Structural basis of TMPRSS2 zymogen activation and recognition by the HKU1 seasonal coronavirus

The human seasonal coronavirus HKU1-CoV, which causes common colds worldwide, relies on the sequential binding to a cell-surface glycan and to TMPRSS2 for entry into target cells. TMPRSS2 is a cell surface protease synthesized as a zymogen that undergoes autolytic activation to process its substrates. Several respiratory viruses - in particular coronaviruses - use TMPRSS2 for proteolytic priming of their surface spike protein to drive membrane fusion upon receptor binding. We describe the crystal structure of the HKU1-CoV receptor binding domain in complex with TMPRSS2, showing that it recognizes residues lining the catalytic groove. Combined mutagenesis of interface residues and comparison across species highlight positions 417 and 469 as determinants of HKU1-CoV host tropism. The structure of a receptor-blocking nanobody in complex with zymogen or activated TMPRSS2 further provides the structural basis of the TMPRSS2 activating conformational change, altering loops recognized by HKU1-CoV and dramatically increasing its binding affinity. ### Competing Interest Statement I.F., N.S., E.B.S., P.L. J.B., O.S. and F.A.R. have a provisional patent on anti-TMPRSS2 nanobodies. F.A.R. is a founder of Meletios Therapeutics and a member of its scientific advisory board. The other authors declare no competing interests.