An historical perspective on lignan biosynthesis: Monolignol, allylphenol and hydroxycinnamic acid coupling and downstream metabolism

This review describes discoveries from this laboratory on monolignol, allylphenol and hydroxycinnamic acid coupling, and downstream metabolic conversions, affording various lignan skeleta. Stereoselective 8-8′ coupling (dirigent protein-mediated) of coniferyl alcohol to afford (+)-pinoresinol is comprehensively discussed, as is our current mechanistic/kinetic understanding of the protein’s radical-radical binding, orientation and coupling properties, and insights gained for other coupling modes, e.g. affording (−)-pinoresinol. In a species dependent manner, (+)- or (−)-pinoresinols can also undergo enantiospecific reductions, catalyzed by various bifunctional pinoresinol-lariciresinol reductases (PLR), to afford lariciresinol and then secoisolariciresinol. With X-ray structures giving a molecular basis for differing PLR enantiospecificities, comparisons are made herein to the X-ray structure of the related enzyme, phenylcoumaran benzylic ether reductase, capable of 8-5′ linked lignan regiospecific reductions. Properties of the enantiospecific secoisolariciresinol dehydrogenase (also discovered in our laboratory and generating 8-8′ linked matairesinol) are summarized, as are both in situ hybridization and immunolocalization of lignan pathway mRNA/proteins in vascular tissues. This entire 8-8′ pathway thus overall affords secoisolariciresinol and matairesinol, viewed as cancer preventative agent precursors, as well as intermediates to cancer treating substances, such as podophyllotoxin derivatives. Another emphasis is placed on allylphenol/hydroxycinnamic acid coupling and associated downstream metabolism, e.g. affording the antiviral creosote bush lignan, nordihydroguaiaretic acid (NDGA), and the fern lignans, blechnic/brainic acids. Regiospecific 8-8′ allylphenol coupling is described, as is characterization of the first enantiospecific membrane-bound polyphenol oxidase, (+)-larreatricin hydroxylase, involved in NDGA formation. Specific [13C]-labeling also indicated that Blechnum lignans arise from stereoselective 8-2′ hydroxycinnamic acid coupling.