Modulation of Anopheles gambiae Epsilon glutathione transferase activity by plant natural products in vitro

Victor Muleya; Rose Hayeshi; Hilary Ranson; Berhanu Abegaz; Merha Tibeb Bezabih; Metuno Robert; Boneventure T. Ngadjui; Francois Ngandeu; Stanley Mukanganyama

doi:10.1080/14756360701546595

Modulation of Anopheles gambiae Epsilon glutathione transferase activity by plant natural products in vitro

Victor Muleya
, Rose Hayeshi
, Hilary Ranson
, Berhanu Abegaz
, Merha Tibeb Bezabih
, Metuno Robert
, Boneventure T. Ngadjui
, Francois Ngandeu
, Stanley Mukanganyama

Vector Biology

University of Zimbabwe
University of Botswana
Université de Yaoundé I
Université de Dschang

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

15 Citations (Scopus)

Abstract

Elevated glutathione transferase (GST) E2 activity is associated with DDT resistance in the mosquito Anopheles gambiae. The search for chemomodulators that inhibit the function of AgGSTE2 would enhance the insecticidal activity of DDT. Therefore, we examined the interaction of novel natural plant products with heterologously expressed An. gambiae GSTE2 in vitro. Five of the ten compounds, epiphyllocoumarin(Tral-1), knipholone anthrone, isofuranonaphthoquinones (Mr 13/2, Mr 13/4) and the polyprenylated benzophenone (GG1) were shown to be potent inhibitors of AgGSTE2 with IC50 values of 1.5 mu M, 3.5 mu M, 4 mu M, 4.3 mu M and 4.8 mu M respectively. Non-competitive inhibition was obtained for Tral 1 and GG1 with regards to GSH (K-i of 0.24 mu M and 0.14 mu M respectively). Competitive inhibition for Tral1 was obtained with CDNB (K-i = 0.4 mu M) whilst GG1 produced mixed type of inhibition. The K-i and K-i' for GSH for Tral-1 and GG1 were 0.2 mu M and 0.1 mu M respectively. These results suggest that the novel natural plant products, particularly Tral-1, represent potent AgGSTE2 in vitro inhibitors.

Original language	English
Pages (from-to)	391-399
Number of pages	9
Journal	Journal of Enzyme Inhibition and Medicinal Chemistry
Volume	23
Issue number	3
DOIs	https://doi.org/10.1080/14756360701546595
Publication status	Published - 1 Dec 2008

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Anopheles gambiae
Chemomodulation
DDT- resistance
Glutathione S-transferases
Malaria
Natural plant products

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10.1080/14756360701546595

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title = "Modulation of Anopheles gambiae Epsilon glutathione transferase activity by plant natural products in vitro",

abstract = "Elevated glutathione transferase (GST) E2 activity is associated with DDT resistance in the mosquito Anopheles gambiae. The search for chemomodulators that inhibit the function of AgGSTE2 would enhance the insecticidal activity of DDT. Therefore, we examined the interaction of novel natural plant products with heterologously expressed An. gambiae GSTE2 in vitro. Five of the ten compounds, epiphyllocoumarin(Tral-1), knipholone anthrone, isofuranonaphthoquinones (Mr 13/2, Mr 13/4) and the polyprenylated benzophenone (GG1) were shown to be potent inhibitors of AgGSTE2 with IC50 values of 1.5 mu M, 3.5 mu M, 4 mu M, 4.3 mu M and 4.8 mu M respectively. Non-competitive inhibition was obtained for Tral 1 and GG1 with regards to GSH (K-i of 0.24 mu M and 0.14 mu M respectively). Competitive inhibition for Tral1 was obtained with CDNB (K-i = 0.4 mu M) whilst GG1 produced mixed type of inhibition. The K-i and K-i' for GSH for Tral-1 and GG1 were 0.2 mu M and 0.1 mu M respectively. These results suggest that the novel natural plant products, particularly Tral-1, represent potent AgGSTE2 in vitro inhibitors.",

keywords = "Anopheles gambiae, Chemomodulation, DDT- resistance, Glutathione S-transferases, Malaria, Natural plant products",

author = "Victor Muleya and Rose Hayeshi and Hilary Ranson and Berhanu Abegaz and Bezabih, \{Merha Tibeb\} and Metuno Robert and Ngadjui, \{Boneventure T.\} and Francois Ngandeu and Stanley Mukanganyama",

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T1 - Modulation of Anopheles gambiae Epsilon glutathione transferase activity by plant natural products in vitro

AU - Muleya, Victor

AU - Hayeshi, Rose

AU - Ranson, Hilary

AU - Abegaz, Berhanu

AU - Bezabih, Merha Tibeb

AU - Robert, Metuno

AU - Ngadjui, Boneventure T.

AU - Ngandeu, Francois

AU - Mukanganyama, Stanley

PY - 2008/12/1

Y1 - 2008/12/1

N2 - Elevated glutathione transferase (GST) E2 activity is associated with DDT resistance in the mosquito Anopheles gambiae. The search for chemomodulators that inhibit the function of AgGSTE2 would enhance the insecticidal activity of DDT. Therefore, we examined the interaction of novel natural plant products with heterologously expressed An. gambiae GSTE2 in vitro. Five of the ten compounds, epiphyllocoumarin(Tral-1), knipholone anthrone, isofuranonaphthoquinones (Mr 13/2, Mr 13/4) and the polyprenylated benzophenone (GG1) were shown to be potent inhibitors of AgGSTE2 with IC50 values of 1.5 mu M, 3.5 mu M, 4 mu M, 4.3 mu M and 4.8 mu M respectively. Non-competitive inhibition was obtained for Tral 1 and GG1 with regards to GSH (K-i of 0.24 mu M and 0.14 mu M respectively). Competitive inhibition for Tral1 was obtained with CDNB (K-i = 0.4 mu M) whilst GG1 produced mixed type of inhibition. The K-i and K-i' for GSH for Tral-1 and GG1 were 0.2 mu M and 0.1 mu M respectively. These results suggest that the novel natural plant products, particularly Tral-1, represent potent AgGSTE2 in vitro inhibitors.

AB - Elevated glutathione transferase (GST) E2 activity is associated with DDT resistance in the mosquito Anopheles gambiae. The search for chemomodulators that inhibit the function of AgGSTE2 would enhance the insecticidal activity of DDT. Therefore, we examined the interaction of novel natural plant products with heterologously expressed An. gambiae GSTE2 in vitro. Five of the ten compounds, epiphyllocoumarin(Tral-1), knipholone anthrone, isofuranonaphthoquinones (Mr 13/2, Mr 13/4) and the polyprenylated benzophenone (GG1) were shown to be potent inhibitors of AgGSTE2 with IC50 values of 1.5 mu M, 3.5 mu M, 4 mu M, 4.3 mu M and 4.8 mu M respectively. Non-competitive inhibition was obtained for Tral 1 and GG1 with regards to GSH (K-i of 0.24 mu M and 0.14 mu M respectively). Competitive inhibition for Tral1 was obtained with CDNB (K-i = 0.4 mu M) whilst GG1 produced mixed type of inhibition. The K-i and K-i' for GSH for Tral-1 and GG1 were 0.2 mu M and 0.1 mu M respectively. These results suggest that the novel natural plant products, particularly Tral-1, represent potent AgGSTE2 in vitro inhibitors.

KW - Anopheles gambiae

KW - Chemomodulation

KW - DDT- resistance

KW - Glutathione S-transferases

KW - Malaria

KW - Natural plant products

U2 - 10.1080/14756360701546595

DO - 10.1080/14756360701546595

M3 - Article

SN - 1475-6366

VL - 23

SP - 391

EP - 399

JO - Journal of Enzyme Inhibition and Medicinal Chemistry

JF - Journal of Enzyme Inhibition and Medicinal Chemistry

IS - 3

ER -

Modulation of Anopheles gambiae Epsilon glutathione transferase activity by plant natural products in vitro

Abstract

UN SDGs

Keywords

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