PROJECT

Seminal extracellular vesicles (EVs) could play a crucial role in intercellular communication comprising embryo development. Studying EVs represents a challenge in terms of important applications in the biomedical and agricultural sectors. The EU-funded SPARTEVs project will increase existing knowledge of EVs and assess whether they can improve the efficiency of in vitro embryo production (IVP) technology.

 

The project is based on the hypothesis that seminal EVs can play a central role in the successful development of specific reproduction events. The project represents an innovative approach of IVP for both farm animals and humans and promises significant impact on society, addressing the Horizon 2020 challenges of health and food security.

 

This Proposal aims to enhance (1) the current knowledge of seminal extracellular vesicles (EVs) and (2) to evaluate whether they can improve the efficiency of in vitro embryo production (IVP), a technology with a great potential in the biomedical and agricultural field but still inefficient. Inquire the EVs is currently a challenge as they seem to play a vital role in intercellular communication, including embryo development. Knowing that seminal plasma (SP) is beneficial for sperm-oocyte interaction and embryo development and that it contains EVs, our hypothesis is that seminal EVs could play a pivotal role in the successful development of the above cited reproductive events.

 

The experiments will be performed with gametes and porcine SP, as this species is relevant in the agricultural field and is an excellent animal model for exploring human reproductive physiology. The first experiment will focus on developing an efficient procedure to isolate the two EV-subtypes, exosomes and microvesicles, and then analyze their charge in proteins to reveal the specific EV-subtype function. Then, the main objective will be to evaluate the role of each SP-EV-subtype on in vitro oocyte maturation, fertilization, and subsequent embryo development. Further, the transcriptomic changes experienced by embryos will be analyzed. The objectives will be reached through a multidisciplinary approach.

 

The Proposal represents an innovative challenge for IVP, both for livestock animals and humans, since it tackles the problematic of IVP efficiency from a novel angle. The Proposal has a great potential impact on Society, addressing two H2020-challenges “Health, Demographic Change and Wellbeing” and “Food security; sustainable agriculture and forestry, marine and inland water research and the bioeconomy”.