Domoic acid (DA, 1), a potent neurotoxin that causes amnesic shellfish poisoning, has been found in diatoms and red algae. While biosynthetic pathway towards DA from geranyl diphosphate and l-glutamate has been previously proposed, its late stage is still unclear. Here, six novel DA related compounds, 7′-methyl-isodomoic acid A (2) and B (3), N-geranyl-l-glutamic acid (4), 7′-hydroxymethyl-isodomoic acid A (5) and B (6), and N-geranyl-3(R)-hydroxy-l-glutamic acid (7), were isolated from the red alga, Chondria armata, and their structures were determined. The compounds 4 and 7, linear compounds, are predictable as the precursors to form the DA pyrrolidine ring. The compounds 2 and 3 are thought as the cyclized products of 7; therefore, dehydration and electron transfer from the internal olefin of 7 is a possible mechanism for the pyrrolidine ring formation. One terminal methyl group of the side chain of 2 and 3 is predicted to be oxidized to hydroxymethyl (5, 6), and then to carboxylic acids, forming isodomoic acids A and B. Finally, the terminal olefin of isodomoic acid A would be isomerized to form DA. In addition, [15N, D]-labeled 4 was incorporated into DA using the diatom, Pseudo-nitzschia multiseries, demonstrating that 4 is the genuine precursor of DA.
Significance
Originally isolated from the red alga
Chondria armata
, domoic acid (DA) is best known as a potent marine neurotoxin produced by oceanic harmful algal blooms of planktonic diatoms. Sequencing efforts to date of kainoid-producing red algae have focused exclusively on a closely related molecule, kainic acid, leaving a gap in the understanding of DA biosynthesis in red algae and its evolutionary linkage to diatoms. Here, we present the phylogenetic and biochemical investigation of DA biosynthesis in
C. armata
. This work demonstrates the high synteny of DA biosynthetic genes between relatively distant taxonomic groups of algae and suggests a complex evolutionary history for DA biosynthesis involving gene transfer and neofunctionalization.
Four kainic acid (KA, 1)-related compounds, 4-hydroxykainic
acid (2), allo-4-hydroxykainic acid
(3), N-dimethylallyl-l-glutamic
acid (4), and N-dimethylallyl-threo-3-hydroxyglutamic acid (5), were isolated
from the red alga Digenea simplex. The structures
of these compounds were elucidated using spectroscopic methods. Compounds 2 and 3 are possible oxidative metabolites of
KA and allo-KA (6), respectively. Compound 4 was recently reported as the biosynthetic precursor of KA,
but the absolute configuration of 4 has not been previously
determined. Herein, we determined the absolute configuration of 4 as 2(S) using advanced Marfey’s
method. Compound 5 is similar to N-geranyl-3(R)-hydroxy-l-glutamic acid (8), which
was previously identified in a domoic acid (DA)-containing red alga.
Compounds 5 and 8 are predicted to be biosynthetic
byproducts of the radical-mediated cyclization reaction to form the
pyrrolidine rings of KA and DA, respectively. Furthermore, the toxicities
of 1–5 in mice were examined by intracerebroventricular
injection. The toxicity of 2 was less than that of KA;
however, the mice injected with 2 showed symptoms similar
to those induced by KA, while 3–5 did not induce typical symptoms of KA in mice.
Domoic acid (1, DA), a member of the natural kainoid family, is a potent agonist of ionotropic glutamate receptors in the central nervous system. The chemical synthesis of DA and...
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