Characterization of Transcription Factors That Regulate the Type IV Secretion System and Riboflavin Biosynthesis in Wolbachia of Brugia malayi

Zhiru Li,Clotilde K S Carlow,Matty Knight

doi:10.1371/journal.pone.0051597

Zhiru Li, Clotilde K S Carlow + Show 1 more

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https://doi.org/10.1371/journal.pone.0051597

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Journal: PloS one	Publication Date: Dec 10, 2012
Citations: 47	License type: CC BY 4.0

Affiliation: New England Biolabs (United States)

Abstract

The human filarial parasite Brugia malayi harbors an endosymbiotic bacterium Wolbachia (wBm) that is required for parasite survival. Consequently, targeting wBm is a promising approach for anti-filarial drug development. The Type IV secretion system (T4SS) plays an important role in bacteria-host interactions and is under stringent regulation by transcription factors. In wBm, most T4SS genes are contained in two operons. We show the wBm is active since the essential assembly factor virB8-1, is transcribed in adult worms and larval stages, and VirB8-1 is present in parasite lysates. We also identify two transcription factors (wBmxR1 and wBmxR2) that bind to the promoter region of several genes of the T4SS. Gel shift assays show binding of wBmxR1 to regions upstream of the virB9-2 and wBmxR2 genes, whereas wBmxR2 binds to virB4-2 and wBmxR1 promoter regions. Interestingly, both transcription factors bind to the promoter of the ribA gene that precedes virB8-1, the first gene in operon 1 of the wBm T4SS. RT-PCR reveals ribA and virB8-1 genes are co-transcribed as one operon, indicating the ribA gene and T4SS operon 1 are co-regulated by both wBmxR1 and wBmxR2. RibA encodes a bi-functional enzyme that catalyzes two essential steps in riboflavin (Vitamin B2) biosynthesis. Importantly, the riboflavin pathway is absent in B. malayi. We demonstrate the pathway is functional in wBm, and observe vitamin B2 supplementation partially rescues filarial parasites treated with doxycycline, indicating Wolbachia may supply the essential vitamin to its worm host. This is the first characterization of a transcription factor(s) from wBm and first report of co-regulation of genes of the T4SS and riboflavin biosynthesis pathway. In addition, our results demonstrate a requirement of vitamin B2 for worm health and fertility, and imply a nutritional role of the symbiont for the filarial parasite host.

Highlights

Lymphatic filariasis and onchocerciasis are neglected tropical diseases caused by filarial nematode parasites
Secretion systems are known to play a number of critical roles in bacteria
The T4SS has been characterized in Rickettsia-like bacteria such as Anaplasma phagocytophila and Ehrlichia chaffeensis [47,48,49]

Summary

Introduction

Lymphatic filariasis and onchocerciasis are neglected tropical diseases caused by filarial nematode parasites. Brugia malayi and Wuchereria bancrofti reside in the lymphatics resulting in lymphedema, hydrocele and elephantiasis. Infection with Onchocerca volvulus leads to dermatitis and blindness. These severely debilitating diseases afflict 150 million people in the tropics and threaten the health of over one billion. The parasites contain an aproteobacterial endosymbiont belonging to the genus Wolbachia, where the bacterium is an obligate mutualist required for development, reproduction and survival of the parasite [1,2,3,4]. There has been considerable interest in filarial Wolbachia since antibiotic-mediated clearance of Wolbachia from the parasite correlates with a block in embryogenesis, worm death and improvement in disease symptoms [3,5,6,7,8]

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