S. Masunaga et al., THE DETECTION AND MODIFICATION OF THE HYPOXIC FRACTION IN QUIESCENT CELL-POPULATIONS IN MURINE SOLID TUMORS, British journal of radiology, 66(790), 1993, pp. 918-926
Mice bearing SCC VII or EMT6/KU tumours were irradiated after receivin
g 10 injections of 5-bromo-2'-deoxyuridine BUdR) to label all prolifer
ating tumour cells, and the tumours were then excised and trypsinized.
The tumour cell suspensions thus obtained were incubated with cytocha
lasin-B (a cytokinesis blocker), and the micronucleus (MN) frequency i
n cells without BUdR labelling was determined using immunofluorescence
staining to BUdR. This MN frequency was then used to calculate the su
rviving fraction of unlabelled cells from the regression line for the
relation between MN frequency and the surviving fraction of all tumour
cells. Thus a cell survival curve could be determined for cells not l
abelled by BUdR, which can be regarded as quiescent tumour cells for a
ll practical purposes. Assays performed immediately after irradiation
of both normally aerated and hypoxic tumours showed that quiescent cel
ls contained higher hypoxic fractions than the tumour cells as a whole
. Furthermore, administration of nicotinamide before irradiation or th
e placement of mice in a circulating carbogen (95% O2, 5% CO2) chamber
for 30 min before and during irradiation altered the acutely and chro
nically hypoxic fractions of the proliferating and quiescent tumour ce
ll populations in a way which depended on the tumour system. Combined
nicotinamide and carbogen therapy was shown to have a large potential
to sensitize cells to low-dose radiation in vivo. In addition, this as
say method appears to be useful for determining the size of the hypoxi
c fraction of quiescent tumour cells in murine solid tumours.