In project PAELLA we used pharmacological inhibitors to study the downstream signalling in PEAR1 and investigate activation by a proposed new endogenous ligand. For this purpose, we used human blood platelets.
We successfully identified that heparin and heparin proteoglycan-mimetics are ligands for PEAR1, and that PEAR1 signals via an Src family kinase - Phosphoinositide 3-kinase β pathway. In addition, we showed that PEAR1 is not activated upon platelet-platelet contact as previously proposed. We also showed that loss of effective secondary mediator-signalling had no major effect on PEAR1 activation, but it reduced aggregation. Finally, we showed that PEAR1 activation by heparin and heparin proteoglycan-mimetics can be inhibited using a novel inhibiting anti-PEAR1 nanobody which was tested for the first time in this project.
These results were disseminated in two main publications:
Kardeby C, Damaskinaki FN, Sun Y, Watson SP. Is the endogenous ligand for PEAR1 a proteoglycan: clues from the sea. Platelets. 2021 Aug 18;32(6):779-785. doi: 10.1080/09537104.2020.1863938. Epub 2020 Dec 26. PMID: 33356751.
Kardeby C, Evans A, Campos J, Moosa Al-Wahaibi, Smith CW, Slater A, Martin EM, Severin S, Brill A, Pejler G, Sun Y, Watson SP. Heparin and heparin proteoglycan-mimetic activate platelets via PEAR1 and PI3Kβ. Journal of Thrombosis and Haemostasis. 2022, accepted for publication.
The physiological role of PEAR1 was evaluated using murine in vivo models. We found that the complete absence of PEAR1 does not affect thrombus formation on thrombus size. However, we discovered that PEAR1 alters immune cell recruitment. This shows that PEAR1 is likely to play a part in inflammatory processes. Further evaluation would be required to establish if these results are translatable to humans and potentially could explain the PEAR1-Cardiovascular disease connection.
Results from this project was presented at the International Society on Thrombosis and Haemostasis Congress 2022.