A study of diurnal proliferative activity in tumour and small intestine of C3H mice bearing a transplanted mammary carcinoma

Diurnal changes in proliferative activity were investigated in tumour and small intestinal epithelium of mice bearing a transplanted mammary carcinoma. In addition to mitotic and labelling index studies, the metaphase-arrest technique with vincristine (VCR) was employed. In the tumour there was no clear evidence of a significant diurnal rhythm in proliferative activity but in the small intestinal epithelium such a rhythm was clearly demonstrated. A higher cell production rate (kB) measured by metaphase-arrest and higher labelling and mitotic indices were seen in the mid to late part of the dark period. The peak mitotic index was seen 3 to 6 h after the labelling peak in the small intestine. The basal third of the crypt which is believed to include the stem cell compartment of this tissue showed larger diurnal fluctuations in both labelling index and kB than the rest of the proliferative compartment.     

THE RELATIONSHIP BETWEEN DIURNAL VARIATION OF THE NUMBER OF CELLS IN MITOSIS AND OF THE NUMBER OF CELLS SYNTHESIZING DNA IN THE EPITHELIUM OF THE HAMSTER CHEEK POUCH

1. The numbers of cells in mitosis and in DNA synthesis in the epithelium of the hamster cheek pouch have been studied at different times of the day and night. 2. By accumulation of mitotic cells using colcemid, both the rate of entry of cells into mitosis and the duration of mitosis have been estimated at two different times of day. 3. A diurnal variation has been demonstrated in both the mitotic index and in the tritiated thymidine labelling index. Although these variations are of different amplitude and timing, the experimental data fit closely to the hypothesis that the diurnal mitotic variation is the result of a partially synchronous population moving through the DNA synthetic period. No direct action on the mitotic process need be postulated. 4. From the results of mitotic accumulation, it is clear that the rate of entry of cells into mitosis depends on the time of day at which this is studied. There is also the possibility that the duration of mitosis is slightly longer when the mitotic index is high. 5. It is concluded that, at least in the epithelium of the hamster cheek pouch, the diurnal rhythm in the number of mitoses present is a reflection of the diurnal variation in the number of cells synthesizing DNA at some time earlier. Small fluctuations in the mitotic pattern imposed by this partially synchronous population moving from S into mitosis, could be caused by slight variations in the duration of mitosis.     

A Stochastic Model For Cell Populations With Circadian Rhythms

A mathematical model for cell kinetics, based on a random walk, is developed. the model allows variations with time of the rates of passage of proliferating cells through the four phases of the mitotic cycle. Circadian variations in the mitotic and labelling indices of the Syrian hamster cheek pouch epithelium have previously been observed, and the random walk model has been used to simulate this phenomenon. Assuming that all basal cells are proliferative and that these cells leave the basal layer randomly throughout the mitotic cycle to become differentiated cells, it was found that the experimentally observed circadian rhythms of the mitotic and labelling indices could be reproduced in the model by postulating a circadian rhythm in the rate of passage of cells through the G₁ and S phases only. Moreover, the growth activity of cells in both the G₁ and S phases appears to reach a peak during the dark hours of the light-dark cycle, and to fall off rapidly in the early hours of daylight. the postulate of Møller, Larsen & Faber (1974) that injection of the animals with tritiated thymidine causes a shortening of the G₂ phase duration has been qualitatively confirmed by using the random walk model to simulate the FLM and MI curves after injection with tritiated thymidine.     

CIRCADIAN RHYTHMS IN MOUSE EPIDERMAL BASAL CELL PROLIFERATION

Several kinetic parameters of basal cell proliferation in hairless mouse epidermis were studied, and all parameters clearly showed circadian fluctuations during two successive 24 hr periods. Mitotic indices and the mitotic rate were studied in histological sections; the proportions of cells with S and G₂ phase DNA content were measured by flow cytometry of isolated basal cells, and the [³H]TdR labelling indices and grain densities were determined by autoradiography in smears from basal cell suspensions. The influx and efflux of cells from each cell cycle phase were calculated from sinusoidal curves adapted to the cell kinetic findings and the phase durations were determined. A peak of cells in S phase was observed around midnight, and a cohort of partially synchronized cells passed from the S phase to the G₂ phase and traversed the G₂ phase and mitosis in the early morning. The fluctuations in the influx of cells into the S phase were small compared with the variations in efflux from the S phase and the flux through the subsequent cell cycle phases. The resulting delay in cell cycle traverse through S phase before midnight could well account for the accumulation of cells in S phase and, therefore, also the subsequent partial synchrony of cell cycle traverse through the G₂ phase and mitosis. Circadian variations in the duration of the S phase, the G₂ phase and mitosis were clearly demonstrated.     

The Circadian Variations In the Eithelial Growth of the Hamster Cheek Pouch: Quantitative Analysis of Dna Distributions*

The pronounced diurnal rhythm in DNA distribution of the hamster check pouch epithelium both in the S fraction and in the (G₂+ M) fraction was compared with previous studies of the changes in tritiated thymidine labelling index and mitotic activity. the DNA distributions were obtained by flow cytometry after ultrasonic disaggregation of the isolated epithelium into a suspension of single nuclei. the DNA distributions were analysed with the computer program of J. Fried (1976) and by planimetry. the S fraction was higher than the autoradiographic labelling index during the whole 24 hr period. Only the computer fitted S fraction and the labelling index had the same difference between maximal and minimal values, and maxima at the same time of day. the DNA distributions showed a diurnal release of G₁ cells into S phase proceeding through (G₂+ M) phase and returning to G₁ phase within a 24 hr period.     

TUMOUR CELL PROLIFERATION IN RELATION TO THE VASCULATURE

The proliferation pattern of a transplantable mouse mammary carcinoma has been studied in relation to its macroscopic and microscopic structure. No significant differences were seen in the labelling or mitotic indices or in the percentage labelled mitoses curves for the peripheral 2-0 mm rim or for the central tumour core. When these parameters were scored for cells classified according to their position in relation to capillaries or to necrotic regions, marked differences were observed in all the parameters. Higher labelling and mitotic indices and higher grain counts were seen adjacent to the capillaries. These appear to result from a shorter cell cycle duration and a higher growth fraction. The variation in cell cycle is mainly due to a change in the duration of G₁.     

ANALYSIS OF INTESTINAL CELL PROLIFERATION AFTER GUANETHIDINE-INDUCED SYMPATHECTOMY

Neonatal administration of guanethidine-sulfate results in an alteration of the cell proliferative pattern of the small intestinal epithelium of the young adult rat. Sympathectomy with guanethidine has previously been shown to depress mitotic, labelling, and total cellular migration indices while increasing the generation cycle time (T_C) of small intestinal crypt cells as measured by a stathmokinetic method. The present study showed that the G₁, S and G₂ phases of the crypt cell cycle are altered by sympathectomy, G₁ accounting for most of the increase in T_C. In addition, the percentage of [³H]-thymidine labelled crypt cells is reduced and the duration of crypt cell transit is lengthened by guanethidine-induced sympathectomy.     

EPIDERMAL REGENERATION AFTER CELLOPHANE TAPE STRIPPING OF HAIRLESS MOUSE SKIN

After repeated applications of cellophane tape to the dorsal skin of hairless mice, the proliferative response in the treated epidermis was estimated by three different methods. The mitotic rate was determined in the interfollicular epidermis using the Colcemid technique, and the DNA synthetic activity was estimated after ³H-thymidine injection by counting labelled interfollicular cells in autoradiographs and by determining the specific activity of epidermal DNA. An initial 40–50% inhibition of DNA synthesis and mitosis was followed by an increase in the labelling index and the mitotic rate 8–10 hr after tape stripping. By 24 hr, peak values 5–6 times the controls were attained for both parameters. The labelling index and the mitotic rate were nearly normal at 3–4 days, but a second small peak was seen on day 5. Normal values were found on days 6 and 8. A similar pattern of response was found biochemically, but the peak of DNA specific activity was much broader and the extent of the increase was only about half as great as the increase in the labelling index. Possible reasons for these differences are discussed.     

DIURNAL VARIATION IN THE LABELING INDEX OF MOUSE EPIDERMIS: A DOUBLE ISOTOPE AUTORADIOGRAPHIC DEMONSTRATION OF CHANGING FLOW RATES

A diurnal rhythmicity in the labeling index was observed in the epidermis of hairless mice, injected with either ¹⁴C- or ³H-thymidine, at different times during a 24 hr period. A modified autoradiographic technique, using ¹⁴C- and ³H-thymidine and two overlying emulsion layers, makes it possible to clearly differentiate synthesizing cells which are singly labeled with either carbon-14 or tritium, and cells labeled with both isotopes. At various times during a 24 hr period, hairless mice were injected with thymidine-2-¹⁴C and colcemid, followed at 2 or 3 hr by a second injection of ³H-thymidine. The labeling indices were calculated for the ¹⁴C- and ³H-thymidine injection times. These labeling indices were consistent with the control, single isotope, labeling indices and exhibited the same diurnal rhythm. Cells singly labeled with ³H- or ¹⁴C-thymidine have either started or completed DNA synthesis during the interval between the two injections. Flow rates into and out of DNA synthesis, throughout the 24 hr period, can be calculated from these singly labeled cells. The flow rates varied rhythmically throughout the day and paralleled changes in the labeling indices. The influx and efflux flow rates, at all times measured, were not equal. The influx flow rate was reflected in the efflux rate at a time later equal to the duration of S. By means of these flow rates, the per cent of cells in DNA synthesis was calculated for each hour during a 24 hr period. The resulting labeling index curve matches the observed 24 hr diurnal rhythm in labeling indices. By extension of these flow rates through mitosis, the resulting mitotic index curve is comparable to the reported 24 hr diurnal rhythm in mitotic indices.     

The effect of single and of multiple doses of prednisolone tertiary butyl acetate on cell population kinetics in the small bowel mucosa of the rat.

The effect of single and of multiple doses of prednisolone upon cell population kinetics in the rat jejunal crypt was investigated, using autoradiography and stathmokinetic techniques with vincristine. Single injections of prednisolone (2.5 mg/kg body weight) induced a depression both flash thymidine labelling and mitotic indices; this change was shown to be due to a decreased cell production rate. Recovery of these proliferative indices occurred over seven days after injection; measurement of crypt size parameters showed a transient decrease in crypt population. Multiple daily injections of prednisolone (1 mg/kg body weight) produced a more sustained decrease in labelling and mitotic indices, which lasted as long as injections were continued (7 days); stathmokinetic techniques showed decreases in cell production rates, and the crypt population was also depressed throughout this period. It is concluded that prednisolone depresses cell proliferative rates in rat jejunal mucosa.     

Administration of caerulein to rats promotes antral epithelial cell renewal

Summary The growth-promoting effect of caerulein on antral gastric mucosa was explored using Wistar rats. Implanted osmotic minipumps were used to administer submaximal doses of either caerulein or saline to normal rats for up to 4 days. In one group, reflux of bile and pancreatic juice into the stomach was avoided by previous surgical diversion of the distal common bile duct to the jejunum. DNA synthetic and mitotic activity in the antrum epithelium were estimated by ³H-thymidine pulse labelling and autoradiography during the administration of the peptide. The rate of cell migration was determined in animals killed 1, 2 and 3 days after the ³H-thymidine pulse. Administration of caerulein to normal rats provoked significant increases in both labelling and mitotic indices, and a significant acceleration of the upward cell migration in the glandular tubes. In the animals with distal diversion of bile and pancreatic secretions both labelling and mitotic indices were also increased over control values under the effect of the peptide. These data indicate that administration of caerulein stimulates cell proliferation in the antral gastric mucosa. This effect cannot be explained through increased reflux of pancreaticobiliary secretions in the stomach.     

CHARACTERISTICS OF THE ISOPRENALINE STIMULATED PROLIFERATIVE RESPONSE OF RAT SUBMAXILLARY GLAND

A simple stochastic model has been developed to determine the cell cycle kinetics of the isoprenaline stimulated proliferative response in rat acinar cells. The response was measured experimentally, using ³H-TdR labelling of interphase cells and cumulative collections of mitotic cells with vincristine. The rise and fall of the fraction of labelled interphase cells and of metaphase cells is expressed by the product of the proliferative fraction and a difference of probability distributions. The probability statements of the model were formulated and then compared by an iterative fitting procedure to experimental data to obtain estimates of the model parameters. The model when fitted to the combined fraction labelled interphase (FLIW) and fraction metaphase (FMW,) waves gave a mean G_is transit time of 21-2 hr, mean G_is+ S transit time of 270 hr, and mean G_is+ S + G₂ transit time of 35-8 hr for a single injection of isoprenaline, where G_is is the initiation to S phase time. When successive injections of isoprenaline were given at intervals of 24 and 28 hr the corresponding values after the third injection were 12-4 hr, 20-8 hr and 25-7 hr respectively. The variance of the G_is phase dropped from 18-1 to 1–3 while the other variances remained unchanged. The estimated proliferative fraction was 0–24 after a single injection of isoprenaline, and 0–31 after three injections of the drug. Independently determined values of the proliferative fraction, obtained from repeated ³H-TdR injections, were 0–21 and 0–36 respectively.     

ACTIVITY OF TUBULOSINE ON THE KINETICS OF ROOT MERISTEM CELL POPULATION

The action of tubulosine on the mitotic cycle was studied using continuous labelling with tritiated thymidine. This alkaloid provokes a lengthening of the G₁ and S phases and a blocking of G₂ is totally reversible when the treatment is followed by recovery in normal medium. At a dose of tubulosine which induces a reversible mitostasis in the shortest possible time the lengthening of the phases of the cell cycle was estimated by three different techniques: labelled mitoses for the determination of G₂; labelling intensity for the determination of S; binucleate cells for the determination of T, and an original technique using labelling index of binucleate cells for the determination of G₁. The limits of the technique of labelled mitosis together with the interest of the technique aiming at the direct determination of G₁ in the case of a perturbed cycle are then discussed.     

ANALYSIS OF THE PROLIFERATION KINETICS OF BURKITT'S LYMPHOMA CELLS

The in vitro proliferation kinetics of a cell line derived from a patient with American Burkitt's lymphoma were investigated at three different growth phases: lag (day 1), exponential (day 3) and plateau (day 5). The growth curve, labeling and mitotic indices, percentage labeled mitosis (PLM) curves and DNA content distributions were determined. The data obtained have been analysed by the previously developed discrete-time kinetic (DTK) model by which a time course of DNA distributions during a 10-day growth period was characterized in terms of other cell kinetic parameters. The mean cell cycle times, initially estimated from PLM curves on days 1, 3 and 5, were further analysed by the DTK model of DNA distributions and subsequently the mean cell cycle times with respect to DNA distributions during the entire growth period were determined. The doubling times were 39·6, 31·2 and 67·2 hr, respectively, at days 1, 3 and 5. The mean cell cycle time increased from 23·0 to 37·7 hr from day 3 to day 5 mainly due to an elongation of the G₁ and G₂ phases. A slight increase in the cell loss rate from 0·0077 to 0·0081 fraction/hr was accompanied by a decrease in the cell production rate from 0·0299 to 0·0184 fraction/hr. This calculated cell loss rate correlated significantly with the number of dead cells determined by trypan blue exclusion. Analysis of the number of dead cells in relation to the cell cycle stage revealed that a majority of cell death occurred in G₁ (r= 0·908; P < 0·0001). There was a good correlation between the in vitro proliferation kinetics at plateau phase of this Burkitt's lymphoma derived cell line and the in vivo proliferation kinetics of African Burkitt's lymphoma (Iversen et al., 1974), suggesting the potential utility of information obtained by in vitro kinetic studies.     

Circadian rhythm in the rate of cellular proliferation and in the size of the functional compartment of mouse jejunal epithelium

Circadian variation in the small bowel mucosa of male Balb/c mouse was studied. The labelling was studied at 2 hourly intervals throughout a 24 h period by using autoradiographic techniques with 3HTdR. A 12 h light-dark schedule was employed. Villus and crypt cell populations, together with the mitotic index, were studied using the micro-dissection technique. Growth fractions were determined from the labelling index distribution curves. The peaks in both villus and crypt cell population occurred during the day, with maximum villus population of 3,887 cells/villus at 13.00 h and maximum crypt population of 178 cells per crypt at 09.00 h. The peaks of labelling index (Is) and mitotic index (Im) occurred during the dark period. The peak value of Is 38% at 17.00 h-19.00 h, was about 6-8 h in advance of the peak value of Im (6%). The peak in growth fraction corresponded to that of the labelling index.     

ALTERATION OF CELLULAR PROLIFERATION IN THE ILEAL EPITHELIUM OF SUCKLING AND WEANED RATS: THE EFFECTS OF ISOPROTERENOL

The purpose of this study was to analyse cell proliferation in the ileum before and after neonatal closure to macromolecules and to determine the effects of the sympathomimetic amine, isoproterenol (IPR), on cell cycle parameters. 8- and 28-day-old rats were employed in this study representing the neonatal periods of pre- and post-closure ileum respectively. The duration of the cell cycle phases was determined by the percentage of labeled metaphases technique (PLM) with computerized analysis of the curves. The generation cycle time was longer in 8-day-old suckling rats (18.63 hr) as compared to the older weaned rats (11.85 hr), and most of this 6.78 hr difference was in the G₁-period (4.5 hr). Other proliferative indices were also lower in the suckling rats—mitotic index (1.9 ± 0.4% as compared to 6.7 ± 0.9%), labelling index (26.8 ± 2.5% versus 44.2 ± 2.6%) and migration rate measured as per cent labeled villus cells (8.9 ± 3.1% versus 45.2 ± 3.4%). IPR was found to inhibit cellular proliferation in the ileal epithelium of both age groups. The cell cycle of the ileal epithelium of 8-day-old rats was lengthened from 18.63 to 21.07 hr and 28-day-old rats from 11.85 to 13.98 hr. IPR produced a decrease in mitotic index from 1.9 ± 0.4% to 1.6 ± 0.4% in pre-closure ileum and from 6.7 ± 0.9% to 5.1 ± 0.6% in post-closure ileum. Labeling index decreased from 26.8 ± 2.5% to 20.0 ± 2.0% in 8-day-old rats and from 44.2 ± 2.6% to 31.1 ± 3.0% in 28-day-old rats after IPR administration. There were also significant differences in growth fraction between age groups and a significant decrease in growth fraction after IPR-treatment. From the results of this study it appears that β-adrenergic stimulation has an inhibitory effect on neonatal ileal epithelium.     

STUDIES ON THE REGULATION OF LYMPHOCYTE PRODUCTION IN THE MURINE THYMUS AND SOME EFFECTS OF A CRUDE THYMUS EXTRACT

Cell proliferation in the murine thymus was studied in vivo under normal conditions and from 0 to 24 hr after a single injection of a water-soluble extract from mouse thymus, mouse spleen, and mouse skin. The thymus extract reduced during the first 24 hr the mitotic activity 40%; the spleen extract had a weaker inhibitory effect. The skin extract had no such effect. The thymus extract and spleen extract inhibited the flux of cells into the S phase 0–8 hr after the injection of the extract. Initial labelling index was also reduced in this period. Eight hours after injection of the thymus or spleen extracts the inhibited cells initiated DNA synthesis. The rate of progression of blast cells through the cell cycle was normal 24 hr after the injection of the extracts. It was deduced from the analysis that the thymus extract inhibits processes triggering Go/Gi cells into DNA synthesis, the inhibition of G₂ efflux being of minor importance. Finally a model for the regulation of proliferating thymic blast cells and the emigration of small lymphocytes from the thymus is proposed.     

DNA TURNOVER IN ADRENAL MEDULLARY CELLS OF DIFFERENT STRAINS OF RATS AND ITS ENHANCEMENT AFTER INTERMITTENT EXPOSURE TO COLD

In Italico and Wistar rats maintained at room temperature 1% of nuclei of cells in the adrenal medulla incorporate ³H-thymidine. Following intermittent exposure to cold, the numbers incorporating increase to 10% and 7% in Italico and Wistar strains respectively. Only in the Wistar strain does the increase occur during actual exposure.
Assuming S to be 6–8 hr the labelling indices actually determined indicate a turnover time of DNA of 21–29 days. Since mitotic indices in experimental and control animals were found to be 0.004% without colchicine treatment and 0.009% after 3 hr of colchicine treatment, the turnover times of cells were calculated to be 1388–3125 days. To correlate mitotic indices and labelling indices, an S period of 400 hr would have to be assumed. It is concluded therefore that: (i) most of the observed labelling of DNA is due to metabolic turnover of DNA and only a small proportion represents pre-mitotic synthesis, (ii) differences in the rates of DNA synthesis found during exposure to cold in Italico and Wistar rats respectively are sufficient to account for the differences in reduction of DNA previously found between the two strains under these experimental conditions.     

THE KINETICS OF CELL PROLIFERATION IN THE TRACHEOBRONCHIAL EPITHELIA OF RATS WITH AND WITHOUT CHRONIC RESPIRATORY DISEASE

Labelling indices of the tracheobronchial epithelia of conventionally-derived rats with chronic respiratory disease (CRD) and minimal-disease rats without CRD have been determined. The duration of the DNA synthesis phase (t_s) computed from the percentage of mitoses labelled at various intervals of time after injection of tritiated thymidine was 7 hr: t_G2 was 3.5 hr. Using the measured value of t_s and the labelling indices, the mean turnover times of the tracheobronchial epithelia in three groups of six 5-week-old conventionally-derived rats were calculated to be 11.2, 14.6 and 22.4 days, while in similar groups of 5-week-old minimal-disease rats the turnover times were found to be 24.3, 36.5 and 41.6 days. The majority of cell divisions in the tracheobronchial epithelium of these minimal disease rats were probably required for growth rather than renewal. The mean turnover time of this tissue in 5-week-old Syrian hamsters was 73 days. The cells of the rat tracheobronchial epithelium have been classed as basal or superficial, depending on their shape and proximity to the basement membrane. The mean turnover time of the basal cells in 5-week-old minimal-disease rats was 11.7 days calculated from labelling indices. The migration method of Brown & Oliver (1968) gave a similar value for the basal cells in minimal-disease rats, and a value of 9.5 days for the basal cells in a group of conventionally-derived rats. The mean turnover time in the latter was only 5.4 days if two rats with tracheobronchitis were included. Consideration of the slow rate of fall in mean grain count over labelled cells at intervals of time after labelling and the calculated turnover times suggests that the proliferative fraction of the basal cell population is close to unity. Well-labelled cells were still present in both basal and superficial populations in the minimal-disease rats at 10 days after labelling. The marked effects of CRD on cell proliferation in this epithelium are emphasized and the significance of this in relation to published work is discussed.     

CELL PROLIFERATION IN THE RAT KIDNEY INDUCED BY FOLIC ACID

The changes in proliferative activity of tubular epithelial cells of the rat kidney following a single injection of folic acid (250 mg/kg body weight) have been studied. Autoradiography with tritiated thymidine revealed a large increase in numbers of labelled cells, beginning at about 18 hr, in each of the three kidney zones examined. In the cortex the maximum increase in labelling index (16 times normal) was found at 36 hr whereas that of the outer medulla (34 times normal) occurred at 24 hr; there was no clearly defined peak in the inner medulla, values of up to 36 times normal being found between 24 and 96 hr. These changes were followed several hours later by similar changes in mitotic index in the corresponding zones. All the indices, except the mitotic index of the inner medulla, had returned to normal by 6 days. Comparison of the curves of labelling index and mitotic index in each zone indicated that the number of cells induced to synthesize DNA was approximately similar to the number of cells which subsequently underwent mitosis. A large increase was also found in the specific activity of DNA extracted from homogenates of whole kidneys from folic acid-injected rats, again using tritiated thymidine as label. The increase began at about 18 hr, reached a maximum of 16 times normal at 32 hr and returned to normal by 6 days. These changes were similar to those of labelling index in the cortical zone.