This project has progressed well in several ways :
1. The preliminary data that were presented as part of the original ERCAdG application in 2018 were solidified and this was published as a paper (Rival CM, Xu W, Shankman LS, Morioka S, Arandjelovic S, Lee CS, Wheeler KM, Smith RP, Haney LB, Isakson BE, Purcell S, Lysiak JJ, KS Ravichandran. 2019. Phosphatidylserine on viable sperm and phagocytic machinery in oocytes regulate mammalian fertilization. Nature Communications. 10:4456. doi: 10.1038/s41467-019-12406-z). Importantly, this work has now established that phosphatidylserine exposed on viable and motile sperm is a key component of sperm:egg fusion, and the existence of specific phosphatidylserine receptors on oocytes that mediate the interaction between sperm and egg during mammalian fertilization. Further, as proposed in the original application, we have now identified multiple receptors on oocytes that engage phosphatidylserine on sperm.
2. Using new approaches, we have now identified multiple proteins that are in the neighbourhood of phosphatidylserine. This is a true breakthrough for this whole field, and we are now addressing the function of the specific molecules that appear to be in close proximity to phosphatidylserine on sperm and how these may regulate sperm:egg fusion. Further, as a comparison, we have ‘forced’ other live cells (such as lymphocytes) to expose phosphatidylserine and we now discover both overlapping and unique players, and this is being further pursued through a combination of CRISPR/Cas-mediated genetic approaches, biochemistry, and functional studies in cell lines and mice.
3. We have designed several new technical approaches to detect PS proximal proteins on sperm as well as other cell types that will be broadly inter-disciplinary. Further, we have generated new mice that can conditionally delete both the major enzymes that synthesize PtdSer in cells including sperm. Further, we have designed new mice to specifically address how the PtdSer on sperm induces an anti-inflammatory tone in the female reproductive tract.
4. These have led to multiple high-impact publications in journals such as Nature and we are currently preparing one more manuscript for publication in Nature. Further, multiple personnel associated with this project have progressed positively in their careers (including three who acquired faculty positions as independent investigators).