Strategies to make protein serine/threonine (PP1, calcineurin) and tyrosine phosphatases (PTP1B) druggable: achieving specificity by targeting substrate and regulatory protein interaction sites.

The established dogma is that protein serine/threonine (PSPs) and tyrosine (PTPs) phosphatases are unattainable drug targets. This is because natural product inhibitors of PSP active sites are lethal, while the active sites of PTPs are exceptionally conserved and charged, making it nearly impossible to develop PTP inhibitors that are selective. However, due to a series of recent structural and functional studies, this view of phosphatases is about to undergo a radical change. Rather than target active sites, these studies have demonstrated that targeting PSP/PTP protein (substrate/regulatory) interaction sites, which are distal from the active sites, are highly viable and suitable drugs targets. This is especially true for calcineurin (CN), in which the blockbuster immunosuppressant drugs FK506 and cyclosporin A were recently demonstrated to bind and block one of the key CN substrate interaction sites, the LxVP site. Additional studies show that this approach-targeting substrate and/or regulatory protein interaction sites-also holds incredible promise for protein phosphatase 1 (PP1)-related diseases. Finally, domains outside PTP catalytic domains have also recently been demonstrated to directly alter PTP activity. Collectively, these novel insights offer new, transformative perspectives for the therapeutic targeting of PSPs by interfering with the binding of PIPs or substrates and PTPs by targeting allosteric sites outside their catalytic domains.