Chicken seminal fluid lacks CD9‐ and CD44‐bearing extracellular vesicles

Álvarez‐Rodríguez, Manuel; Ntzouni, Maria; Wright, Dominic; Khan, M.K.I.; López‐Béjar, Manel; Martínez, Cristina A.; Rodríguez‐Martínez, H.

doi:10.1111/rda.13617

Cited by 9 publications

(9 citation statements)

References 30 publications

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“…Our own studies using pig as model animal have shown that specific fractions of the ejaculate or even their sperm-free SP elicit dramatic modifications to the expression of genes related to sperm survival and function as well as to the immune status of the female’s various compartments of the internal genital tract—pre-ovulation [ 29 , 172 ] but even during early embryo development [ 173 ]. We have seen a similar set of results in chicken in response to mating, despite the uncertainty of the presence of similar types/amounts of EVs in roosters [ 170 ], implying the response might well be a conserved mechanism in animals with internal fertilization [ 3 ]. Since there is a mix of EVs shed by the prostate or the seminal vesicles (or even perhaps the bulbourethral glands) [ 76 , 169 , 174 , 175 ], pig SP EVs show heterogeneity in surface markers [ 39 , 40 , 140 ], probably because they also have a unique high level of cholesterol and sphingomyelin [ 143 ] and of lipoproteins (LDL/HDL) [ 40 ], which, by stabilizing the plasma membrane, could later aid in regulating sperm membrane fluidity before and during sperm capacitation [ 56 ].…”

Section: The Particulate Seminal Plasma: the Most Relevant Component Of Seminal Plasma?mentioning

confidence: 72%

“…Obviously, epididymosomes can modify both ejaculated spermatozoa [ 40 , 75 ] and/or the influence the female genital tract [ 27 , 40 , 75 , 102 ]. In chickens, where a rudimentary epididymis is prevalent, we have not been successful in detecting relevant amounts of epididymosomes in seminal fluid, at least not using the same tetraspanin/CD44 markers we used in pigs [ 170 ]. In turn, a very recent study, using ultracentrifugation, the WB of the protein markers and EM has shown the presence of small EVs (possibly exosomes), in the seminal fluid of roosters with different fertility with capacity to putatively incorporate into spermatozoa [ 171 ].…”

Section: The Particulate Seminal Plasma: the Most Relevant Component Of Seminal Plasma?mentioning

confidence: 99%

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Seminal Plasma: Relevant for Fertility?

Rodriguez‐Martinez

Martı́nez

Calvete

et al. 2021

IJMS

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Seminal plasma (SP), the non-cellular component of semen, is a heterogeneous composite fluid built by secretions of the testis, the epididymis and the accessory sexual glands. Its composition, despite species-specific anatomical peculiarities, consistently contains inorganic ions, specific hormones, proteins and peptides, including cytokines and enzymes, cholesterol, DNA and RNA—the latter often protected within epididymis- or prostate-derived extracellular vesicles. It is beyond question that the SP participates in diverse aspects of sperm function pre-fertilization events. The SP also interacts with the various compartments of the tubular genital tract, triggering changes in gene function that prepares for an eventual successful pregnancy; thus, it ultimately modulates fertility. Despite these concepts, it is imperative to remember that SP-free spermatozoa (epididymal or washed ejaculated) are still fertile, so this review shall focus on the differences between the in vivo roles of the SP following semen deposition in the female and those regarding additions of SP on spermatozoa handled for artificial reproduction, including cryopreservation, from artificial insemination to in vitro fertilization. This review attempts, including our own results on model animal species, to critically summarize the current knowledge of the reproductive roles played by SP components, particularly in our own species, which is increasingly affected by infertility. The ultimate goal is to reconcile the delicate balance between the SP molecular concentration and their concerted effects after temporal exposure in vivo. We aim to appraise the functions of the SP components, their relevance as diagnostic biomarkers and their value as eventual additives to refine reproductive strategies, including biotechnologies, in livestock models and humans.

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Section: The Particulate Seminal Plasma: the Most Relevant Component Of Seminal Plasma?mentioning

confidence: 72%

Section: The Particulate Seminal Plasma: the Most Relevant Component Of Seminal Plasma?mentioning

confidence: 99%

Seminal Plasma: Relevant for Fertility?

Rodriguez‐Martinez

Martı́nez

Calvete

et al. 2021

IJMS

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“…SPEVs play a key role in sperm function and in establishing fertility, and in avians, there are few studies describing SPEVs. The earliest researchers believed that chicken seminal fluid lacks CD9 and CD44 bearing extracellular vesicles (Alvarez‐Rodriguez et al., 2020). The current accumulated studies indicate the presence of EVs with a classic bilayer membrane structure; particle size distributed 30–250nm and multiple marker proteins were identified (Chen et al., 2020); and the results were consistent with this study.…”

Section: Discussionmentioning

confidence: 99%

Characterization and proteomics of chicken seminal plasma extracellular vesicles

Luo

Guo

Huang

et al. 2021

Reprod Domestic Animals

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In mammals, seminal plasma extracellular vesicles (SPEVs) can regulate sperm motility and capacitation. The characteristics and functions of SPEVs in avians have been rarely reported. In this study, chicken SPEVs were isolated and characterized by transmission and scanning electron microscopy (TEM/SEM) and nanoparticle tracking analysis (NTA); furthermore, seven extracellular vesicle (EVs) marker proteins were detected by Western blot (WB). TEM revealed that chicken SPEVs had a classic bilayer membrane structure. NTA confirmed that the size of SPEVs was 30-250 nm, and concentration ranged from 8.0 E + 11-8.5 E + 11 particles/ml. There were 3073 SPEVs proteins identified by deep sequencing, including 2794 intracellular proteins and 279 extracellular proteins. The overlap rate of proteomes between chicken SPEVs and vesicles reported in the Vesiclepedia database reached 86%, and 360 new proteins that had not been reported by the ExoCarta and Vesiclepedia databases were identified in chicken SPEV proteomes. Gene Ontology (GO) analysis revealed that chicken SPEV proteins were mainly enriched in supplying energy and transporting protein.There were 4 IFT family proteins speculated to play an important role in sperm composition and function. Our data were compared with two previously published studies on the proteomics of chicken seminal plasma (SP) and hen uterine fluid, and some overlapping proteins described in chicken SPEVs had been identified in hen uterine fluid (545) and chicken SP (284). In conclusion, these findings will increase our understanding of the content and composition of proteome in SPEVs and provide new insights into the important role of the SPEV regulation in sperm functions.

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“…Interestingly, Alvarez-Rodriguez et al [ 254 ] were not able to detect CD9 (or CD44) in chicken seminal plasma, and they observed no or rare extracellular vesicles, suggesting that interaction of avian seminal fluid with the female genital tract occurs in a manner distinct from that in mammals.…”

Section: Tetraspanins In Evs Of the Female And Male Reproductive Smentioning

confidence: 99%

Tetraspanins, More than Markers of Extracellular Vesicles in Reproduction

Jankovičová

Sečová

Michalková

et al. 2020

IJMS

128

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The participation of extracellular vesicles in many cellular processes, including reproduction, is unquestionable. Although currently, the tetraspanin proteins found in extracellular vesicles are mostly applied as markers, increasing evidence points to their role in extracellular vesicle biogenesis, cargo selection, cell targeting, and cell uptake under both physiological and pathological conditions. In this review, we bring other insight into the involvement of tetraspanin proteins in extracellular vesicle physiology in mammalian reproduction. We provide knowledge regarding the involvement of extracellular vesicle tetraspanins in these processes in somatic cells. Furthermore, we discuss the future direction towards an understanding of their functions in the tissues and fluids of the mammalian reproductive system in gamete maturation, fertilization, and embryo development; their involvement in mutual cell contact and communication in their complexity.

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Chicken seminal fluid lacks CD9‐ and CD44‐bearing extracellular vesicles

Cited by 9 publications

References 30 publications

Seminal Plasma: Relevant for Fertility?

Seminal Plasma: Relevant for Fertility?

Characterization and proteomics of chicken seminal plasma extracellular vesicles

Tetraspanins, More than Markers of Extracellular Vesicles in Reproduction

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