The effect of estrogen on epithelial cell proliferation and differentiation in the crypts of the descending colon of the mouse: a radioautographic study

The regulatory role of estrogen on cell population kinetics in the descending colon was studied in intact female and ovariectomized mice. In the colonic crypts from intact mice, the crypt size (the number of epithelial cells per crypt column) and the proliferative activity of epithelial cells fluctuated slightly during the estrous cycle. Peak cellularity per crypt column was exhibted during estrus and early diestrus, whereas peaks in labeling index were seen during estrus and late metestrus. While the population size of mucous cells showed a minimal variation, the number of proliferative vacuolated cells per crypt column varied inversely with that of differentiated columnar cells during estrous cycle. The vacuolated cells were increased in number in the preovulatory phase and the columnar cells in the postovulatory phase. Three weeks after bilateral ovariectomy, the colonic crypt appeared to reach a new steady state, which was characterized by a small crypt size, a decrease in the number of differentiated cells, an increase in the relative number of proliferative cells and a relative increase in the proliferative activity of the crypt as compared to intact mice. When ovariectomized mice were treated with estrogen, the number of 3H-thymidine-labeled cells in the crypt was decreased as compared to untreated ovariectomized mice, the decrease being greater after a single injection than after multiple injections of estrogen, and the vacuolated-columnar cell line being affected more than mucous cell line. Meanwhile, the crypt size as well as the population size of differentiated cells in the crypt failed to return to normal after estrogen treatments. Thus, estrogen did not promote differentiation of epithelial cells in the crypt.     

DIURNAL VARIATION IN PROLIFERATIVE COMPARTMENTS AND THEIR RELATION TO CRYPTOGENIC CELLS IN THE MOUSE COLON

The depth of the crypts in mouse descending colon varied diurnally, between twenty-six cells at 24.00 hours and thirty-eight cells at 12.00 hours. Cell loss from the colon was greatest immediately before the maximum faeces production, at the beginning of the dark period. The labelling index of the colon also changed, from 9% at 20.00 hours to 16% at 12.00 hours. The greatest variation in labelling index occurred at the top of the zone of proliferative cells, between the ninth and eighteenth cell position up the crypt. In this region a synchronized cohort of about forty cells apparently entered S phase once a day. Although the length of the proliferative zone doubled at 12.00 hours, that of the non-proliferative zone remained fairly constant all day. The number of cryptogenic cells per crypt was estimated by comparing single and split-dose X-ray survival curves. This gave a mean value of two cryptogenic cells per crypt. Crypts rarely regenerated from the base after irradiation. The cryptogenic cells probably lay between cell positions Nos 9 and 18 up the crypt and probably did not function as stem cells in the normal crypt.     

Kinetics of cell population of the jejunal mucosal epithelium in mice after administration of syngeneic lymphocytes

By means of the radioautographic method the state of cellular restoration of the gastric epithelium has been estimated after administration of syngenic lymphocytes to mice. Under conditions of physiological regeneration T-lymphocytes are able to inhibit proliferation of the epithelial cells and to limit the size of the proliferation zone in crypts. The inhibition degree of the proliferative activity depends on the doze of the T-cells administered. In order to demonstrate their activity, T-cells do not need DNA and RNA synthesis de novo. At the same time, protein synthesis is necessary; it occurs on long-living mRNA lymphocytes. The T-lymphocyte action is reversible at the tissue, but not at the cellular level. The mechanism of decreasing cell reproduction under effect of T-lymphocytes is described. In the process of lymphoid regulation of the cellular restoration in the intestinal epithelium changes in the size of the proliferative pool play the main role.     

Epithelial cell kinetics in the descending colon of the rat

Epithelial cell loss was induced in the descending colon of the rat by temporary ischaemia to investigate whether this would lead to an increase in crypt cell proliferation. Shortly after the temporary ischaemia the number of cells per crypt was markedly reduced, and it was shown that the cell loss occurred mainly from the non-proliferating upper half of the crypt. The number of cells per crypt reached control values again after 24-48 h. There was a marked increase in proliferative activity, as reflected by the labelling index after 3HTdR and by the mitotic index, with peak values at 16 and 24 h after ischaemia. After 48 h the proliferative indices were normal again. The increase in crypt cell proliferation was characterized by an increase in the labelling index as well as in the mitotic index per crypt cell position. No enlargement of the proliferative cell compartment in the crypt was observed. It is most likely then that the increase in crypt cell proliferation was brought about by a shortening of the cell cycle, since the growth fraction in the lower half of the crypt approaches 1.0. The possible implications of the present data for the control of colonic cell proliferation and colonic carcinogenesis are discussed.     

Changes in growth kinetics of jejunal epithelium in mice maintained on an elemental diet.

Changes in the kinetics of the intestinal epithelium were observed in mice maintained on an elemental diet containing hydrolysed protein and medium chain triglycerides. An increase in the length of the villi seen shortly after commencement of the diet was followed by a reduction in the rate of proliferation in the crypt. After 7 days on the diet, an equilibrium state was reached with the cellularity of the villi being 120% that of control while the number of proliferative cells/crypt was reduced by 35%. The proliferative response of the crypt following irradiation occurred 16 hr later in diet-fed mice than in controls. It was postulated that, because of the increased cellularity of the villus compartment in diet-fed mice, additional time was required to reduce the number of villus cells to a critical level at which a proliferative response is induced in the crypt.     

The decay of autoradiographic grain number over crypt base columnar cells in murine ileum as a measure of their generation time

The decay in the number of grains over [3H]-thymidine labelled crypt base columnar cells (BCC) in autoradiographs of the ileum of BDF1 mice has been studied. The results revealed that using the conventional grain count halving (GCH) method it is possible to obtain an estimation of the generation time (Tc) of the proliferative BCC cells in the Paneth cell zone (PC-zone) of 18.8 +/- 0.74 h. This lies within the range obtained by the percent labelled mitoses (PLM) method, but is shorter than most values obtained by stathmokinetic methods. The present data show no evidence for a shortening of the cell cycle 3 days after irradiation (8 Gy) which is contrary to some earlier observations. Some reasons for this discrepancy are discussed. The comparatively high labelling index of the BCC allows a larger amount of data to be easily collected, compared with the PLM technique, and correction factors which take into account the complicated shape of the bottom of the crypt are not required.     

CHANGES IN GROWTH KINETICS OF JEJUNAL EPITHELIUM IN MICE MAINTAINED ON AN ELEMENTAL DIET

Changes in the kinetics of the intestinal epithelium were observed in mice maintained on an elemental diet containing hydrolysed protein and medium chain triglycerides. An increase in the length of the villi seen shortly after commencement of the diet was followed by a reduction in the rate of proliferation in the crypt. After 7 days on the diet, an equilibrium state was reached with the cellularity of the villi being 120% that of control while the number of proliferative cells/crypt was reduced by 35%. The proliferative response of the crypt following irradiation occurrred 16 hr later in diet-fed mice than in controls. It was postulated that, because of the increased cellularity of the villus compartment in diet-fed mice, additional time was required to reduce the number of villus cells to a critical level at which a proliferative response is induced in the crypt.     

The effect of continuous irradiation on cell proliferation and maturation in small intestinal epithelium.

Autoradiographic studies and scintillation counting of crypt material after pulse labelling with 3H-thymidine showed that during continuous irradiation with 290 rads/day a reduced proliferative activity is present in the crypts of rat small intestine after 1 day of irradiation and of normal activity during the remaining period (5 days) irradiation. After cessation of irradiation an increase in proliferative activity can be observed after 1 day of recovery. From the time (36-48 hr after starting of the irradiation) that the number of villus cells is reduced an expansion of the proliferation zone in the crypt was observed. Both effects last until 1 day of recovery after cessation of irradiation. The process of crypt cell maturation and of villus cell function has also been studied during and after continuous irradiation by micro-chemical enzyme analyses in isolated crypts and villi. It was found that the expansion of the proliferation zone in the crypt is accompanied by a decrease in activity of only those enzymes (i.e. non-specific esterases) which normally become active during crypt cell maturation. The activity of enzymes normally present mainly in the functional villus cells remained relatively unaffected by changes in crypt cell kinetics. A hypothesis of different regulation mechanisms of the proliferative activity in the intestinal crypt and a possible explanation of the different behaviour of various enzyme activities as a result of changes in crypt cell proliferation is discussed.     

The response of murine intestinal crypts to short-range promethium-147 beta irradiation: deductions concerning clonogenic cell numbers and positions

An exteriorized loop of mouse intestine was exposed to 147Pm low-energy electrons, where the dose rate decreased by a factor of 5 from the base of the crypt to the top of the proliferative zone. A crypt survival curve was obtained, expressed in terms of exposure time. The shape of the curve was interpreted in terms of survival parameters for colony-forming cells (clonogens) derived using 137Cs gamma rays and the depth-dose curve measured for 147Pm electrons. It is concluded that the shape of the crypt survival curve using 147Pm electrons is inconsistent with the notion of either the presence of a large number of clonogens or a small number near the top of the proliferative zone. A computer fitting procedure showed that the best agreement between predicted and observed curves was achieved with 2.7 +/- 0.5 clonogens at cell position 5.6 +/- 0.6, in the putative stem-cell zone.     

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 EFFECT OF CONTINUOUS IRRADIATION ON CELL PROLIFERATION AND MATURATION IN SMALL INTESTINAL EPITHELIUM

Autoradiographic studies and scintillation counting of crypt material after pulse labelling with ³H-thymidine showed that during continuous irradiation with 290 rads/day a reduced proliferative activity is present in the crypts of rat small intestine after 1 day of irradiation and of normal activity during the remaining period (5 days) irradiation. After cessation of irradiation an increase in proliferative activity can be observed after 1 day of recovery. From the time (36–48 hr after starting of the irradiation) that the number of villus cells is reduced an expansion of the proliferation zone in the crypt was observed. Both effects last until 1 day of recovery after cessation of irradiation. The process of crypt cell maturation and of villus cell function has also been studied during and after continuous irradiation by micro-chemical enzyme analyses in isolated crypts and villi. It was found that the expansion of the proliferation zone in the crypt is accompanied by a decrease in activity of only those enzymes (i.e. non-specific esterases) which normally become active during crypt cell maturation. The activity of enzymes normally present mainly in the functional villus cells remained relatively unaffected by changes in crypt cell kinetics. A hypothesis of different regulation mechanisms of the proliferative activity in the intestinal crypt and a possible explanation of the different behaviour of various enzyme activities as a result of changes in crypt cell proliferation is discussed.     

Development and resolution of experimental colitis in mice with targeted deletion of dipeptidyl peptidase IV

Glucagon-like peptide-2 (GLP-2) is a potent intestinotrophic growth factor that enhances repair of damaged intestinal tissue. However, its bioactivity is limited by dipeptidyl peptidase IV (DPIV)-mediated degradation. We hypothesized that DPIV(-/-) mice would display an increased resistance to, and an enhanced recovery from, dextran sulfate sodium (DSS)-induced colitis compared to DPIV(+/+) mice. DPIV(+/+) and DPIV(-/-) mice consumed 2% DSS for 6 days, followed by a 15 day recovery period. Mice were killed at days 0, 3, 6, 9, 14, and 21 (n = 6-8) and the small intestine and colon removed for histological assessment of villus height, crypt depth, and crypt area. The epithelial cell proliferative labeling index was determined by proliferating cell nuclear antigen (PCNA) immunostaining. Small intestine, colon, and total body weight did not differ between DPIV(+/+) and DPIV(-/-) mice. Distal colon crypt depth did not differ significantly between DPIV(+/+) and DPIV(-/-) mice during the development of DSS-colitis or during the recovery phase. Similarly no significant effects were apparent on distal colon crypt area or PCNA labeling index between DPIV(+/+) and DPIV(-/-) during the development of and recovery from DSS-colitis. However, DPIV(-/-) mice still possessed significant levels of plasma DPIV-like activity. We conclude that loss of DPIV activity does not increase resistance to experimental colitis and hypothesize that other DPIV family members may also be involved in the cleavage of GLP-2.     

A cytokinetic study of small-intestinal and colonic mucosa after resection of 70% of the small intestine

Pulse-labelling with tritiated thymidine and a fraction of labelled mitoses experiments have been performed in order to investigate the proliferative changes induced at various sites in the hyperplastic small-intestinal mucosa of rats previously subjected to resection of 70% of the small intestine. Proliferative activity in the colon was also studied. In the distal ileum there is a significant reduction in cell cycle time (Tc) of cells at all levels within the crypt and the growth fraction falls. In the jejunum and proximal ileum the crypts contain an increased number of proliferating cells, but as the size of the maturation zone is also increased, there is no significant alteration in the relative number of proliferating cells per crypt. Nor does the distribution of proliferating cells in these crypts seem to alter. There is no general reduction in Tc at these sites, but there does appear to be a significant reduction in Tc on the part of the cells in the stem-cell zone at the crypt base. In neither proximal nor distal colon was there any significant proliferative change apparent after small-intestinal resection.     

Crypt base columnar cells in ileum of BDF1 male mice--their numbers and some features of their proliferation

Some features of the proliferative cells at the bottom of the ileal crypts in BDF1 mice have been studied in relation to the distribution of Paneth cells (PC) in an attempt to clarify the nature and function of these crypt base columnar cells (BCC) and to elucidate some aspects of the role of the microenvironment created by the PC. Longitudinal sections of crypts have shown that the ratio of PC to the BCC, which are scattered amongst the PC, is 2.7:1 in sections or approximately 29 PC and 9 BCC per whole crypt, i.e., a ratio of 3.2:1. The labelling index of BCC is about 35%, which is comparable to that of mid-crypt columnar cells. Although the BCC do become labeled, it is concluded that they cannot create vertical pairs or runs of several adjacent BCC since this would seriously disturb the distribution of Paneth cells. Only in dividing crypts are such runs (consisting of 3 to 5 cells) observed. The ability of BCC to synthesize DNA is not dependent on their position in the Paneth cell zone. In 95% of the crypts, the highest Paneth cell is below the 7th cell position from the bottom of the crypt, and the positions of the highest PC on either side of a given crypt are similar. The secreted granules or the cytoplasm of PC specifically bind pokeweed lectin, and this can be used for identification. Tracer doses of 3HTdR (37 kBq/gm body weight) result in the histological death of some BCC, and these damaged cells are evenly distributed throughout the Paneth cell zone. These tracer doses are somewhat selectively incorporated into BCC, i.e., the BCC have a higher grain count in autoradiographs, probably because they possess more thymidine kinase enzyme activity. This ability is very sensitive to the withdrawal of food, because 24 hr of fasting abolished the observed gradient in the intensity of labelling, which is very well correlated with the distribution of BCC. Regeneration of the crypts following cytotoxic exposure to Ara-C is initiated at the base of the crypt and hence may involve the BCC with possible help from the Paneth cells. The latter are insensitive to cytotoxic (S phase specific) agents and may help in the regeneration by preserving the architecture of the base of the crypt.     

Aspirin suppresses 1,2-dimethylhydrazine-induced alteration of proliferative parameters in rat colonic crypts

Abstract. Human epidemiological reports and rodent experimental research data indicate a possible chemopreventive effect of regular aspirin use for decreasing risk of colon and rectum cancer incidence and mortality. We have previously demonstrated that aspirin can significantly suppress proliferative parameters in normal rat colonic epithelium when examined 24 h following an acute or chronic course of aspirin administration. To investigate whether aspirin would effectively suppress known carcinogen-induced changes in colonic epithelium, rats were given single s.c. injections of either aspirin (50 mg/kg bw) or saline on days 1–3 and either 1,2-dimethylhydrazine (DMH; 12 mg base/kg bw) or DMH vehicle on day 4 of each week for eight consecutive weeks. Rats were sacrificed 4 days after the last aspirin dose and 3 days after the last DMH or DMH vehicle dose. Using the proliferative biomarkers of proliferating cell nuclear antigen positive cells per midaxial crypt section (SCC), crypt proliferative zone height (PZ), crypt differentiated zone height (DZ), and total crypt height (CH), it was found that aspirin does suppress DMH-induced increases in SCC, PZ and CH. The findings demonstrate that aspirin has a long term (i.e. several days) protective effect against early carcinogen-induced proliferative changes in rat colonic crypts which may help account for aspirin's chemopreventive action against colon cancer.     

A Cytokinetic Study of Small-Intestinal and Colonic Mucosa After Resection of 70% of the Small Intestine

Abstract. Pulse-labelling with tritiated thymidine and a fraction of labelled mitoses experiments have been performed in order to investigate the proliferative changes induced at various sites in the hyperplastic small-intestinal mucosa of rats previously subjected to resection of 70% of the small intestine. Proliferative activity in the colon was also studied.
In the distal ileum there is a significant reduction in cell cycle time (T_c) of cells at all levels within the crypt and the growth fraction falls. In the jejunum and proximal ileum the crypts contain an increased number of proliferating cells, but as the size of the maturation zone is also increased, there is no significant alteration in the relative number of proliferating cells per crypt. Nor does the distribution of proliferating cells in these crypts seem to alter. There is no general reduction in T_c at these sites, but there does appear to be a significant reduction in T_c on the part of the cells in the stem-cell zone at the crypt base.
In neither proximal nor distal colon was there any significant proliferative change apparent after small-intestinal resection.     

Role of helper T-lymphocytes in modulating the humoral immune response to cholera enterotoxin

The role of helper T-lymphocytes in the modulation of humoral immune response to sheep red blood cells with choleragen has been studied in vivo, the populations of cooperating marrow cells, formed in mice under the action of hydrocortisone being used as a model. In adoptive transfer marrow cells, taken from mice on day 12 after thymectomy and from mice previously treated with antithymocyte serum, have proved incapable of humoral immune response. Choleragen, similarly to theophylline, normalizes the humoral immune response of marrow cells in thymectomized mice, but inhibits this response in intact ones, while thymosin fraction 2 restores it again, thus abolishing the action of choleragen and theophylline. The opposite effects rendered by choleragen and theophylline on humoral immune response, depending on the hormonal status of the animals and the possibility of influencing these effects by means of thymosin fraction 2 indicate that the population of helper T-lymphocytes are selectively sensitive to changes in the concentration of intracellular cAMP. Their capacity for cooperative interaction in the immune process is regulated by thymic hormones and forms the basis of the mechanism permitting the modulation of humoral immune response with choleragen.     

AN ESTIMATION OF PROLIFERATIVE POPULATION SIZE IN STOMACH, JEJUNUM AND COLON OF DBA-2 MICE

Liquid scintillation and autoradiographic techniques have been used to provide quantitative data on the proliferative units, the crypts, of stomach, jejunum and colon of DBA-2 mice. A slight modification of the crypt squash technique has provided data suggesting that about 50% of the cells of the jejunal crypt are at any given time in the proliferative state. This value is lower in the colon while in the stomach glands only 20% of the cells are involved in cell production. The data provide estimates for cell cycle times of 26·3, 16·0 and 23·2 hr for stomach, jejunum and colon respectively.
The size and number of proliferative units have been determined for three regions of the gastrointestinal tract of mice. A review of the literature suggests that considerable strain differences may exist.     

The influence of colonizing micro-organisms on development of crypt architecture in the neonatal mouse colon

The effects of the normal colonizing microflora on postnatal development in the infant mouse were determined by comparison of crypt parameters in histological sections of the ascending colons of conventional specified-pathogen-free mice and their germ-free counterparts. Association of bacteria with the developing colonic mucosa in the third postnatal week caused a lengthening of the crypt column and depressed the total number of secreting goblet cells in each crypt. Thus the increasing bacterial burden during colonization of the developing colon was associated not only with expansion of the proliferative component of the crypt but also with modulation of the relative proportions of crypt cell populations.