Seeing double: two different homospermidine oxidases are involved in pyrrolizidine alkaloid biosynthesis in different organs of comfrey (Symphytum officinale).

Pyrrolizidine alkaloids (PAs) are toxic specialized metabolites produced in several plant species and frequently contaminate herbal teas or livestock feed. In comfrey (Symphytum officinale, Boraginaceae), they are produced in two different organs of the plant, the root and young leaves. In this study, we demonstrate that homospermidine oxidase (HSO), a copper-containing amine oxidase (CuAO) responsible for catalyzing the formation of the distinctive pyrrolizidine ring in PAs, is encoded by two individual genes. Specifically, SoCuAO1 is expressed in young leaves, while SoCuAO5 is expressed in roots. CRISPR/Cas9-mediated knockout of socuao5 resulted in hairy roots (HRs) unable to produce PAs, supporting its function as HSO in roots. Plants regenerated from socuao5 knockout HRs remained completely PA-free until the plants began to develop inflorescences, indicating the presence of another HSO that is expressed only during flower development. Stable expression of SoCuAO1 in socuao5 knockout HRs rescued the ability to produce PAs. In vitro assays of both enzymes transiently expressed in Nicotiana benthamiana confirmed their HSO activity and revealed the ability of HSO to control the stereospecific cyclization of the pyrrolizidine backbone. The observation that the first specific step of PA biosynthesis catalyzed by homospermidine synthase requires only one gene copy, while two independent paralogs are recruited for the subsequent homospermidine oxidation in different tissues of the plant, suggests a complex regulation of the pathway. This adds a new level of complexity to PA biosynthesis, a system already characterized by species-specific, tight spatio-temporal regulation, and independent evolutionary origins in multiple plant lineages.

Reduction of Pyrrolizidine Alkaloid Levels in Comfrey (Symphytum officinale) Hairy Roots by RNAi Silencing of Homospermidine Synthase.

Comfrey is a medicinal plant, extracts of which are traditionally used for the treatment of painful inflammatory muscle and joint problems, because the plant contains allantoin and rosmarinic acid. However, its medicinal use is limited because of its toxic pyrrolizidine alkaloid (PA) content. PAs encompass more than 400 different compounds that have been identified from various plant lineages. To date, only the first pathway-specific enzyme, homospermidine synthase (HSS), has been characterized. HSS catalyzes the formation of homospermidine, which is exclusively incorporated into PAs. HSS has been recruited several times independently in various plant lineages during evolution by duplication of the gene encoding deoxyhypusine synthase (DHS), an enzyme of primary metabolism. Here, we describe the establishment of RNAi knockdown hairy root mutants of HSS in Symphytum officinale. A knockdown of HSS by 60 - 80% resulted in a significant reduction of homospermidine by ~ 86% and of the major PA components 7-acetylintermedine N-oxide and 3-acetylmyoscorpine N-oxide by approximately 60%. The correlation of reduced transcript levels of HSS with reduced levels of homospermidine and PAs provides in planta support for HSS being the central enzyme in PA biosynthesis. Furthermore, the generation of PA-depleted hairy roots might be a cost-efficient way for reducing toxic by-products that limit the medicinal applicability of S. officinale extracts.