of epididymal spermatozoa. In addition, components secreted into the lumen of the reproductive tracts that are later added onto the sperm membrane surface also regulate (inhibit or activate) the functions of the spermatozoa. This acquisition of additional proteins from the reproductive tracts may compensate for the inactivity of morphologically mature spermatozoa. In this review, we discuss the contributions of the male and female genital tracts to modifications of the sperm membrane surface at different stages of fertilization.

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Viable and morphologically normal boar spermatozoa alter the expression of heat‐shock protein genes in oviductal epithelial cells during co‐culture in vitro

Cited by 30 publications

References 52 publications

Sperm selection in the female mammalian reproductive tract. Focus on the oviduct: Hypotheses, mechanisms, and new opportunities

Sperm selection in the female mammalian reproductive tract. Focus on the oviduct: Hypotheses, mechanisms, and new opportunities

Genes Encoding Mammalian Oviductal Proteins Involved in Fertilization are Subjected to Gene Death and Positive Selection

Roles of the reproductive tract in modifications of the sperm membrane surface

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