AUTHOR=Scietti Luigi , Moroni Elisabetta , Mattoteia Daiana , Fumagalli Marco , De Marco Matteo , Negro Lisa , Chiapparino Antonella , Serapian Stefano A. , De Giorgi Francesca , Faravelli Silvia , Colombo Giorgio , Forneris Federico 

TITLE=A Fe2+-dependent self-inhibited state influences the druggability of human collagen lysyl hydroxylase (LH/PLOD) enzymes

JOURNAL=Frontiers in Molecular Biosciences

VOLUME=9

YEAR=2022

URL=https://www.frontiersin.org/journals/molecular-biosciences/articles/10.3389/fmolb.2022.876352

DOI=10.3389/fmolb.2022.876352

ISSN=2296-889X

ABSTRACT=<p>Multifunctional human collagen lysyl hydroxylase (LH/PLOD) enzymes catalyze post-translational hydroxylation and subsequent glycosylation of collagens, enabling their maturation and supramolecular organization in the extracellular matrix (ECM). Recently, the overexpression of LH/PLODs in the tumor microenvironment results in abnormal accumulation of these collagen post-translational modifications, which has been correlated with increased metastatic progression of a wide variety of solid tumors. These observations make LH/PLODs excellent candidates for prospective treatment of aggressive cancers. The recent years have witnessed significant research efforts to facilitate drug discovery on LH/PLODs, including molecular structure characterizations and development of reliable high-throughput enzymatic assays. Using a combination of biochemistry and <italic>in silico</italic> studies, we characterized the dual role of Fe<sup>2+</sup> as simultaneous cofactor and inhibitor of lysyl hydroxylase activity and studied the effect of a promiscuous Fe<sup>2+</sup> chelating agent, 2,2’-bipyridil, broadly considered a lysyl hydroxylase inhibitor. We found that at low concentrations, 2,2’-bipyridil unexpectedly enhances the LH enzymatic activity by reducing the inhibitory effect of excess Fe<sup>2+</sup>. Together, our results show a fine balance between Fe<sup>2+</sup>-dependent enzymatic activity and Fe<sup>2+</sup>-induced self-inhibited states, highlighting exquisite differences between LH/PLODs and related Fe<sup>2+</sup>, 2-oxoglutarate dioxygenases and suggesting that conventional structure-based approaches may not be suited for successful inhibitor development. These insights address outstanding questions regarding druggability of LH/PLOD lysyl hydroxylase catalytic site and provide a solid ground for upcoming drug discovery and screening campaigns.</p>