Two Novel Mosquitocidal Peptides Isolated from the Venom of the Bahia Scarlet Tarantula (Lasiodora klugi)

Jamila Ahmed; Andrew A. Walker; Hugo D. Perdomo; Shaodong Guo; Samantha A. Nixon; Irina Vetter; Hilary I. Okoh; Dalhatu M. Shehu; Mohammed N. Shuaibu; Iliya S. Ndams; Glenn F. King; Volker Herzig

doi:10.3390/toxins15070418

Two Novel Mosquitocidal Peptides Isolated from the Venom of the Bahia Scarlet Tarantula (Lasiodora klugi)

Jamila Ahmed
, Andrew A. Walker
, Hugo D. Perdomo
, Shaodong Guo
, Samantha A. Nixon
, Irina Vetter
, Hilary I. Okoh
, Dalhatu M. Shehu
, Mohammed N. Shuaibu
, Iliya S. Ndams
, Glenn F. King
, Volker Herzig

Ahmadu Bello University
University of Queensland
Federal University Oye-Ekiti
University of the Sunshine Coast

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Effective control of diseases transmitted by Aedes aegypti is primarily achieved through vector control by chemical insecticides. However, the emergence of insecticide resistance in A. aegypti undermines current control efforts. Arachnid venoms are rich in toxins with activity against dipteran insects and we therefore employed a panel of 41 spider and 9 scorpion venoms to screen for mosquitocidal toxins. Using an assay-guided fractionation approach, we isolated two peptides from the venom of the tarantula Lasiodora klugi with activity against adult A. aegypti. The isolated peptides were named U-TRTX-Lk1a and U-TRTX-Lk2a and comprised 41 and 49 residues with monoisotopic masses of 4687.02 Da and 5718.88 Da, respectively. U-TRTX-Lk1a exhibited an LD₅₀ of 38.3 pmol/g when injected into A. aegypti and its modeled structure conformed to the inhibitor cystine knot motif. U-TRTX-Lk2a has an LD₅₀ of 45.4 pmol/g against adult A. aegypti and its predicted structure conforms to the disulfide-directed β-hairpin motif. These spider-venom peptides represent potential leads for the development of novel control agents for A. aegypti.

Original language	English
Article number	418
Journal	Toxins
Volume	15
Issue number	7
DOIs	https://doi.org/10.3390/toxins15070418
Publication status	Published - 27 Jun 2023
Externally published	Yes

Keywords

Aedes aegypti
disulfide-directed β-hairpin
inhibitor cystine knot
insecticidal toxin
Lasiodora klugi

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10.3390/toxins15070418

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title = "Two Novel Mosquitocidal Peptides Isolated from the Venom of the Bahia Scarlet Tarantula (Lasiodora klugi)",

abstract = "Effective control of diseases transmitted by Aedes aegypti is primarily achieved through vector control by chemical insecticides. However, the emergence of insecticide resistance in A. aegypti undermines current control efforts. Arachnid venoms are rich in toxins with activity against dipteran insects and we therefore employed a panel of 41 spider and 9 scorpion venoms to screen for mosquitocidal toxins. Using an assay-guided fractionation approach, we isolated two peptides from the venom of the tarantula Lasiodora klugi with activity against adult A. aegypti. The isolated peptides were named U-TRTX-Lk1a and U-TRTX-Lk2a and comprised 41 and 49 residues with monoisotopic masses of 4687.02 Da and 5718.88 Da, respectively. U-TRTX-Lk1a exhibited an LD50 of 38.3 pmol/g when injected into A. aegypti and its modeled structure conformed to the inhibitor cystine knot motif. U-TRTX-Lk2a has an LD50 of 45.4 pmol/g against adult A. aegypti and its predicted structure conforms to the disulfide-directed β-hairpin motif. These spider-venom peptides represent potential leads for the development of novel control agents for A. aegypti.",

keywords = "Aedes aegypti, disulfide-directed β-hairpin, inhibitor cystine knot, insecticidal toxin, Lasiodora klugi",

author = "Jamila Ahmed and Walker, \{Andrew A.\} and Perdomo, \{Hugo D.\} and Shaodong Guo and Nixon, \{Samantha A.\} and Irina Vetter and Okoh, \{Hilary I.\} and Shehu, \{Dalhatu M.\} and Shuaibu, \{Mohammed N.\} and Ndams, \{Iliya S.\} and King, \{Glenn F.\} and Volker Herzig",

year = "2023",

month = jun,

day = "27",

doi = "10.3390/toxins15070418",

language = "English",

volume = "15",

journal = "Toxins",

issn = "2072-6651",

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TY - JOUR

T1 - Two Novel Mosquitocidal Peptides Isolated from the Venom of the Bahia Scarlet Tarantula (Lasiodora klugi)

AU - Ahmed, Jamila

AU - Walker, Andrew A.

AU - Perdomo, Hugo D.

AU - Guo, Shaodong

AU - Nixon, Samantha A.

AU - Vetter, Irina

AU - Okoh, Hilary I.

AU - Shehu, Dalhatu M.

AU - Shuaibu, Mohammed N.

AU - Ndams, Iliya S.

AU - King, Glenn F.

AU - Herzig, Volker

PY - 2023/6/27

Y1 - 2023/6/27

N2 - Effective control of diseases transmitted by Aedes aegypti is primarily achieved through vector control by chemical insecticides. However, the emergence of insecticide resistance in A. aegypti undermines current control efforts. Arachnid venoms are rich in toxins with activity against dipteran insects and we therefore employed a panel of 41 spider and 9 scorpion venoms to screen for mosquitocidal toxins. Using an assay-guided fractionation approach, we isolated two peptides from the venom of the tarantula Lasiodora klugi with activity against adult A. aegypti. The isolated peptides were named U-TRTX-Lk1a and U-TRTX-Lk2a and comprised 41 and 49 residues with monoisotopic masses of 4687.02 Da and 5718.88 Da, respectively. U-TRTX-Lk1a exhibited an LD50 of 38.3 pmol/g when injected into A. aegypti and its modeled structure conformed to the inhibitor cystine knot motif. U-TRTX-Lk2a has an LD50 of 45.4 pmol/g against adult A. aegypti and its predicted structure conforms to the disulfide-directed β-hairpin motif. These spider-venom peptides represent potential leads for the development of novel control agents for A. aegypti.

AB - Effective control of diseases transmitted by Aedes aegypti is primarily achieved through vector control by chemical insecticides. However, the emergence of insecticide resistance in A. aegypti undermines current control efforts. Arachnid venoms are rich in toxins with activity against dipteran insects and we therefore employed a panel of 41 spider and 9 scorpion venoms to screen for mosquitocidal toxins. Using an assay-guided fractionation approach, we isolated two peptides from the venom of the tarantula Lasiodora klugi with activity against adult A. aegypti. The isolated peptides were named U-TRTX-Lk1a and U-TRTX-Lk2a and comprised 41 and 49 residues with monoisotopic masses of 4687.02 Da and 5718.88 Da, respectively. U-TRTX-Lk1a exhibited an LD50 of 38.3 pmol/g when injected into A. aegypti and its modeled structure conformed to the inhibitor cystine knot motif. U-TRTX-Lk2a has an LD50 of 45.4 pmol/g against adult A. aegypti and its predicted structure conforms to the disulfide-directed β-hairpin motif. These spider-venom peptides represent potential leads for the development of novel control agents for A. aegypti.

KW - Aedes aegypti

KW - disulfide-directed β-hairpin

KW - inhibitor cystine knot

KW - insecticidal toxin

KW - Lasiodora klugi

U2 - 10.3390/toxins15070418

DO - 10.3390/toxins15070418

M3 - Article

C2 - 37505687

AN - SCOPUS:85165935057

SN - 2072-6651

VL - 15

JO - Toxins

JF - Toxins

IS - 7

M1 - 418

ER -

Two Novel Mosquitocidal Peptides Isolated from the Venom of the Bahia Scarlet Tarantula (Lasiodora klugi)

Abstract

Keywords

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