Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica

Russell M. Morphew; Neil Eccleston; Toby J. Wilkinson; John McGarry; Samirah Perally; Mark Prescott; Deborah Ward; Diana Williams; Steve Paterson; M. Raman; G. Ravikumar; M. Khalid Saifullah; S. M. Abbas Abidi; Paul McVeigh; Aaron G. Maule; Peter M. Brophy; James LaCourse

doi:10.1021/pr300654w

Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica

Russell M. Morphew
, Neil Eccleston
, Toby J. Wilkinson
, John McGarry
, Samirah Perally
, Mark Prescott
, Deborah Ward
, Diana Williams
, Steve Paterson
, M. Raman
, G. Ravikumar
, M. Khalid Saifullah
, S. M. Abbas Abidi
, Paul McVeigh
, Aaron G. Maule
, Peter M. Brophy
, James LaCourse

Aberystwyth University
University of Liverpool
Tamil Nadu Veterinary and Animal Sciences University
Aligarh Muslim University
Queen's University Belfast

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

33 Citations (Scopus)

Abstract

Fasciolosis is an important foodborne, zoonotic disease of livestock and humans, with global annual health and economic losses estimated at several billion US$. Fasciola hepatica is the major species in temperate regions, while F. gigantica dominates in the tropics. In the absence of commercially available vaccines to control fasciolosis, increasing reports of resistance to current chemotherapeutic strategies and the spread of fasciolosis into new areas, new functional genomics approaches are being used to identify potential new drug targets and vaccine candidates. The glutathione transferase (GST) superfamily is both a candidate drug and vaccine target. This study reports the identification of a putatively novel Sigma class GST, present in a water-soluble cytosol extract from the tropical liver fluke F. gigantica. The GST was cloned and expressed as an enzymically active recombinant protein. This GST shares a greater identity with the human schistosomiasis GST vaccine currently at Phase II clinical trials than previously discovered F. gigantica GSTs, stimulating interest in its immuno-protective properties. In addition, in silico analysis of the GST superfamily of both F. gigantica and F. hepatica has revealed an additional Mu class GST, Omega class GSTs, and for the first time, a Zeta class member.

Original language	English
Pages (from-to)	5876-5889
Number of pages	14
Journal	Journal of Proteome Research
Volume	11
Issue number	12
DOIs	https://doi.org/10.1021/pr300654w
Publication status	Published - 7 Dec 2012

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

Fasciola gigantica
glutathione transferase
Mu
Omega
Sigma
Zeta

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10.1021/pr300654w

Cite this

Morphew, R. M., Eccleston, N., Wilkinson, T. J., McGarry, J., Perally, S., Prescott, M., Ward, D., Williams, D., Paterson, S., Raman, M., Ravikumar, G., Khalid Saifullah, M., Abbas Abidi, S. M., McVeigh, P., Maule, A. G., Brophy, P. M., & LaCourse, J. (2012). Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica. Journal of Proteome Research, 11(12), 5876-5889. https://doi.org/10.1021/pr300654w

@article{095f618581994082b2b5debc903a8e40,

title = "Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica",

abstract = "Fasciolosis is an important foodborne, zoonotic disease of livestock and humans, with global annual health and economic losses estimated at several billion US\$. Fasciola hepatica is the major species in temperate regions, while F. gigantica dominates in the tropics. In the absence of commercially available vaccines to control fasciolosis, increasing reports of resistance to current chemotherapeutic strategies and the spread of fasciolosis into new areas, new functional genomics approaches are being used to identify potential new drug targets and vaccine candidates. The glutathione transferase (GST) superfamily is both a candidate drug and vaccine target. This study reports the identification of a putatively novel Sigma class GST, present in a water-soluble cytosol extract from the tropical liver fluke F. gigantica. The GST was cloned and expressed as an enzymically active recombinant protein. This GST shares a greater identity with the human schistosomiasis GST vaccine currently at Phase II clinical trials than previously discovered F. gigantica GSTs, stimulating interest in its immuno-protective properties. In addition, in silico analysis of the GST superfamily of both F. gigantica and F. hepatica has revealed an additional Mu class GST, Omega class GSTs, and for the first time, a Zeta class member.",

keywords = "Fasciola gigantica, glutathione transferase, Mu, Omega, Sigma, Zeta",

author = "Morphew, \{Russell M.\} and Neil Eccleston and Wilkinson, \{Toby J.\} and John McGarry and Samirah Perally and Mark Prescott and Deborah Ward and Diana Williams and Steve Paterson and M. Raman and G. Ravikumar and \{Khalid Saifullah\}, M. and \{Abbas Abidi\}, \{S. M.\} and Paul McVeigh and Maule, \{Aaron G.\} and Brophy, \{Peter M.\} and James LaCourse",

year = "2012",

month = dec,

day = "7",

doi = "10.1021/pr300654w",

language = "English",

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Morphew, RM, Eccleston, N, Wilkinson, TJ, McGarry, J, Perally, S, Prescott, M, Ward, D, Williams, D, Paterson, S, Raman, M, Ravikumar, G, Khalid Saifullah, M, Abbas Abidi, SM, McVeigh, P, Maule, AG, Brophy, PM & LaCourse, J 2012, 'Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica', Journal of Proteome Research, vol. 11, no. 12, pp. 5876-5889. https://doi.org/10.1021/pr300654w

TY - JOUR

T1 - Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica

AU - Morphew, Russell M.

AU - Eccleston, Neil

AU - Wilkinson, Toby J.

AU - McGarry, John

AU - Perally, Samirah

AU - Prescott, Mark

AU - Ward, Deborah

AU - Williams, Diana

AU - Paterson, Steve

AU - Raman, M.

AU - Ravikumar, G.

AU - Khalid Saifullah, M.

AU - Abbas Abidi, S. M.

AU - McVeigh, Paul

AU - Maule, Aaron G.

AU - Brophy, Peter M.

AU - LaCourse, James

PY - 2012/12/7

Y1 - 2012/12/7

N2 - Fasciolosis is an important foodborne, zoonotic disease of livestock and humans, with global annual health and economic losses estimated at several billion US$. Fasciola hepatica is the major species in temperate regions, while F. gigantica dominates in the tropics. In the absence of commercially available vaccines to control fasciolosis, increasing reports of resistance to current chemotherapeutic strategies and the spread of fasciolosis into new areas, new functional genomics approaches are being used to identify potential new drug targets and vaccine candidates. The glutathione transferase (GST) superfamily is both a candidate drug and vaccine target. This study reports the identification of a putatively novel Sigma class GST, present in a water-soluble cytosol extract from the tropical liver fluke F. gigantica. The GST was cloned and expressed as an enzymically active recombinant protein. This GST shares a greater identity with the human schistosomiasis GST vaccine currently at Phase II clinical trials than previously discovered F. gigantica GSTs, stimulating interest in its immuno-protective properties. In addition, in silico analysis of the GST superfamily of both F. gigantica and F. hepatica has revealed an additional Mu class GST, Omega class GSTs, and for the first time, a Zeta class member.

AB - Fasciolosis is an important foodborne, zoonotic disease of livestock and humans, with global annual health and economic losses estimated at several billion US$. Fasciola hepatica is the major species in temperate regions, while F. gigantica dominates in the tropics. In the absence of commercially available vaccines to control fasciolosis, increasing reports of resistance to current chemotherapeutic strategies and the spread of fasciolosis into new areas, new functional genomics approaches are being used to identify potential new drug targets and vaccine candidates. The glutathione transferase (GST) superfamily is both a candidate drug and vaccine target. This study reports the identification of a putatively novel Sigma class GST, present in a water-soluble cytosol extract from the tropical liver fluke F. gigantica. The GST was cloned and expressed as an enzymically active recombinant protein. This GST shares a greater identity with the human schistosomiasis GST vaccine currently at Phase II clinical trials than previously discovered F. gigantica GSTs, stimulating interest in its immuno-protective properties. In addition, in silico analysis of the GST superfamily of both F. gigantica and F. hepatica has revealed an additional Mu class GST, Omega class GSTs, and for the first time, a Zeta class member.

KW - Fasciola gigantica

KW - glutathione transferase

KW - Mu

KW - Omega

KW - Sigma

KW - Zeta

U2 - 10.1021/pr300654w

DO - 10.1021/pr300654w

M3 - Article

SN - 1535-3893

VL - 11

SP - 5876

EP - 5889

JO - Journal of Proteome Research

JF - Journal of Proteome Research

IS - 12

ER -

Proteomics and in silico approaches to extend understanding of the glutathione transferase superfamily of the tropical liver fluke Fasciola gigantica

Abstract

UN SDGs

Keywords

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