bovis/gallolyticus as a detection

tool First, it was sho

bovis/gallolyticus as a detection

tool. First, it was shown that the fecal carriage of S. bovis/gallolyticus increases in cases of colorectal cancer [2, 67, 75]. Second, S. bovis/gallolyticus has showed selective adhesion characteristics to the tumor tissue of colorectum [106, 107]. Third, the alteration in local conditions and the disruption of capillary channels at the site of neoplasm allow S. bovis/gallolyticus to learn more proliferate and gain entry into the blood stream, [38] which ultimately induces immune system to actively produce remarkable specific antibodies towards S. bovis/gallolyticus. Fourth, S. bovis/gallolyticus was shown to colonize tumor lesions selectively at high titers and this colonization is located deeply inside tumor tissues rather than superficially selleck products on mucosal surfaces; this feature increases the chances of triggering the systemic, along with mucosal, immune response leading to the development of anti- S. bovis/gallolyticus IgM and IgG antibodies [40]. Fifth, biochemical tests are not helpful diagnostic tools because of the wide variety of phenotypes seen in the S. bovis/gallolyticus complex; thus, instead, it is necessary to use serological or molecular methods [126]. Conclusions It is concluded from the lump of research done in this field that S. bovis/gallolyticus association with colorectal tumors seems to be of etiological nature.

And the pro-inflammatory potential of S. bovis/gallolyticus and their pro-carcinogenic properties including the leucocytic recruitment driven by S. bovis/gallolyticus,

the tumor tissue- selective adhesion potential of S. bovis/gallolyticus, the selective colonization of S. bovis/gallolyticus in tumor cells, the suitable microenvironment of tumor tissues for the S. bovis/gallolyticus proliferation, the local disruption of tumor tissues and capillaries which allow the entry of S. bovis/gallolyticus into blood circulation, and the S. bovis/gallolyticus- induced cytokines and transcriptional factors, such as IL-1, IFN-γ, IL-8, and NFkB, all collectively provide evidence that S. bovis/gallolyticus is most probably responsible for a slow progressing carcinogenesis of colorectal mucosal tissues. Moreover, the Pyruvate dehydrogenase S. bovis/gallolyticus- based carcinogenesis appears to occur through the VS-4718 purchase transformation process from normal tissue to premalignant lesions, adenomas, to finally malignant cancerous tissues. And the proposed carcinogenic potential of S. bovis/gallolyticus is most likely a propagating factor for premalignant tissues. On the other hand, the early detection of colorectal adenomas or carcinomas via detection of S. bovis/gallolyticus DNA or their specific IgG antibodies might be of high value in screening high risk groups for colorectal cancer. Acknowledgements This review was done as a collaborative work of researchers who have long been involved in the field of colorectal cancer association with S. bovis/gallolyticus.

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