| Literature DB >> 17294171 |
Krystyna Dabrowska1, Maria Zembala, Janusz Boratynski, Kinga Switala-Jelen, Joanna Wietrzyk, Adam Opolski, Katarzyna Szczaurska, Marek Kujawa, Joanna Godlewska, Andrzej Gorski.
Abstract
We previously investigated the biological, non-antibacterial effects of bacteriophage T4 in mammals (binding to cancer cells in vitro and attenuating tumour growth and metastases in vivo); we selected the phage mutant HAP1 that was significantly more effective than T4. In this study we describe a non-sense mutation in the hoc gene that differentiates bacteriophage HAP1 and its parental strain T4. We found no substantial effects of the mutation on the mutant morphology, and its effects on electrophoretic mobility and hydrodynamic size were moderate. Only the high ionic strength of the environment resulted in a size difference of about 10 nm between T4 and HAP1. We compared the antimetastatic activity of the T2 phage, which does not express protein Hoc, with those of T4 and HAP1 (B16 melanoma lung colonies). We found that HAP1 and T2 decreased metastases with equal effect, more strongly than did T4. We also investigated concentrations of T4 and HAP1 in the murine blood, tumour (B16), spleen, liver, or muscle. We found that HAP1 was rapidly cleared from the organism, most probably by the liver. Although HAP1 was previously defined to bind cancer cells more effectively (than T4), its rapid elimination precluded its higher concentration in tumours.Entities:
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Year: 2007 PMID: 17294171 DOI: 10.1007/s00203-007-0216-y
Source DB: PubMed Journal: Arch Microbiol ISSN: 0302-8933 Impact factor: 2.552