Comparative Studies of the Venom of a New Taipan Species, Oxyuranus temporalis, with Other Members of Its Genus

Barber, Carmel M.; Madaras, Frank; Turnbull, Richard K; Morley, Terry; Dunstan, Nathan; Allen, Luke; Kuchel, Tim; Mirtschin, Peter; Hodgson, Wayne Clarence

doi:10.3390/toxins6071979

Cited by 15 publications

(24 citation statements)

References 33 publications

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“…2). This finding confirms that the very rapid neurotoxic activity of O. temporalis venom in chick biventer cervicis physiological assay, reported by Barber et al [39], is due to an extremely high concentration of postsynaptic α-neurotoxins (iBAQ abundance = 97.9%). A recent study sequenced the α-Elapitoxin-Ot1a short-chain αneurotoxin from this species and found it to be a potent and abundant venom constituent [40].…”

Section: Venom Of Mammal-eating Western Desert Taipan Consists Predomsupporting

confidence: 90%

“…chains belonging to taipoxin and paradoxin clades ( There is an indication that α-neurotoxin abundance may vary geographically. For example, a more reduced effect of Saibai Island Oxyuranus scutellatus venom on chick biventer cervicis contractile response to acetylcholine suggests that this population would have even lower expression of α-neurotoxins than the specimens from the mainland [39]. O. scutellatus and O. microlepidotus venoms also contained prothrombinase toxins, but less than in some Pseudonaja venoms (Table 1).…”

Section: Other Mammal-eating Taipans Possess Venoms Rich In Pla2 Neurmentioning

confidence: 99%

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Venoms of related mammal-eating species of taipans (Oxyuranus) and brown snakes (Pseudonaja) differ in composition of toxins involved in mammal poisoning

Skejic

Dunstan³

et al. 2018

Preprint

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BackgroundTaipans of the genus Oxyuranus are predominately mammal-eating specialists and a majority of Australian brown snakes of the sister genus Pseudonaja are generalist predators, feeding on mammals, lizards and frogs. In this paper, venom composition of several related mammaleating species was compared using shotgun proteomics. ResultsVenom of Oxyuranus temporalis consisted predominately of α-neurotoxins (three-finger toxin family) and was deficient in phospholipase A2 neurotoxins. In contrast, PLA2 neurotoxins (taipoxin and paradoxin) were abundant in the venoms of other mammal-eating taipan species -Oxyuranus scutellatus and O. microlepidotus. Variation in neurotoxic PLA2 expression was also recorded in mammal-eating brown snakes, some species having high venom levels of textilotoxin or related homologues, for example Pseudonaja textilis and P. nuchalis, and others, such as P. ingrami, lacking them. Venom prothrombinase proteins (fX and fV) were expressed in most mammalivorous lineages, being particularly abundant in some Pseudonaja species. Notably, Oxyuranus temporalis venom was deficient in venom prothrombinase despite a mammal-based diet. Expression of an α-neurotoxin that is lethal to rodents (pseudonajatoxin b) was profoundly down-regulated in Pseudonaja textilis venom sample from Queensland and highly up-regulated in the sample from South Australia despite a report that the snake feeds on rodents in both regions. ConclusionRelated species of taipans and brown snakes that feed on small mammals express different sets of venom proteins toxic to this vertebrate group. This suggests an involvement of factors other than prey type selection in shaping venom proteome composition.

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Section: Venom Of Mammal-eating Western Desert Taipan Consists Predomsupporting

confidence: 90%

Section: Other Mammal-eating Taipans Possess Venoms Rich In Pla2 Neurmentioning

confidence: 99%

Venoms of related mammal-eating species of taipans (Oxyuranus) and brown snakes (Pseudonaja) differ in composition of toxins involved in mammal poisoning

Skejic

Dunstan³

et al. 2018

Preprint

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“…The toxic components often include neurotoxins which assist in the immobilization and capture of prey but also may cause clinical neurotoxicity following systemic envenoming in humans. We have recently studied O. temporalis venom and shown that the reverse-phase HPLC venom profile consists of only a few peaks with the major peak eluting around 15 min [ 4 ]. Previous studies conducted in our laboratory have shown that, under the same reverse-phase HPLC conditions, short-chain postsynaptic neurotoxins elute from the reverse phase column between 15–17 min [ 16 , 17 , 21 , 22 ].…”

Section: Discussionmentioning

confidence: 99%

“…O. temporalis venom was obtained as previously described [ 4 ] from two live specimens of O. temporalis held at the Adelaide Zoo (Adelaide, South Australia, Australia). After extraction, the venom was frozen with dry ice, transferred into a −20 °C freezer and then lyophilized.…”

Section: Methodsmentioning

confidence: 99%

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Isolation and Pharmacological Characterization of α-Elapitoxin-Ot1a, a Short-Chain Postsynaptic Neurotoxin from the Venom of the Western Desert Taipan, Oxyuranus temporalis

Barber

Rusmili

Hodgson

2016

Toxins

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Taipans (Oxyuranus spp.) are elapids with highly potent venoms containing presynaptic (β) and postsynaptic (α) neurotoxins. O. temporalis (Western Desert taipan), a newly discovered member of this genus, has been shown to possess venom which displays marked in vitro neurotoxicity. No components have been isolated from this venom. We describe the characterization of α-elapitoxin-Ot1a (α-EPTX-Ot1a; 6712 Da), a short-chain postsynaptic neurotoxin, which accounts for approximately 30% of O. temporalis venom. α-Elapitoxin-Ot1a (0.1–1 µM) produced concentration-dependent inhibition of indirect-twitches, and abolished contractile responses to exogenous acetylcholine and carbachol, in the chick biventer cervicis nerve-muscle preparation. The inhibition of indirect twitches by α-elapitoxin-Ot1a (1 µM) was not reversed by washing the tissue. Prior addition of taipan antivenom (10 U/mL) delayed the neurotoxic effects of α-elapitoxin-Ot1a (1 µM) and markedly attenuated the neurotoxic effects of α-elapitoxin-Ot1a (0.1 µM). α-Elapitoxin-Ot1a displayed pseudo-irreversible antagonism of concentration-response curves to carbachol with a pA2 value of 8.02 ± 0.05. De novo sequencing revealed the main sequence of the short-chain postsynaptic neurotoxin (i.e., α-elapitoxin-Ot1a) as well as three other isoforms found in O. temporalis venom. α-Elapitoxin-Ot1a shows high sequence similarity (i.e., >87%) with other taipan short-chain postsynaptic neurotoxins.

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Australian Snakebite and Treatment

Tibballs

2017

Toxinology

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Comparative Studies of the Venom of a New Taipan Species, Oxyuranus temporalis, with Other Members of Its Genus

Cited by 15 publications

References 33 publications

Venoms of related mammal-eating species of taipans (Oxyuranus) and brown snakes (Pseudonaja) differ in composition of toxins involved in mammal poisoning

Venoms of related mammal-eating species of taipans (Oxyuranus) and brown snakes (Pseudonaja) differ in composition of toxins involved in mammal poisoning

Isolation and Pharmacological Characterization of α-Elapitoxin-Ot1a, a Short-Chain Postsynaptic Neurotoxin from the Venom of the Western Desert Taipan, Oxyuranus temporalis

Australian Snakebite and Treatment

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