Structural basis for carotenoid cleavage by an archaeal carotenoid dioxygenase.Daruwalla, A., Zhang, J., Lee, H.J., Khadka, N., Farquhar, E.R., Shi, W., von Lintig, J., Kiser, P.D.
(2020) Proc Natl Acad Sci U S A 117: 19914-19925
- PubMed: 32747548
- DOI: 10.1073/pnas.2004116117
- Primary Citation of Related Structures:
6VCF, 6VCH, 6VCG
- PubMed Abstract:
Apocarotenoids are important signaling molecules generated from carotenoids through the action of carotenoid cleavage dioxygenases (CCDs). These enzymes have a remarkable ability to cleave carotenoids at specific alkene bonds while leaving chemically ...
Apocarotenoids are important signaling molecules generated from carotenoids through the action of carotenoid cleavage dioxygenases (CCDs). These enzymes have a remarkable ability to cleave carotenoids at specific alkene bonds while leaving chemically similar sites within the polyene intact. Although several bacterial and eukaryotic CCDs have been characterized, the long-standing goal of experimentally visualizing a CCD-carotenoid complex at high resolution to explain this exquisite regioselectivity remains unfulfilled. CCD genes are also present in some archaeal genomes, but the encoded enzymes remain uninvestigated. Here, we address this knowledge gap through analysis of a metazoan-like archaeal CCD from Candidatus Nitrosotalea devanaterra ( Nd CCD). Nd CCD was active toward β-apocarotenoids but did not cleave bicyclic carotenoids. It exhibited an unusual regiospecificity, cleaving apocarotenoids solely at the C14'-C13' alkene bond to produce β-apo-14'-carotenals. The structure of Nd CCD revealed a tapered active site cavity markedly different from the broad active site observed for the retinal-forming Synechocystis apocarotenoid oxygenase ( Syn ACO) but similar to the vertebrate retinoid isomerase RPE65. The structure of Nd CCD in complex with its apocarotenoid product demonstrated that the site of cleavage is defined by interactions along the substrate binding cleft as well as selective stabilization of reaction intermediates at the scissile alkene. These data on the molecular basis of CCD catalysis shed light on the origins of the varied catalytic activities found in metazoan CCDs, opening the possibility of modifying their activity through rational chemical or genetic approaches.
Research Service, Veterans Affairs Long Beach Healthcare System, Long Beach, CA 90822.