Document Type
Journal Article
Publication Date
9-11-2014
Journal
PLoS Neglected tropical diseases
Volume
8
Issue
9
Inclusive Pages
Article number e3013
DOI
10.1371/journal.pntd.0003013
Keywords
Biomphalaria--genetics; Biomphalaria--parasitology; Cercaria--physiology; Gene Expression Regulation--physiology; Protein Transport--physiology
Abstract
Schistosomiasis is an infectious disease infecting mammals as the definitive host and fresh water snails as the intermediate host. Understanding the molecular and biochemical relationship between the causative schistosome parasite and its hosts will be key to understanding and ultimately treating and/or eradicating the disease. There is increasing evidence that pathogens that have co-evolved with their hosts can manipulate their hosts' behaviour at various levels to augment an infection. Bacteria, for example, can induce beneficial chromatin remodelling of the host genome. We have previously shown in vitro thatBiomphalaria glabrata embryonic cells co-cultured with schistosome miracidia display genes changing their nuclear location and becoming up-regulated. This also happens in vivo in live intact snails, where early exposure to miracidia also elicits non-random repositioning of genes. We reveal differences in the nuclear repositioning between the response of parasite susceptible snails as compared to resistant snails and with normal or live, attenuated parasites. Interestingly, the stress response gene heat shock protein (Hsp) 70 is only repositioned and then up-regulated in susceptible snails with the normal parasite. This movement and change in gene expression seems to be controlled by the parasite. Other differences in the behaviour of genes support the view that some genes are responding to tissue damage, for example theferritin genes move and are up-regulated whether the snails are either susceptible or resistant and upon exposure to either normal or attenuated parasite. This is the first time host genome reorganisation has been seen in a parasitic host and only the second time for any pathogen. We believe that the parasite elicits a spatio-epigenetic reorganisation of the host genome to induce favourable gene expression for itself and this might represent a fundamental mechanism present in the human host infected with schistosome cercariae as well as in other host-pathogen relationships.
Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.
APA Citation
Arican-Goktas, H.D., Ittiprasert, W., Bridger, J.M., Knight, M. (2014) Differential Spatial Repositioning of Activated Genes in Biomphalaria glabrata Snails Infected with Schistosoma mansoni. PLoS Neglected Tropical Diseases, 8(9): e3013. http://dx.doi.org/10.1371/journal.pntd.0003013
Peer Reviewed
1
Open Access
1
Comments
Reproduced with permission of PLoS Neglected Tropical Diseases.