AI Article Synopsis
- Infection by Theileria annulata transforms bovine leucocytes, leading to persistent changes in gene expression and immune response.
- The study compares the effects of LPS stimulation on both uninfected and infected bovine leucocytes, revealing that LPS-induced cell death occurs in uninfected cells while infected ones remain viable.
- Findings suggest that the parasite modulates host cell activation pathways to favor its own survival, indicating a shift towards inflammatory disease and cancer in the infected cells.
Article Abstract
Infection of bovine leucocytes by Theileria annulata results in establishment of transformed, infected cells. Infection of the host cell is known to promote constitutive activation of pro-inflammatory transcription factors that have the potential to be beneficial or detrimental. In this study we have compared the effect of LPS activation on uninfected bovine leucocytes (BL20 cells) and their Theileria-infected counterpart (TBL20). Gene expression profiles representing activated uninfected BL20 relative to TBL20 cells were also compared. The results show that while prolonged stimulation with LPS induces cell death and activation of NF-κB in BL20 cells, the viability of Theileria-infected cells was unaffected. Analysis of gene expression networks provided evidence that the parasite establishes tight control over pathways associated with cellular activation by modulating reception of extrinsic stimuli and by significantly altering the expression outcome of genes targeted by infection-activated transcription factors. Pathway analysis of the data set identified novel candidate genes involved in manipulation of cellular functions associated with the infected transformed cell. The data indicate that the T. annulata parasite can irreversibly reconfigure host cell gene expression networks associated with development of inflammatory disease and cancer to generate an outcome that is beneficial to survival and propagation of the infected leucocyte.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3532605 | PMC |
| http://dx.doi.org/10.1111/j.1462-5822.2012.01809.x | DOI Listing |
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