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. 2021 Sep 21;22(1):677.
doi: 10.1186/s12864-021-07988-2.

The molecular interplay of the establishment of an infection - gene expression of Diaphorina citri gut and Candidatus Liberibacter asiaticus

Flavia Moura Manoel Bento  1 Josiane Cecília Darolt  2   3 Bruna Laís Merlin  1 Leandro Penã  2   4 Nelson Arno Wulff  2   3 Fernando Luis Cônsoli  5
Affiliations

The molecular interplay of the establishment of an infection - gene expression of Diaphorina citri gut and Candidatus Liberibacter asiaticus

Flavia Moura Manoel Bento et al. BMC Genomics. .

Abstract

Background: Candidatus Liberibacter asiaticus (CLas) is one the causative agents of greening disease in citrus, an unccurable, devastating disease of citrus worldwide. CLas is vectored by Diaphorina citri, and the understanding of the molecular interplay between vector and pathogen will provide additional basis for the development and implementation of successful management strategies. We focused in the molecular interplay occurring in the gut of the vector, a major barrier for CLas invasion and colonization.

Results: We investigated the differential expression of vector and CLas genes by analyzing a de novo reference metatranscriptome of the gut of adult psyllids fed of CLas-infected and healthy citrus plants for 1-2, 3-4 and 5-6 days. CLas regulates the immune response of the vector affecting the production of reactive species of oxygen and nitrogen, and the production of antimicrobial peptides. Moreover, CLas overexpressed peroxiredoxin, probably in a protective manner. The major transcript involved in immune expression was related to melanization, a CLIP-domain serine protease we believe participates in the wounding of epithelial cells damaged during infection, which is supported by the down-regulation of pangolin. We also detected that CLas modulates the gut peristalsis of psyllids through the down-regulation of titin, reducing the elimination of CLas with faeces. The up-regulation of the neuromodulator arylalkylamine N-acetyltransferase implies CLas also interferes with the double brain-gut communication circuitry of the vector. CLas colonizes the gut by expressing two Type IVb pilin flp genes and several chaperones that can also function as adhesins. We hypothesized biofilm formation occurs by the expression of the cold shock protein of CLas.

Conclusions: The thorough detailed analysis of the transcritome of Ca. L. asiaticus and of D. citri at different time points of their interaction in the gut tissues of the host led to the identification of several host genes targeted for regulation by L. asiaticus, but also bacterial genes coding for potential effector proteins. The identified targets and effector proteins are potential targets for the development of new management strategies directed to interfere with the successful utilization of the psyllid vector by this pathogen.

Keywords: Effector proteins; Host immunity; Host regulation; Host – pathogen interactions; Infection strategies; Microbial ecology.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

Fig. 1
Fig. 1
Venn diagram of Candidatus Liberibacter asiaticus transcripts differentially expressed in gut of adults at different periods of feeding on CLas-infected citrus plant. A1CLas+: adults that fed on CLas-infected citrus plant for 1-2 days; A2CLas+: adults that fed on CLas-infected citrus plant for 3-4 days; and A3CLas+: adults that fed on CLas-infected citrus plant for 5-6 days.
Fig. 2
Fig. 2
Venn diagram of Diaphorina citri transcripts differentially expressed in gut of adults at different periods of feeding on CLas-infected citrus plant compared to insects that fed on healthy citrus plant. A1 - CLas+ x CLas-: adults that fed on CLas-infected versus uninfected citrus plant for 1-2 days; A2 - CLas+x CLas-: adults that fed on CLas-infected versus uninfected for 3-4 days; and A3 - CLas+x CLas-: adults that fed on CLas-infected versus uninfected for 5-6 days.
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