[Neoplastic effect of indomethacin in N-methyl-N-nitrosourea induced mammary carcinogenesis in female rats]. / Neoplastické úcinky indometacínu v N-metyl-N-nitrozoureou indukovanej mamárnej karcinogenéze u samíc potkanov.

BACKGROUND: High levels of prostaglandins found in many neoplastic tissues, especially in colon cancer and breast cancer, suggest a role of cyclooxygenase in the process of carcinogenesis. MATERIAL AND METHODS: The aim of this study was to analyse the chemopreventive potential of non-steroidal inflammatory drug indomethacin and its combination with pineal hormone melatonin in rat mammary carcinogenesis induced by N-methyl-N-nitrosourea. Indomethacin was administered 3 times a week and melatonin 4 times a week, both substances in a concentration of 20 µg/ml of drinking water. Chemoprevention began approximately 2 weeks before carcinogen administration and lasted until the end of the experiment 25 weeks later. RESULTS: Indomethacin administered alone and in combination with melatonin stimulated the growth of mammary tumors. We found a significant increase in the average tumor volume caused by indomethacin alone by 126%, and in combination with melatonin by 104% compared to the control group. Indomethacin administered alone increased the incidence of tumors by 21.5% (also in combination with melatonin) and reduced the tumor latency by 17 days compared to controls. Melatonin alone significantly reduced tumor volume in comparison with control animals. During the long-term administration, both substances were well tolerated by animals. CONCLUSION: Indomethacin, a predominant cyclooxygenase inhibitor-1, showed significant neoplastic effects in the prevention of N-methyl-N-nitrosourea induced rat mammary carcinogenesis. This finding is in strong contrast to our previous experiment, where indomethacin in 7,12-dimethylbenz(a)anthracene-induced rat mammary carcinogenesis revealed marked antineoplastic effects.

Celecoxib and melatonin in prevention of female rat mammary carcinogenesis.

The present experiment aims to evaluate tumor suppressive effects of a selective inhibitor of cyclooxygenase-2 (COX-2) celecoxib (Celebrex, Pfizer) administered alone and in combination with melatonin in the prevention of N-methyl-N-nitrosourea (NMU)-induced mammary carcinogenesis in Sprague-Dawley female rats. Celecoxib was administered daily at a concentration of 1.666 g/kg diet to two groups during 20 weeks (starting a week before first NMU application). A combination of celecoxib and melatonin applied in drinking water (20 microg/ml drinking water), daily from 15:00 to 08:00 hours was administered to the second group. The anticarcinogenic effects of chemopreventive drugs were compared with control (NMU) animals. Celecoxib administration decreased mammary tumor incidence (by 24%), while combination of celecoxib and melatonin decreased tumor incidence even more significantly (-30%). Significant decrease in tumor frequency per group was recorded in both groups with chemoprevention: celecoxib alone (-54%) and combination of celecoxib and melatonin (-64%). Celecoxib significantly influenced tumor frequency per animal in the group with combination of both protective substances (-52%). Celecoxib administration resulted in prolonged latency by 3%, and by 13% in the group with combination of both protective substances. These results confirm preventive effects of celecoxib in induced rat mammary carcinogenesis. The administration of isolated MEL had only lesser effect, but in the combination with CELE revealed some potentiating influence in mammary carcinogenesis inhibition. The present study is the first to prove efficacy of the above-mentioned celecoxib and melatonin intake. Our results point to the need for a deeper analysis of coxib efficacy in human carcinogenesis.

Metformin in chemically-induced mammary carcinogenesis in rats.

In this paper the chemopreventive effect of peroral antidiabetic metformin in mammary carcinogenesis in female Sprague-Dawley rats was evaluated. Mammary carcinogenesis was induced by N-methyl-N-nitrosourea (NMU) administered in two intraperitoneal doses each per 50 mg/kg b.w. between 43.-55. postnatal days. Metformin was administered in drinking water (at a concentration of 50 microg/ml and 500 microg/ml) 13 days before the first NMU dose until the termination of the experiment. During the experiment the animals were weekly weighed and palpated for the presence of mammary tumors, the incidence, latency, tumor frequency, and tumor volume were recorded. The experiment was terminated 18 weeks after the first NMU dose, basic tumor growth parameters and metabolic and hormonal variables were evaluated. Metformin did not significantly alter the tumor growth although a delay in tumor onset was recorded after higher metformin dose. Metformin altered metabolic and hormonal variables. Insulinemia decreased after both metformin doses in comparison with intact rats without changes in glycemia, triacylglycerols concentration was decreased in liver and increased in serum when compared to intacts. Higher metformin dose attenuated lipoperoxidation in liver.

Prolonged melatonin administration in 6-month-old Sprague-Dawley rats: metabolic alterations.

The aim of this work was to evaluate the effect of prolonged melatonin administration on chosen metabolic and hormonal variables in male and female Sprague-Dawley rats. Melatonin was administered in tap water (4 microg/ml) daily from the 6th month of age. Rats were fed a standard type of diet ad libitum and were kept in a light regimen L:D--12:12h. The experiment was terminated after 12 weeks of melatonin administration. Melatonin decreased body mass during the whole experiment in females and from the 42nd day of the experiment in males. Relative heart muscle weight in females and absolute/relative thymus weight in males were increased after melatonin administration. Melatonin decreased glycaemia, heart muscle glycogen concentration in females and liver glycogen concentration in both sexes. Serum insulin concentration in males was decreased; serum corticosterone concentration was increased in both males and females. Serum triacylglycerol and heart muscle cholesterol concentration in females were decreased, however in males serum and heart muscle cholesterol concentration was increased. Liver phospholipid concentration in females was decreased and heart muscle phospholipid concentration in males was increased. Melatonin increased malondialdehyde concentration in heart muscle in males and in liver in both sexes. Melatonin induced prominent sex-dependent changes in both carbohydrate and lipid metabolism.

Effect of prolonged psychoemotional stress and melatonin on experimental mammary carcinogenesis in female rats.

The aim of the present study was to determine whether prolonged stress repeated immobilization in boxes during the period of 18 weeks (IMS) influenced development and progression of N-methyl-N-nitrosourea (NMU)-induced mammary tumors in female Sprague-Dawley rats and whether long-term MEL application affected changes caused by stress. NMU was applied intraperitoneally in two doses each of 50 mg/kg b.w. between 40-50 postnatal days. Melatonin (MEL) was administered in drinking water in a concentration of 4 microg/ml (daily from 3 p.m to 8 a.m), application was initiated 3 days prior to first NMU dose and lasted until the end of the experiment. Immobilization (2 h/day) began on the fifth day after second carcinogen application, animals were immobilized three times a week. Repeated immobilization of rats during 18 weeks decreased tumor frequency per group and per animal by 30% and tumor volume gain by 16% as opposed to control (NMU) animals. Combination of repeated immobilization and a long-term MEL application lowered incidence by 13% when compared to control, prolonged latency by 13%, decreased tumor frequency per group (by 44%) and per animal (by 35%). Tumor volume gain increased by 35% but their cumulative volume prominently decreased by 74% as opposed to control. Tumor volume was the most markedly influenced by MEL, induced tumors developed more rapidly tumor volume gain increased by 61%. However, their cumulative volume markedly decreased by 75% when compared to immobilized group drinking water. Prolonged stress inhibited development and progression of NMU-induced mammary gland tumors in female rats and this effect was enhanced by long-term melatonin administration.

NMU-induced mammary carcinogenesis in female rats is influenced by repeated psychoemotional stress.

Epidemiological and experimental studies indicate psychoemotional stress as an important factor in carcinogenesis. The aim of this study was to evaluate the effect of restraint stress on N-nitroso-N-methylurea (NMU)-induced mammary carcinogenesis. Female Sprague-Dawley rats were injected with two intraperitoneal NMU doses each per 50 mg/kg b.w. between 39-49 postnatal days. Three experimental groups were created: 1. NMU (without restraint--control group, 12 animals), 2. NMU+1IMS (group with single restraint, IMS--immobilization stress, 12 animals), 3. NMU+7IMS (group restrained 7 times during a week, 12 animals). Animals were immobilized daily in special boxes for 120 minutes or 7 x 120 minutes, respectively from third day after carcinogen administration. The observation lasted for 20 weeks. The incidence, frequency, latency and volume of mammary tumors were evaluated. In repeatedly immobilized group NMU+7IMS increase in tumor incidence by 57% (p<0.05), marked increase in frequency per group by 153% (p<0.01), increase in frequency per animal by 61% and shortened latency period by 7 days were recorded. The effect of single restraint was not seen. In this experiment repeated immobilization carried out early after carcinogen administration had a remarkable stimulatory effect on chemically-induced mammary carcinogenesis in female rats.

Nimesulide and melatonin in mammary carcinogenesis prevention in female Sprague-Dawley rats.

Tumorsuppressive effects of a selective inhibitor of cyclooxygenase-2 (COX-2) nimesulide (NIM) activity and pineal hormone melatonin (MEL) and their combination in two chemopreventive studies of mammary carcinogenesis were evaluated. Mamary tumors in female Sprague-Dawley rats were induced by N-methyl-N-nitrosourea (NMU) and by 7,12-dimethylbenz(a)anthracene (DMBA), respectively. The treatment with NIM (applied subcutaneously twice a week in the dose of 5 mg/kg b.w.) and MEL (given daily diluted in drinking water in concentration 20microg/ml) began several days before carcinogen administration and lasted until the end of the experiment. The tumor incidence, frequency, latency period and tumor volume as parameters of mammary carcinogenesis were evaluated. Moreover, the effect of chemopreventives on body weight, food and water intake were recorded. Changes of selected parameters of lipid and carbohydrate metabolism in the serum and chosen organs were evaluated in the NMU experiment. In the NIM-treated group in the NMU experiment, the tumor incidence decreased by 34.5% (p < 0.05), tumor frequency per group by 40% (p < 0.05) and tumor volume gain by 39% when compared to the control group. Tumorsuppressive effect of MEL was not observed. In DMBA-induced carcinogenesis an oncostatic effect of NIM was not observed; MEL administration decreased tumor incidence by 21.5% (p < 0.05), tumor frequency per group by 22.5% and tumor volume gain by 43.5%. Combined chemoprevention of NIM+MEL was very similar to that of chemopreventives administered alone. MEL lowered food and water intake and body weight gain in DMBA-induced carcinogenesis. It increased glycogen and cholesterol content in the liver, triacyglycerol and phospholipid concentrations in the bone marrow and decreased malondialdehyde concentration at the same tissue of tumor-bearing animals. NIM did not significantly influence the selected metabolic parameters, excepting the decrease in serum glucose concentration in tumor-bearing rats.

Effect of K, MG aspartate on some biological parameters of aging rats.

The effect of K and Mg salts of aspartic acid (Cardilan) on the serum concentration of selected proteins and phagocytic activity in aging male Wistar rats was investigated. Cardilan was administered in tap water for 7 days a month for 3 months before the last observed interval (12, 18 and 24 month). In a part of animals, the aging process was accelerated by sublethally gamma-irradiation. The administration of Cardilan slowed down the changes in the concentration of prealbumin, albumin, haptoglobin, haemopexin, C3 complement in non-irradiated rats (DC). This effect was extended to the changes in transferrin level in irradiated rats (IDC). The phagocytic activity in both DC, IDC rats was lower compared with controls drinking water (DW, IDW), but not significantly. The effect of Cardilan administration appears to be the greatest in 24-month-old rats, when the treated animals survived better by 25% in IDC group and by 26% better in DC rats, compared with those of the same age controls. Potassium and magnesium salts of aspartates are suitable compounds for life prolongation in the experimental conditions.

Variability of mammary carcinogenesis induction in female Sprague-Dawley and Wistar:Han rats: the effect of season and age.

It is important to determine and clarify the variability of mammary carcinogenesis induction in animal experimental studies particularly in connection with chemoprevention projects. The circannual seasonal rhythms of hormone levels or various parameters within the immune system may involve factors participating in mammary gland carcinogenesis. In our study, 19 experiments were conducted and all of them lasted for about 25 weeks after chemical carcinogen administration (DMBA or NMU) under standard laboratory conditions. Females of two rat strains - a medium susceptible Sprague-Dawley strain and a very low susceptible Wistar:Han were used. We observed not only the effect of seasonal changes but also the effect of age after single or repeated carcinogen administration. The seasonal dependence of mammary carcinogenesis with higher tumor incidence during long days in comparison with winter short days has been demonstrated in Sprague-Dawley rats. In experiments on the Wistar:Han strain, certain features of seasonal character were recorded, although the very low susceptibility of this strain to mammary carcinogenesis might have influenced the results. A limited period of carcinogen administration in early puberty around postnatal days 43-46 (higher susceptibility), when compared to the period after postnatal day 50, is the factor significantly increasing incidence and frequency of mammary carcinogenesis in the Sprague-Dawley strain. Our results indicate the need to consider the effect of season and age of animals at the time of carcinogen administration on rat mammary carcinogenesis induction. However, the application of the results obtained in one strain of experimental animals may only lead to misleading conclusions.

Preventive effects of raloxifene and melatonin in N-methyl-N-nitrosourea-induced mammary carcinogenesis in female rats.

The aim of this study was to evaluate preventive effects of raloxifene (RAL), melatonin (MEL) and their combination in N-methyl-N-nitrosourea (NMU)-induced rat mammary carcinogenesis. MEL-treatment began 12 days and RAL treatment began 10 days prior to carcinogen administration and continued till the end of experiment (24 weeks after first carcinogen administration). RAL was administered subcutaneously twice a week in the dose of 5 mg/kg b.w. MEL was administered diluted in drinking water in a concentration 4 microg/ml daily from 3 p.m. to 8 a.m. At the end of experiment, tumor incidence, frequency, latency period and tumor volume as parameters of mammary carcinogenesis were evaluated. Moreover, the effect of chemopreventives on body and uterine weight, food and water intake were recorded. In RAL-treated group, tumor incidence was decreased by 67% (p < 0.001), tumor frequency per group was reduced by 90% (p < 0.0002) and latency period lengthened by 27 days in comparison with control group. After MEL-treatment tumor incidence was decreased by 19%, tumor frequency per group was decreased by 50% (p < 0.05) when compared to control animals. The effect of RAL+MEL-treatment was very similar to that of RAL-treatment. In groups with RAL administration, significant decrease (p < 0.0001) in body weight gain and relative uterine weight was recorded. As to food intake no significant differences in comparison with control group were found. Consequently, groups were pooled and in RAL-treated groups (RAL, RAL+MEL) a decrease in food intake, when compared to groups without RAL administration (control group, MEL) was recorded (p<0.04). The water intake was markedly decreased in RAL-treated groups (P < 0.0001). RAL and RAL+MEL proved to be very effective in prevention of experimental mammary carcinogenesis in female rats, isolated MEL appeared to be of lower oncostatic activity.

Preventive effect of indomethacin and melatonin on 7, 12-dimethybenz/a/anthracene-induced mammary carcinogenesis in female Sprague-Dawley rats. A preliminary report.

The aim of the experiment was to analyse the oncostatic effect of nonsteroidal antiinflammatory drug INDO, hormone MEL and combination of both substances in DMBA-induced mammary carcinogenesis in female SD rats. Chemoprevention started 10 days before the application of the first dose of DMBA to 35-day-old rats. INDO was administered in tap water (20 microg/ml of water) for 3 days in a week (days 2, 4 and 6), MEL solution in the concentration of 20 microg/ml of tap water was administered between 3 p.m. and 8 a.m. for 4 days in a week (days 1, 3, 5 and 7); during other days the animals drank tap water only. In combined chemoprevention, rats were drinking solutions of INDO and MEL according to the above-mentioned scheme. DMBA in the dose of 10 mg/rat was administered intragastrically using a probe to all rats 3 times on postnatal days 45, 50 and 55. There were four experimental groups: group 1--without chemoprevention, group 2--INDO treatment, group 3 --MEL treatment, group 4--application of INDO + MEL. The experiment lasted 26 weeks from the first administration of DMBA, when the final incidence and frequency of tumours per animal and group, as well as latency and average volume of tumours were evaluated. The content/concentration of malondialdehyde (MDA) was determined in selected tissues as a criterion of lipoperoxidation, considering its potential influencing by chemoprevention. The tumour incidence in controls was 100%; INDO reduced the incidence (36.84%) and frequency per group and animal, decreased the mean volume of tumours and prolonged the latency. Chemoprevention using combination of INDO with MEL was successful like that with INDO; however, it did not influence the tumour volume. MEL decreased the incidence to 42.11% and pronouncedly reduced the tumour frequency per group. INDO, administered alone or in combination with MEL, reduced an increased content/concentration of MDA in the liver, bone marrow and serum of tumour-bearing rats. INDO, MEL and INDO + MEL had a pronounced chemopreventive effect and showed to be a favourable combination in prevention of experimental mammary carcinogenesis.

Effects of tamoxifen and melatonin on mammary gland cancer induced by N-methyl-N-nitrosourea and by 7,12-dimethylbenz(a)anthracene, respectively, in female Sprague-Dawley rats.

Chemopreventive effects were analysed of antioestrogen TAM and of MEL on NMU- or DMBA-induced mammary gland cancer, respectively, in female Sprague-Dawley rats. NMU was administered intraperitoneally in two doses each of 50 mg/kg b.w. between 46th-57th postnatal days. DMBA was given by gavage in one dose (20 mg per animal) between 50th-54th postnatal days. The treatment with MEL began 12 days and the treatment with TAM 10 days before carcinogen administration; both chemopreventive substances were administered until the end of the experiment (24 weeks after carcinogen application). TAM was administered subcutaneously twice a week in a dose 2.5 mg/kg b.w. MEL was given in tap water (20 mg/ml) daily between 3 p.m. to 8 a. m. The tumour incidence, tumour frequency per group and animal, latency period, tumour volume, body weight gain in the rats and weight of uterus (in the experiment with NMU) were evaluated. TAM suppressed carcinogenesis to 0% incidence like TAM+MEL in both the NMU and DMBA models. In NMU-induced mammary carcinogenesis MEL lowered the tumour volume (although statistically non-significantly) by 30% in comparison with the control group; in DMBA-induced mammary carcinogenesis it lowered the tumour volume (2.70 +/- 0.81 cm3 vs. 0.90 +/- 0.33 cm3) and lengthened (non-significantly) the latency period (by 12 days). The weight gain of animals in both NMU and DMBA models and relative uterus weight in the NMU model were significantly lower in the groups treated with TAM and TAM+MEL as compared to the control group and the group treated with MEL. Evaluation of the combined effect of TAM+MEL was not possible due to total suppression of carcinogenesis by TAM. TAM and TAM+MEL are highly effective agents in rat mammary carcinogenesis prevention, but the side effects of TAM in humans limits its use in clinical oncology.

Mammary carcinogenesis induced in Wistar:han rats by the combination of ionizing radiation and dimethylbenz(a)anthracene: prevention with melatonin.

The primary cancer chemoprevention is an important topic of experimental oncology. We have analyzed the possible oncostatic properties ofmelatonin in a combined model of radiation plus chemocarcinogen-induced mammary carcinogenesis. Virgin female rats of Wistar:Han strain were continuously irradiated with daily dose 96 mGy of gamma rays up to 15 days. At the end of irradiation, between 52-60 postnatal days, 7,12-dimethylbenz(a)anthracene was administered by gavage, in three 10 mg/rat consecutive doses. A part of animals drank melatonin in a concentration 100 microg/ml of tap water, continuously from the beginning of irradiation and 26 weeks after its end. The aim of the experiment was to investigate the preventive effect of melatonin on mammary tumor patterns. Relatively low incidence of mammary tumors in the noninfluenced group was probably connected with generally very low sensitivity of Wistar:Han female rats to single dose of chemocarcinogen in mammary carcinogenesis induction. In our trial melatonin decreased markedly the volume of mammary tumors, but did not influence any other tumor characteristics. The chemopreventive effect of melatonin, derived from in vivo realized mammary carcinogenesis study in female Wistar:Han rats was limited. The cancer preventive properties of melatonin should be investigated in the future especially from the standpoint of susceptible strain, effective doses, and mode plus sufficient length of application.

Repeated administration of carcinogen in critical developmental periods increases susceptibility of female Wistar: han rats to mammary carcinogenesis induction.

Analysis and knowledge of individual strain susceptibility of experimental animals to induction of carcinogenesis is important especially in regard to possibility of transfer of these facts to human pathology, first of all to chemopreventive projects. Our group (AHLERS et al. [1]) reported very low sensitivity of female Wistar:Han rats to induction of mammary carcinogenesis by 7,12-dimethylbenz(a)anthracene (DMBA) and by N-methyl-N-nitrosourea (NMU). The aim of this paper was to increase the sensitivity of females of this strain to mammary carcinogenesis induction by repeated administration of NMU in a dose 50 mg/kg of b.w. in critical periods: on 3-4 postnatal days, on 21 day (critical period for development of ductal parts of mammary gland) and between 50-55 days (maximal proliferation of whole gland). In comparison with 38% incidence of mammary tumors after the single dose and 65% incidence after 3 subsequent doses between 50-60 days, the combination of administration (only) on 21 day and between 50-55 postanatal days resulted in 88% incidence the sensitivity of animals reached the level of highly susceptible rat strains. The latency period was significantly increased in groups with NMU given on 3-4, 21 days and between 45-55 days respectively, on 21 day and between 45-55 days in comparison with control group (one dose of NMU). The tumor frequency per group and per animal in all groups with repeated NMU administration was significantly higher than that of control group. The volume of tumors was not influenced either by repeated carcinogen application or by time of its administration. These results expand the possibilities of analysis of carcinogen effects in individual periods of rat postnatal development.

Melatonin and retinyl acetate as chemopreventives in DMBA-induced mammary carcinogenesis in female Sprague-Dawley rats.

One goal of experimental oncology is to find and test effective chemopreventive substances which can suppress malignant transformation of the cells, their accumulation and invasion. Mammary gland tumours were induced by DMBA applied intragastrically (10 mg/rat, three times) every three days between postnatal days 50 and 60 in female Sprague-Dawley rats. One day after the last dose we started chemoprevention with Mel, RA and combination of both drugs, which lasted 25 weeks. Mel was drunk continuously as a solution in tap water (100 micrograms/ml). RA was applied daily in the dose of 8.2 mg/rat at the base of the tongue. There were four experimental groups: 1. control--no chemoprevention, 2. Mel treatment, 3. RA treatment, 4. application RA + Mel. At the end of the experiment the incidence, frequency, latency and average volume of tumours were evaluated. In the group treated with Mel tumour incidence, latency and volume did not differ from controls; the frequency of tumours was decreased. Treatment with RA and with combination RA + Mel decreased mammary tumour incidence to 38% (RA) and 48% (RA + Mel); it also decreased frequency and prolonged latency. Thus chemoprotective effects of RA and combination of RA with Mel were proved in mammary carcinogenesis induced by DMBA. The oncostatic effect of Mel alone was not confirmed. In our recent paper (Bojková et al., 2000) drinking of lower doses of Mel during the late afternoon and night prolonged the latency period and in combination with RA showed an oncostatic effect on mammary carcinogenesis induced by NMU. Further studies are needed to elucidate the conditions of successful chemoprevention with Mel.

Effects of retinyl acetate and melatonin on N-methyl-N-nitrosourea-induced mammary carcinogenesis in rats. A preliminary report.

The aim of this project was to evaluate the effect of retinyl acetate (RA), melatonin (Mel) and their combination on N-methyl-N-nitrosourea (NMU)-induced rat mammary carcinogenesis. Female Sprague-Dawley rats were given two intraperitoneal doses of NMU, each of 50 mg/kg of b.w. between 43rd to 57th postnatal day. The administration of RA started 11 days and the administration of Mel 12 days before the first dose of NMU. RA was given daily in a dose of 8.2 mg per animal and day at the base of the tongue. Mel was given as a solution (20 micrograms/ml of tap water) between 3 p.m. and 8 a.m., from 8 a.m. to 3 p.m. the animals were drinking tap water only. The experiment was finished 22 weeks after the first administration of the carcinogen. The tumour incidence in the control group was 88%, in the group treated with RA 80% and in the group treated with Mel 61%. A substantial decrease in tumour incidence to 37% was noted in the group treated with RA plus Mel. Significant differences in incidence were noted in the group treated with the combination of RA and Mel as compared to the control group and the group treated with RA. Chemoprevention lengthened the latency significantly in the group treated with Mel and with the combination of RA and Mel. The decrease in tumour frequency per group was confirmed in the group treated with the combination of RA and Mel; differences between groups in the frequency per tumour-bearing animal were not observed. The volume of mammary tumours in the groups treated with chemopreventive agents was not changed.

Two-phase response of rat pineal melatonin to lethal whole-body irradiation with gamma rays.

Male Wistar rats adapted to artificial light:dark (LD) regimen 12:12 h were whole-body irradiated with a single dose of 9.6 Gy of gamma rays and sham/irradiated in the night in darkness. The rats were examined 60 min, 1, 3 and 5 days after exposure between 22:00 and 01:30 h in the darkness. The results obtained indicate a two-phase reaction of pineal melatonin after the lethal irradiation of rats: the decline of melatonin concentration early after the exposure (at 60 min) with unchanged serotonin N-acetyltransferase (NAT) activity followed by an increase of melatonin synthesis, accompanied by an increase of pineal and serum melatonin on day 5 after the exposure. NAT activity was increased on day 3 after the exposure. Serum corticosterone concentrations in irradiated rats were increased 60 min and 3 days after exposure. With respect to the antioxidant, immunomodulating and stress-diminishing properties of melatonin, we consider the increase in melatonin synthesis during later periods after irradiation as part of adaptation of the organism to overcome radiation stress.

Daily rhythm in rat pineal catecholamines.

A daily rhythm in the oscillations of pineal dopamine, norepinephrine and epinephrine content was found in male Wistar: Han rats. The acrophases of the oscillations were localized in the first half of the dark period and generally higher values were found in the dark part of the day.

Reduced pineal melatonin biosynthesis in fractionally irradiated rats.

The effects of ionizing radiation on pineal melatonin and on key enzymes of its metabolism have been studied in our laboratory. After adaptation to an artificial light/dark cycle of 12:12 h, male Wistar rats were fractionally whole-body irradiated with a dose of 2.4 Gy of gamma-rays twice a week up to total doses of 4.8, 9.6 or 14.4 Gy. Irradiation and sham-irradiation were performed in the late afternoon. The rats were sacrificed at 24:00 to 01:00 h in darkness, 6 h, 3 or 5 days after the last exposure. Pineal and serum melatonin concentrations, pineal activities of serotonin N-acetyltransferase (NAT) and of monoamine oxidase (MAO) were determined. The NAT activities in the rats irradiated with 4.8 and 9.6 Gy decreased at some intervals without changes of melatonin concentration. Irradiation with a total dose of 14.4 Gy decreased NAT activity and the concentration of pineal and serum melatonin 6 h and 3 days after the last exposure. The activity of MAO, estimated only in the rats irradiated with the dose of 14.4 Gy, increased significantly 3 days after irradiation. The fractionated irradiation up to the dose of 14.4 Gy caused a transient decrease in pineal melatonin synthesis. This could be the consequence of preferential oxidative deamination of serotonin in comparison with its N-acetylation, leading to melatonin biosynthesis.

Very low sensitivity of Wistar:Han female rats to chemocarcinogens in mammary carcinogenesis induction.

Recently a great variability of various mouse and rat strains in the sensitivity for mammary tumors induction by means of physical (ionizing radiation) or chemical (mostly 7,12-dimethylbenz/a/anthracene, DMBA and N-methyl-N-nitrosourea, NMU) initiating agents was noted. The categorization into four groups was recommended in rats; the first group with high sensitivity (the incidence of tumors practically 100%, the frequency of tumors per entire treated group 2.0), the second with average type of sensitivity (incidence below 100%, frequency between 1.0-2.0), the third with low sensitivity (frequency 0.3-.4) and the fourth with zero sensitivity as the response to single standard dose of DMBA. After initial observations we decided to analyze the sensitivity to mammary carcinogenesis in the female rats of Wistar:Han strain, used frequently in central European region. Twenty mg of DMBA by gavage as single dose, or three-times 10 mg by gavage as repeated consecutive doses in three-day intervals, or 30 mg/kg b.w. of NMU intraperitoneally were administered, always between 50-55 postnatal days (single doses) or between 50-60 days (repeated doses of DMBA). The average incidence of mammary tumors did not exceed 10% and the entire group tumor frequency was about 0.1 for both carcinogens used. The data allowed us to indicate the female Wistar:Han rats as animals with "very low" sensitivity for the initiation of mammary tumors by single dose of DMBA or NMU; being in this way very close to the insensitive strains. The fact of "sensitivity" improvement to higher range after repeated doses of DMBA indicated a non-genetic background of the changed sensitivity. Our results support the need to use more then one rat strain for initiation of mammary carcinogenesis, and for assessing the bright range of the biological response. In this situation the concept of "multi-strain" assay seems to be the optimal.