Samaneh Attaran Dowom; Ahmad Reza Bahrami; Parwaneh Abrishamchi; Morvarid Saeinasab
Abstract
Essential oils, with plant origin, have been of special attention in cancer research during recent years. Despite many reports on cytotoxic effects of plants from genus salvia, the potential application of their extracts in cancer therapy remains to be assessed in more precise and detailed examinations ...
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Essential oils, with plant origin, have been of special attention in cancer research during recent years. Despite many reports on cytotoxic effects of plants from genus salvia, the potential application of their extracts in cancer therapy remains to be assessed in more precise and detailed examinations on the main cause of such effects. In this research, the cytotoxic effect and anticancer activity of essential oils from S. leriifolia on human Transitional Cell Carcinomaa (TCC) were studied in vitro. The antiproliferative activity of essential oils on TCC and L929 (control) cells was determined by 3-[4, 5-dimethylthiazol-2-yl]-2, 5-diphenyl tetrazolium bromide (MTT) assay, by which the mitochondrial dehydrogenase enzyme activity is assessed based on reduction of the MTT to purple. The amount of essential oils to induce 50% of cells to die, designated as IC50, was determined by repeated experiments and application of different doses of the essence. The established IC50 on TCC cells for the essences extracted in two different years of 2006 and 2008 and from two locations of Bajestan and Neyshabour was respectively as: 466 and 250 μg/ml, and 233 and 212 μg/ml. S. leriifolia essential oil did not show any detectable effect on L929 cells in this range of concentration. S. leriifolia essential oil has inhibitory effects on the growth of both TCC and normal L929 cell lines, although the effective concentrations were significantly different in these cell lines. This effect was dose dependent.
Maryam Moghaddam Matin; Morvarid Saeinasab; Saeideh Nakhaei-Rad; Mahdi Mirahmadi; Nasser Mahdavi Shahri; Mahmoud Mahmoudi; Ahmad Reza Bahrami
Abstract
Abstract
Regeneration is a biological phenomenon, which takes place via two main mechanisms: first,
dedifferentiation of mature cells followed by their differentiation into functional new cells and second,
activation of endogenous somatic stem cells for regeneration of damaged or lost tissues. One ...
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Abstract
Regeneration is a biological phenomenon, which takes place via two main mechanisms: first,
dedifferentiation of mature cells followed by their differentiation into functional new cells and second,
activation of endogenous somatic stem cells for regeneration of damaged or lost tissues. One of the best
examples of healing process in mammals is the regeneration of damaged pinna in rabbits by blastema tissue.
The aim of present study was to investigate culture requirements, proliferative properties and expression of
some stemness factors in cells derived from regenerating blastema tissue obtained from rabbit pinna in vitro.
The regenerating tissues were obtained from male New Zealand white rabbits by double punching of the pinna
and cell culture conditions were set to derive and enrich the self renewing cells for further characterisation. The
cells were subjected to survival and growth examinations in vitro, and expression of several stemness factors
was studied in these cells using reverse transcription polymerase chain reaction (RT-PCR). Results revealed
that the derived cells are rather immortal, as they have been growing for more than 120 passages in culture up
until this report. Furthermore, RT-PCR and flow cytometry analyses showed that these cells express a number
of stemness related genes including Oct4 and Sox2. In conclusion, in this study, stem like cells were derived
from blastema tissue of rabbit ears for the first time, showing great self renewing capacity, which provides a
suitable in vitro model for regeneration studies. Moreover, they could be considered as a good source of stem
like cells for future applications.