Circardian rhythm of mitoses in the epithelium of the cornea after splenectomy]

In corneal epithelium of CBA mice the index of colchicine mitoses diminished after splenectomy in the day period characterized by rising mitotic activity in control animals. The duration of active phase of cell division rhythm shortened while the maximum of mitotic activity delayed in comparison with control animals. The total amount of cells entering mitosis during 24 hours diminished by 27.7% and the rate of physiological regeneration of corneal epithelium decreased.     

Cell population kinetics and the cell population mechanisms of the circadian rhythm of proliferative activity in mouse esophageal epithelium]

The dynamics of 3H-thymidine labeled mitosis and diurnal rhythm of proliferative activity was studied. The isotope was injected to BALB/C mice at the peak of diurnal rhythm of DNA synthesis activity of basal layer cells of oesophageus epithelium. It has been established that the increase in the mitotic index during 24 hours depends on the increase in number of cells being in S-period. The data show that the increase of mitotic index at diurnal rhythm occurs at the expense of 75% of new G0-cells which entered into the mitotic cycle, and of 25% of re-entering cells that had divided during the maximal mitotic activity a day before. It is found that the duration of mitotic cycle of cell population which entered into the mitotic cycle synchronously is almost equal to the period of diurnal rhythm of mitotic activity, i.e. 24 hours.     

Circadian rhythm of the mitotic activity of pulmonary interalveolar septum cells in rats of different ages]

The daily rhythm of mitotic activity in the lungs of the 20-day-dd embryo coincides with the rhythm of the adult organism. The mitotic activity of the 1-, 3- and 10-day-old animals was the maximum in the evening and the minimum-in the morning hours. A definitive rhythm of cells division (with the maximal mitotic activity in the morning and the minimal-in the evening) is established beginning from the 17th day of the postnatal development. The average mitotic activity is very high in the embryos, but it falls immediately after birth. It rises on the 3rd day, and begins to decrease again from the 7th day after birth.     

Circadian influence on the immunization of mice with live Bacillus Calmette-Guérin (BCG) and subsequent challenge with Ehrlich ascites carcinoma

Non-specific immunostimulation with Bacillus Calmette-Guérin (BCG) is of current interest in the treatment of cancer. The main objective of the series of experiments described in this paper was to evaluate the influence the host's circadian system has on a. the stimulation of the immune system with BCG and b. the subsequent efficiency of that stimulated immune system against the Ehrlich Ascites Carcinoma (EAC). There was a circadian rhythm in the length of survival time in non-immunized mice challenged with the EAC. Mice receiving an EAC challenge during the middle of the light period survived significantly longer than those challenged with the EAC around the time of transition from dark to light. Mice immunized with BCG and challenged with EAC also demonstrated a circadian rhythm in the length of survival 30 days after EAC challenge with 86% survivors in the mice treated at 10(00) and 60% survivors in the mice treated at 07(00). The same relationship was also observed 70 and 80 days after EAC challenge. Eighty days after EAC challenge, a circadian rhythm was apparent in the frequency of solid tumors at the site of the initial EAC injection. The highest incidence of solid tumors occurred at 13(00). A circadian rhythm was found in the increase in body weight between the first and second BCG or saline injections. Rectal temperatures recorded on the 8th, 12th and 16th day after EAC challenge were characterized by circadian rhythmicity. In the mice without development of ascites, the peak temperature consistently occurred at 01(00). In the mice with ascites there was a phase advance in the rectal temperature rhythm of 3 h so that the peak in the rhythm consistently occurred at 22(00). In the mice with ascites a further finding was an increasing hypothermia as the ascites continued to develop; however, this hypothermia was not detectable during the time of the peak (10(00)) in the temperature rhythm. The mice which did not die by the 80th day after EAC challenge were challenged again with 5.0 x 10(6) EAC cells, and during the next 46 days circadian variations were observed in the numbers of mice which survived. Similar changes were observed during an additional 46 days after a third EAC challenge of 41.5 x 10(6) cells.     

Circadian rhythms of the parameters of the mouse esophagus epithelial cell kinetics

Circadian rhythms of the mitotic activity, DNA synthesis and the parameters of the mitotic cells of the mouse esophagus epithelium were studied during the periods of maximum and minimum proliferation. The number of mitoses and DNA-synthetizing cells increases rhythmically at 1--7 a. m. from 22 p. m. to 4 a. m., respectively. When 3H-thymidine was injected to the mice at 2 a. m., tG2min was 1h; tG2+1/2 M was 2h; tS was 7.1; tG1+1/2 M was 2h; tS was 7.1; tG1+1/2 M was 15.9h. When 3H-thymidine was injected at 2 p. m., tS rose up to 8.2 and tG1+1/2 M up to 14.8h. The mitotic cycle in both series of experiments totalled 25 h. Thus, the duration of various phases of the mitotic cycle depends on the time of the day and correlates with circadian rhythms of the mitotic activity and the number of DNA-synthetizing cells. Duration of the mitotic cycle of the cells passing through it at varying time of the day is the same and approximates the period of the circadian rhythm of mitoses and DNA synthesis in esophagus epithelium.     

Effect of adrenaline on the mitosis-inhibiting action of a chalone-containing preparation in Ehrlich ascites tumor

The effect of adrenaline and Ehrlich ascite carcinoma (EAC) chalone on cell division was studied. It has been established that EAC chalone inhibited cell proliferation. The action of adrenaline was also accompanied by a decrease in mitotic index, but the inhibitory effect of the hormone was weaker than that of chalone, it occurred later and its duration was less. A combined effect of adrenaline and chalone depended on the time interval between the administration of the substances. It has been found that chalone administration 1 h after adrenaline administration prolonged mitotic inhibitory effect by 4 h and its synchronous action on cell division in EAC was weak during the experiment. Combined effect of adrenaline and chalone did not differ from the effect of chalone alone if chalone was administered 3 h after adrenaline administration.     

Inhibiting effect of plasma from normal and tumour bearing mice on the mitotic rate of regenerating liver

Plasma from normal mice and from mice bearing the ES2 transplantable malignant tumour was injected intraperitoneally at a dose of 0.01 ml/g body weight in partially hepatectomized mice. Control animals were injected with a solution of sodium citrate in saline. The recipients were killed at the first (14:00 hours/48 h). These times are the time of day and the number of h after partial hepatectomy and second (14:00 hours/72 h) peak times after partial hepatectomy. The number of colchicine metaphases per 1000 nuclei was determined for hepatocytes and litoral cells. A different effect was obtained with plasma from tumour-bearing compared with normal mice. Plasma from both sources when injected 26 h after partial hepatectomy (16:00 hours/26 h) inhibited the mitotic activity of hepatocytes at the next peak of regenerative activity (14:00 hours/48 h). The plasma from tumour-bearing mice also inhibited the peak on the following day (14:00 hours/72 h), whereas plasma from normal mice had no inhibitory effect and, indeed, a compensatory wave was observed at this time. Furthermore, plasma from tumour-bearing mice also showed an inhibitory effect at the first peak (14:00 hours/48 h) when injected at the time of partial hepatectomy (14:00 hours/00 h) or at 22 h before partial hepatectomy (16:00 hours/-22 h) whereas the injection of plasma from normal mice at these times had no inhibitory effect. In the litoral cells the injection of plasma from tumour-bearing mice made 22 h before hepatectomy (16:00 hours/-22 h) led to a stimulation of mitotic activity which was controlled at 14:00 hours/48 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Locomotor Activity Rhythm in the Field Mouse Mus booduga Phase-shifts to Melatonin Injections in a Dose-dependent Manner

Melatonin is known to shift the phase of the locomotor activity rhythm in the field mouse Mus booduga in accordance with a type-I phase response curve (PRC), with phase delays during the subjective day and phase advances during late subjective night and the early subjective day. At CT4 (circadian time 4; i.e. 16 hr. after activity onset) and CT22 of the circadian cycle, a single dose of melatonin (1 mg/kg) is known to evoke maximum delay and maximum advance phase-shifts, respectively. We investigated the dose-dependent responses of the circadian pacemaker of these mice to a single dose of melatonin at the times for maximum delay and maximum advance. The circadian pacemaker responsible for the locomotor activity rhythm in these mice responded to various doses of melatonin in a dose-dependent manner with the magnitude of phase shifts increasing with dose.     

Locomotor Activity Rhythm in the Field Mouse Mus booduga Phase-shifts to Melatonin Injections in a Dose-dependent Manner

Melatonin is known to shift the phase of the locomotor activity rhythm in the field mouse Mus booduga in accordance with a type-I phase response curve (PRC), with phase delays during the subjective day and phase advances during late subjective night and the early subjective day. At CT4 (circadian time 4; i.e. 16 hr. after activity onset) and CT22 of the circadian cycle, a single dose of melatonin (1 mg/kg) is known to evoke maximum delay and maximum advance phase-shifts, respectively. We investigated the dose-dependent responses of the circadian pacemaker of these mice to a single dose of melatonin at the times for maximum delay and maximum advance. The circadian pacemaker responsible for the locomotor activity rhythm in these mice responded to various doses of melatonin in a dose-dependent manner with the magnitude of phase shifts increasing with dose.     

Relation between the mitosis-inhibitory activity of a chalone preparation of Ehrlich ascites tumor and its diurnal secretion

Mitosis inhibitory activity of chalone-containing preparations extracted from cells of Ehrlich's ascites carcinoma (EAC) at varying time of day (9, 13, 17, 21 1, 5 and 9 o'clock) was studied in a temporary suspension culture of EAC. The inhibitory action of the preparations depended on the time of their extraction. This may be indicative of rhythmical alterations of the production or activity of EAC chalone. The maximum activity was demonstrated by the preparations extracted at 5, 9 and 13 o'clock. The activity of the preparations, extracted at 17, 21 and 1 o'clock was considerably less. The degree of mitotic activity inhibition also depends on the dose of duration of action of the chalone-containing preparation.     

Tissue-specific inhibition of cellular proliferation in Ehrlich ascites tumor]

The extract of cells of ascitic Ehrlich's tumour (chaloun) and its cell-free fluid produced a marked inhibitory action on the cell proliferation of this tumour four hours after the administration. The effect is tissue-specific, more pronounced in the extract and depends on the dose of the antigen. Eight hours after the extract or the cell-free fluid administration the mitotic activity in the tumour proved to increase in comparison with control; this indicated the presence of a short-lived chaloun action on the G2-phase of the mitotic cycle and synchronization of cell division.     

Effect of ACTH on circadian periodicity of nuclear volume and mitotic division in the zona fasciculata externa of the adrenal cortex of mice.

In cells of the zona fasciculata externa of the adrenal cortex of mice, the maximal value of nuclear volume is observed in evening and night time, while the mitotic peak occurs in the early part of the day. Ten day subcutaneous injection of 1.5 units of ACTH twice in 24 hr produced nuclear hypertrophy and stimulation of mitotic activity of cells of the zona fasciculata externa. The circadian periodicity of nuclear volume in mice injected with ACTH is disturbed, while the circadian rhythm of mitotic activity is retained.     

MOSQUITO LARVAE EXTRACT INDUCES MITOTIC RATE ALTERATIONS OF MICE TONGUE KERATINOCYTES ALONG A CIRCADIAN RHYTHM PERIOD

It has been demonstrated that the crude extract of mosquito larvae alters the mitotic rate of several mouse cell populations of young growing mice (25±1 days old). Furthermore, the dialysed fraction of the extract inhibited proliferation of hepatocytes from hepatectomized adult male mice (90 days old). Sampling during the period between 16 and 24 h after treatment (when mitotic peak normally occurs) shows an inhibiting effect on the G1/S interphase, whereas evaluation during the dark phase of the circadian rhythm period (i.e. 4 to 12 h after treatment) shows an increment of the mitotic rates suggesting a probable effect at G2/M restriction point. In the present paper we report the effect of the mosquito larvae crude extract on the proliferative activity of tongue keratinocytes along a circadian rhythm period. Treatments were intra-peritoneally applied at 16/00 Time of Day/Time Post Injection and mice were killed at 00/08, 04/12, 08/16, 12/20 and 16/24 TD/TPI. As other cell populations previously analysed, the mitotic rate of tongue keratinocytes of extract receivers was significantly increased during night (when S phase normally occurs) and inhibited during the 08/16 to 16/24 period.     

The effect of 5-fluorouracil on the mitotic cycle and DNA synthesis in the epithelium of mouse small intestine.

The examinations were performed on 42 mice of the Porton strain. The experimental animals were injected intraperitoneally with the dose of 75 mg of 5-fluorouracil per kg body weight. The first experimental group received injections of [3H]thymidine within 48 hours and the second group within 96 hours of the injection of 5-fluorouracil. Two mice from each group were killed at within 1, 2, 4, 8, 12, 24, and 48 hours of the [3H]thymidine injection. Calculations of the mitotic index and time of duration of individual phases of the mitotic cycle in epithelial cells of the small intestine were based on application of the autoradiographic method. These studies lead to the conclusion that 5-fluorouracil disturbs the course of metabolic processes in the cell, which are also related with the distribution of the genetic material. Histological examinations show that 5-fluorouracil produces profound morphological changes in the intestine, which affect both the intestinal epithelium and the connective tissue stroma. The autoradiographic tests revealed a considerable suppression of the mitotic activity of the epithelium of intestinal crypts. Moreover, it was shown that 5-fluorouracil inhibits the mitotic activity of the intestinal epithelium by diminishing the number of cells capable of entering into mitosis. Nevertheless, by 96 hours following introduction of a single dose of 5-fluorouracil normal morphological structure and mitotic activity of the intestinal wall cells are restored.     

CORRELATION BETWEEN TISSULAR AND DIVISION FUNCTIONS IN THE LIVER OF YOUNG RATS

The division and tissue specific functions are studied in the liver of young rats during the first post-natal weeks. The division function is tested by the mitotic and the ³H-thymidine labelling index, the specific tissular function by the cholesterol-7 alpha-hydroxylase activity. The nycthemeral rhythm is triggered simultaneously for the two functions at the 20th day of life. From this time, spontaneous or induced mitoses occur during the day (rest period) and the cholesterol-7-alpha-hydroxylase during the evening (period of activity). The results are explained by the influence of the hypothalamoadrenal axis, which presents a circadian activity with a maximum in the evening.     

Circadian synchronization of hepatocyte proliferation in young rats: the role played by adrenal hormones

The circadian rhythm of hepatic cell proliferation in rats appears on the 20th day of life, when the hypothalamo-adrenal axis is mature enough for circadian activity to occur. From the 20th day to the 30th day of life, the mitotic rhythm is progressively induced by a reduction in nocturnal values, while diurnal rhythms remain unchanged. Mitotic peaks emerge at 10.00 hours. A labelling index wave occurs 8 hr before the corresponding mitotic wave, with a peak at 02.00 hours and a minimum in the evening, coincidental with the acrophase of plasma corticosterone level (activity phase). Labelled mitoses curves and metaphase accumulation after colchicine injection show that the duration of the S, G2 and M phases remain approximately constant and that the circadian variation is due to a variation in the rate of cells that enter these successive phases. During the synchronization period (from day 20 to 30), the growth fraction decreases progressively. Adrenalectomy at this time is followed by a higher cell proliferation and all rhythms disappear after 2 days. Corticosterone injected before the triggering of the rhythmic activity in 17-day-old rats immediately reduces the labelling index, while the mitotic index is decreased 10 hr later; this delay is equal to the S + G2 duration. The results are discussed. They favour the hypothesis that the circadian variation of corticosterone is responsible for the induction of a circadian variation in developmental cell proliferation by inhibition of the G1-S transition when it is higher in the evening.     

A comparison of the proliferative activity of astrocytes and astrocyte-like cells expressing vimentin in the injured mouse cerebral hemisphere.

After an unilateral injury of the cerebral hemisphere, 28 nice were injected with 3H thymidine at different intervals following the injury. Thereafter, the distribution of autographically labelled astrocytes expressing glial fibrillary protein (GFAP) and astrocyte-like cells expressing vimentin were recorded within the region of injury. Proliferative activity of the two cell types started at the same time, i.e. 24 h. after injury, reached its maximum on day 4, and returned to normal level after the 8th posttraumatic day. However, on day 4 the number of proliferating GFAP-positive astrocytes was about 50% higher than that of vimentin-positive cells. This was regarded as a proof of the concept that a significant number of astrocytes did not express vimentin during its mitotic cycle. Those facts were considered as an evidence against the hypothesis that a reactive astrocyte division induces a two-stage increase in the cytoskeletal proteins level with the elevated synthesis of vimentin preceding that of GFAP.     

Effect of thyroxine on the diurnal rhythm of the mitotic activity and parameters of the life cycle of cells of the liver and esophagus]

The duration of the cellular cycle and the diurnal rhythm of the amount of mitosis were studied in young rats in normality and under the influence of thyroxin. The parenchymal and connective-tissue cells of the liver and cells of the liver and the cells of the oesophagus epithelium basal layer were studied. It was found that under the influence of thyroxin there occured a shortening of the periods of the cellular cycle and a 3--6 h shift to the left of the diurnal rhythm curve of the amount of mitoses. In thyroxinized animals the 21--95% increase of the amount of mitoses in the period of maximum values of the mitotic index during a day was observed as compared with control animals. A conclusion is made about the diurnal rhythm of sensitivity of G0-phase cells to the synchronizing factor, suggesting the decisive significance of the state of the cell population in the interaction of the tissue and hormone cells. The data obatained in the work show that the thyroid hormones regulate the cellular reproduction in the organism by stimulating the cells in the division cycle, synchronization of greater amount of cells by the moment of beginning of the mitotic cycle at a definite time of day and by shortening the period of the cell mitotic cycle.     

Circadian synchronization of hepatocyte proliferation in young rats: the role played by adrenal hormones

Abstract. From the 20th day to the 30th day of life, the mitotic rhythm is progressively induced by a reduction in nocturnal values, while diurnal rhythms remain unchanged. Mitotic peaks emerge at 10.00 hours.
A labelling index wave occurs 8 hr before the corresponding mitotic wave, with a peak at 02.00 hours and a minimum in the evening, coincidental with the acrophase of plasma corticosterone level (activity phase).
Labelled mitoses curves and metaphase accumulation after colchicin injection show that the duration of the S, G₂ and M phases remain approximately constant and that the circadian variation is due to a variation in the rate of cells that enter these successive phases. During the synchronization period (from day 20 to 30), the growth fraction decreases progressively. Adrenalectomy at this time is followed by a higher cell proliferation and all rhythms disappear after 2 days.
Corticosterone injected before the triggering of the rhythmic activity in 17-day-old rats immediately reduces the labelling index, while the mitotic index is decreased 10 hr later; this delay is equal to the S + G₂ duration.
The results are discussed. They favour the hypothesis that the circadian variation of corticosterone is responsible for the induction of a circadian variation in developmental cell proliferation by inhibition of the G₁-S transition when it is higher in the evening.
The circadian rhythm of hepatic cell proliferation in rats appears on the 20th day of life, when the hypothalamo-adrenal axis is mature enough for circadian activity to occur.     

Duration of mitosis in mouse thymus cortex cells under normal conditions and after antigen administration at different times of the day]

The influence of an antigen injected at different periods of the circadian mitotic activity on the cell proliferation in the thymus cortex was studied. The duration of mitosis and the number of cells entering division were determined. A pronounced stimulating effect of immunization with sheep red blood cells entering mitosis increased, while the duration of mitosis diminished (colchamine mitotic index was 29.79 percent in control mice, and 47.99 percent in the immunized ones. The duration of mitosis was 0.4 hours in control animals, and 0.24 hours in the immunized ones. When compared with intact mice, the animals immunized in the evening showed no significant changes in the parameters studied.