Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.

Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.

Trypanosoma cruzi, the etiological agent of Chagas' disease, presents three cellular forms (trypomastigotes, epimastigotes and amastigotes), all of which are submitted to oxidative species in its hosts. However, T. cruzi is able to resist oxidative stress suggesting a high efficiency of its DNA...

Full description

Bibliographic Details
Main Authors: Fernando Ormeño, Camila Barrientos, Santiago Ramirez, Iván Ponce, Lucía Valenzuela, Sofía Sepúlveda, Mainá Bitar, Ulrike Kemmerling, Carlos Renato Machado, Gonzalo Cabrera, Norbel Galanti
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4902261?pdf=render
id doaj-d227420c2d6c4ebab182a1ef8ab323d1
record_format Article
spelling doaj-d227420c2d6c4ebab182a1ef8ab323d12020-11-25T02:51:32ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01116e015727010.1371/journal.pone.0157270Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.Fernando OrmeñoCamila BarrientosSantiago RamirezIván PonceLucía ValenzuelaSofía SepúlvedaMainá BitarUlrike KemmerlingCarlos Renato MachadoGonzalo CabreraNorbel GalantiTrypanosoma cruzi, the etiological agent of Chagas' disease, presents three cellular forms (trypomastigotes, epimastigotes and amastigotes), all of which are submitted to oxidative species in its hosts. However, T. cruzi is able to resist oxidative stress suggesting a high efficiency of its DNA repair machinery.The Base Excision Repair (BER) pathway is one of the main DNA repair mechanisms in other eukaryotes and in T. cruzi as well. DNA glycosylases are enzymes involved in the recognition of oxidative DNA damage and in the removal of oxidized bases, constituting the first step of the BER pathway. Here, we describe the presence and activity of TcNTH1, a nuclear T. cruzi DNA glycosylase. Surprisingly, purified recombinant TcNTH1 does not remove the thymine glycol base, but catalyzes the cleavage of a probe showing an AP site. The same activity was found in epimastigote and trypomastigote homogenates suggesting that the BER pathway is not involved in thymine glycol DNA repair. TcNTH1 DNA-binding properties assayed in silico are in agreement with the absence of a thymine glycol removing function of that parasite enzyme. Over expression of TcNTH1 decrease parasite viability when transfected epimastigotes are submitted to a sustained production of H2O2.Therefore, TcNTH1 is the only known NTH1 orthologous unable to eliminate thymine glycol derivatives but that recognizes and cuts an AP site, most probably by a beta-elimination mechanism. We cannot discard that TcNTH1 presents DNA glycosylase activity on other DNA base lesions. Accordingly, a different DNA repair mechanism should be expected leading to eliminate thymine glycol from oxidized parasite DNA. Furthermore, TcNTH1 may play a role in the AP site recognition and processing.http://europepmc.org/articles/PMC4902261?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Fernando Ormeño
Camila Barrientos
Santiago Ramirez
Iván Ponce
Lucía Valenzuela
Sofía Sepúlveda
Mainá Bitar
Ulrike Kemmerling
Carlos Renato Machado
Gonzalo Cabrera
Norbel Galanti
spellingShingle Fernando Ormeño
Camila Barrientos
Santiago Ramirez
Iván Ponce
Lucía Valenzuela
Sofía Sepúlveda
Mainá Bitar
Ulrike Kemmerling
Carlos Renato Machado
Gonzalo Cabrera
Norbel Galanti
Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
PLoS ONE
author_facet Fernando Ormeño
Camila Barrientos
Santiago Ramirez
Iván Ponce
Lucía Valenzuela
Sofía Sepúlveda
Mainá Bitar
Ulrike Kemmerling
Carlos Renato Machado
Gonzalo Cabrera
Norbel Galanti
author_sort Fernando Ormeño
title Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
title_short Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
title_full Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
title_fullStr Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
title_full_unstemmed Expression and the Peculiar Enzymatic Behavior of the Trypanosoma cruzi NTH1 DNA Glycosylase.
title_sort expression and the peculiar enzymatic behavior of the trypanosoma cruzi nth1 dna glycosylase.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description Trypanosoma cruzi, the etiological agent of Chagas' disease, presents three cellular forms (trypomastigotes, epimastigotes and amastigotes), all of which are submitted to oxidative species in its hosts. However, T. cruzi is able to resist oxidative stress suggesting a high efficiency of its DNA repair machinery.The Base Excision Repair (BER) pathway is one of the main DNA repair mechanisms in other eukaryotes and in T. cruzi as well. DNA glycosylases are enzymes involved in the recognition of oxidative DNA damage and in the removal of oxidized bases, constituting the first step of the BER pathway. Here, we describe the presence and activity of TcNTH1, a nuclear T. cruzi DNA glycosylase. Surprisingly, purified recombinant TcNTH1 does not remove the thymine glycol base, but catalyzes the cleavage of a probe showing an AP site. The same activity was found in epimastigote and trypomastigote homogenates suggesting that the BER pathway is not involved in thymine glycol DNA repair. TcNTH1 DNA-binding properties assayed in silico are in agreement with the absence of a thymine glycol removing function of that parasite enzyme. Over expression of TcNTH1 decrease parasite viability when transfected epimastigotes are submitted to a sustained production of H2O2.Therefore, TcNTH1 is the only known NTH1 orthologous unable to eliminate thymine glycol derivatives but that recognizes and cuts an AP site, most probably by a beta-elimination mechanism. We cannot discard that TcNTH1 presents DNA glycosylase activity on other DNA base lesions. Accordingly, a different DNA repair mechanism should be expected leading to eliminate thymine glycol from oxidized parasite DNA. Furthermore, TcNTH1 may play a role in the AP site recognition and processing.
url http://europepmc.org/articles/PMC4902261?pdf=render
work_keys_str_mv AT fernandoormeno expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT camilabarrientos expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT santiagoramirez expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT ivanponce expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT luciavalenzuela expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT sofiasepulveda expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT mainabitar expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT ulrikekemmerling expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT carlosrenatomachado expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT gonzalocabrera expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
AT norbelgalanti expressionandthepeculiarenzymaticbehaviorofthetrypanosomacruzinth1dnaglycosylase
_version_ 1724734009526714368

Similar Items