- Source: Aetokthonotoxin
Aetokthonotoxin (AETX), colloquially known as eagle toxin, is a chemical compound that was identified in 2021 as the cyanobacterial neurotoxin causing vacuolar myelinopathy (VM) in eagles in North America. As the biosynthesis of aetokthonotoxin depends on the availability of bromide ions in freshwater systems and requires an interplay between the toxin-producing cyanobacterium Aetokthonos hydrillicola and the host plant it requires to live (Hydrilla verticillata), it took more than 25 years to identify aetokthonotoxin as the VM-inducing toxin after the disease has first been diagnosed in bald eagles in 1994. The toxin cascades through the food-chain: Among other animals, it builds up in fish and waterfowl such as coots or ducks which feed on hydrilla colonized with the cyanobacterium. Aetokthonotoxin is transmitted to raptors, such as the bald eagle, as they prey on AETX poisoned animals. The total synthesis of AETX was achieved in 2021, the enzymatic functions of the 5 enzymes involved in AETX biosynthesis were described in 2022.
Biosynthesis
The biosynthesis of AETX and the functions of the enzymes AetA, AetB, AetD, AetE, and AetF were described in 2022. AetF, a FAD-dependent halogenase, brominates L-tryptophan at the 5 position. The 5-bromo-L-tryptophan can then undergo two separate reactions. One route involves a second bromination by AetF at position 7 to yield 5,7-dibromo-L-tryptophan. This molecule then goes on to react with AetD, an iron-dependent nitrile synthase, to form an indole-3-carbonitrile derivative. The second route taken by the 5-bromo-L-tryptophan starting material involves the tryptophanase AetE, which cleaves 5-bromo-L-tryptophan into 5-bromoindole, pyruvic acid and ammonia. 5-bromoindole can then go on to react with a different FAD-dependent halogenase called AetA to form 2,3,5-tribromoindole. the 2,3,5-tribromoindole and the dibrominated-indole-3-carbonitrile then undergo biaryl coupling facilitated by the cytochrome P450 enzyme AetB to form AETX.
See also
Cyanotoxin
Harmful algal bloom
Persistent organic pollutant