Fatty acid-binding protein expression in the liver: its regulation and relationship to the zonation of fatty acid metabolism

Summary Liver fatty acid-binding protein (L-FABP) is expressed in a declining gradient between the portal and central zones of the liver acinus. This paper discusses the results of experimental studies which address the questions: (a) What factors regulate L-FABP expression in liver and produce its acinar gradient? (b) What is the relationship between the acinar gradient of L-FABP and acinar gradients in the transport and metabolism of long-chain fatty acids? Both high-fat diets and clofibrate-treatment increase L-FABP proportionally at both extremes of the liver acinus and the small intestine, with preservation of the L-FABP gradient in both tissues. Female rats differ from males, however, in showing a greater hepatic abundance of L-FABP which is expressed almost equally throughout the acinus. Dietary studies show that L-FABP is induced with increased fatty acid flux derived from dietary fat but not from de novo hepatic fatty acid synthesis. Studies of the synthesis and utilization of fatty acids by hepatocytes isolated from the periportal and pericentral zones of the liver acinus suggest that the acinar gradient of L-FABP is not associated with differences in the instrinsic capacity of zone 1 and zone 3 hepatocytes to utilize or synthesize fatty acids. In addition, studies of the acinar uptake pattern of a fluorescent fatty acid derivative by isolated perfused livers indicate that the acinar distribution of L-FABP does not determine the pattern of fatty acid uptake in the intact acinus. Rather, the acinar gradient of L-FABP is most likely to represent a response to physiological conditions existing in the intact acinus which may include gradients in the flux of fatty acids, fatty acid metabolites and hormones.Abbreviations ALT Alanine Aminotransferase - FABP Fatty Acid Binding Protein - I-FABP Intestinal-type Fatty Acid Binding Protein - L-FABP Liver-type Fatty Acid Binding Protein - 12-NBD-stearate 12-(N-methyl)-N-(7-nitrobenzo-2-oxa-1, 3,-diazol-4-yl)amino)-octadecanoic acid     

Ultrastructural radioautographic analysis of neurogenesis in the hypothalamus of the adult frog,Rana temporaria,with special reference to physiological regeneration of the preoptic nucleus

The localization and fine structure of proliferating cells in the hypothalamic preoptic area were studied by light-and electron-microscopic radioautography 1–2 h following single application of ³H-thymidine to adult Rana temporaria taken from their natural habitat in the spring and autumn. ³H-thymidine uptake by proliferating cells was much more pronounced in frogs caught in May/June, i.e., a month after the breeding period (labeled cells represent about 10% of the total ventricular zone cell population), compared to animals caught in mid-September, when it was very low. In both ³H-thymidine treatment groups the vast majority of labeled cells are found exclusively within the preoptic recess ventricular zone. With regard to ultrastructure, it contained proliferating cells of at least 4 types, ranging from immature forms (bipolar stem cells) to more differentiated elements (tanycyte-like ependymoblasts, classical ependymoblasts). All of them showed label over their nuclei indicating that these cells are capable of DNA synthesis and mitosis. The possible role of the preoptic recess ventricular zone as a source of precursor cells for new peptidergic neurosecretory cells, conventional neurons and glial cells in the hypothalamic preoptic area of the adult frog is discussed.     

The roles of apoptosis and mitosis in atrophy of the rat sublingual gland

The roles of apoptosis and mitosis of acinar and duct cells in the atrophy of the sublingual gland of rat induced by double duct ligation was investigated using immunohistochemistry for proliferating cell nuclear antigen (PCNA), terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-digoxigenin nick end labeling (TUNEL), and transmission electron microscopy (TEM). Many PCNA-positive duct cells were observed 3 days after duct ligation, and the numbers decreased thereafter. At 3 and 5 days, several TUNEL-positive acinar cells were observed and typical apoptotic acinar cells were identified by TEM. Necrotic acinar cells were also observed ultrastructurally. After 7 days, there were few acini but many ducts, as well as many structures representing transition from acinus to duct. These observations demonstrate that acinar cell loss by apoptosis and duct cell proliferation by mitosis occur in atrophic sublingual glands as well as in other atrophic salivary glands. In addition, it appears that the transition from acinar to duct cell and the necrosis of acinar cells play important roles in the atrophy of the sublingual gland.     

Cell population kinetics of the mouse lens epithelium

The dividing lens epithelium of 8-week-old CF1 mice consists of a monocellular layer of about 31,000 cells and does not include the postmitotic cells of the meridional rows and another postmitotic zone of seven cell positions' width immediately anterior to the rows. The latter two populations contain approximately 3,600 and 9,000 cells, respectively, for a total of 44,000 cells in the entire lens epithelium. Autoradiographic analysis based upon mitotic index and cell cycle times indicates that the epithelium produces 207 new lens fibers a day. Throughout the 20-day period of study, labeled cells appeared almost entirely as pairs following a single dose of ³H-thymidine and clusters of labeled nuclei were not seen. Moreover, the number of labeled cells dropped only slowly with time, as did the grain counts. These observations indicate that logarithmic division “cascade” does not occur in the lens. The dividing cell population consists largely of a slowly cycling stem cell group, dividing once about every 17–20 days, and consisting of some 5,000 cells. A subpopulation may exist which undergoes two rapid consecutive divisions before becoming postmitotic, but this is too small to make a significant contribution to lens fiber production. Four days are required to transit the postmitotic zone, and an additional 43 or so are needed to transit the meridional rows and differentiate into anucleate lens fibers. Data from other laboratories indicate that the entire process, from mitosis to final differentiation, requires about 4 months. Hence, most of this time is spent in migration of nondividing cells.     

DNA synthesis and proliferation of human lymphocytes in vitro: III. Fate of cycling cells in aging cultures of phytohemagglutinin stimulated human lymphocytes

There are few data available on cell cycle events that occur when proliferation of normal cells in culture is curtailed due to “natural aging” of the culture conditions. Stathmokinetic and cytofluorometry studies were performed on PHA-stimulated human lymphocyte cultures for eight consecutive days. Cell proliferation peaked on day 5 and then gradually decreased. Percent labeled mitosis curves performed each day demonstrated that, for those cells which progressed to mitosis, the cell cycle time remained constant at 18 ± 1 hour throughout the entire period of culture. However when the fate of all cells pulse-labeled with ³H-thymidine (S phase cells) was followed daily, only 64 ± 5% of labeled cells reached mitosis on day 3 and <20% on day 6. When the growth fraction was estimated by standard methods (with the labeling index) and used to predict future cell counts in the culture, proliferation was greatly overestimated; but after correcting the growth fraction for labeled cells not reaching mitosis, proliferation was accurately predicted by a newly derived “dividing fraction.” Flow cytofluorometry confirmed accumulation of cells in S and G₂ + M phases, and mitotic indices ruled out accumulation in M phase. Assessment of non-viable cells with cytofluorometry demonstrated that death occurred in all phases of the cell cycle. We conclude that with increasing age of culture, an increased fraction of cycling PHA-stimulated lymphocytes fail to progress all the way to mitosis and are arrested in S or G₂ phases. These observations provide evidence against the existence of a specific “restriction point” in G₁ or at the G₁/S interface in aging proliferating human lymphocyte cultures, but it remains to be determined whether cells arrested in S or G₂ phases retain the capacity to complete the cell cycle in more favorable culture environments.     

Cumulative indices of DNA synthesizing myocytes in different compartments of the working myocardium and conductive system of the rat’s heart muscle following extensive left ventricle infarction

Ten successive³H-thymidine injections at 12h intervals (which is a little shorter than the adult heart myocyte S phase) were performed for labeling of the majority of cardiac myocytes synthesizing DNA at any moment of such a 5 days experiment. In the hearts of control unoperated rats ten-fold repeated³H-thymidine administration results in labeling of 2–3% myocyte nuclei, in both atria, ca. 1% of the specialized muscle cell nuclei in the atrioventricular conductive system, only occasional muscle cells being labeled in the working ventricular myocardium. When ten successive³H-thymidine injections were made between the 5th and 10th days following extended left ventricle infarction, the percentage of labeled myocytes in left and right atria reaches, respectively, 51.4±4.4% and 34.7±3.6%. In the left ventricle labeled muscle nuclei are accumulated predominantly (9.3±2.1%) within the thin subepicardial layer of the surviving myofibers, while myofibers located in other perinecrotic areas contained only 1.3±0.5% labeled muscle nuclei. The number of these nuclei in the atrioventricular system remains at the level observed in control hearts (up to 2%), approaching closely the zero level in the working myocardium of both the ventricles and interventricular septum, located at the considerable distance from the infarcted region. When similar experiments with ten-fold repeated³H-thymidine injections were performed between 15th and 20th post-infarction days the number of labeled myocyte nuclei was found to be reduced 4–6 times in atria, being changed rather a little in the perinecrotic ventricular myocardium and in the specialized myocardium of the atrioventricular system. Some possible reasons of the observed differences in the proliferative behaviour of cardiac myocytes in terms of their topology and/or specialization are discussed     

Studies of adult amphibian heart cells in Vitro: DNA synthesis and mitosis

The ventricle of the adult newt heart was excised and cut into several pieces of approximately 0.5 – 1.0 mm. These heart pieces were then cultured for 60 days at 25 °C in a modified Leibovitz medium (L-15). Approximately 37% of the explants were attached to the substrate and more than 33% of the attached explants and approximately 15% of the unattached explants established pulsation rates which ranged 3–67 beats/min. The explants were labeled with 1 μCi/ml of ³H-thymidine for 24 hr at 7, 15, 21, 30, 45 and 60 days of culture initiation, and processed for electron microscopic autoradiography. The examination of the autoradiograms revealed that as the culture continued, the cardiac muscle cells altered their morphology, resembling embryonic cardiac muscle cells. These altered muscle cells were termed dedifferentiated cardiac muscle cells. The number of these dedifferentiated cells increased over the period of culture, showing 10.3–94% dedifferentiated cells after 7–60 days of culture respectively. DNA synthesis and mitosis were observed in the dedifferentiated cardiac muscle cells, apart from the non-muscle cells. The quantitation of the autoradiograms revealed that the number of labeled nuclei in the cardiac muscle cells gradually increased over the period of culture, and a maximum number of labeled cardiac muscle cells (30%) was observed in the third week. The peak was followed by a decline in the eighth week which exhibited 1.5 % labeled cardiac muscle cells. The trend of mitosis was similar to that of DNA synthesis. The maximum number of mitotic figures (9%) was observed in the third week of culture, which was followed by a decline and finally absent in the eighth week. The cardiac non-muscle cells, mostly fibroblasts and endothelial cells, also showed incorporation of ³H-thymidine in their nuclei. The number of labeled non-muscle cells nuclei and the mitotic index were highest (61 and 15% respectively) in the first week of culture, but then they decreased gradually over the eight-week period in culture. This study provides evidence for the first time that the adult amphibian cardiac myocytes can undergo DNA synthesis and mitosis when explanted and cultured. The significance of this cell replication is discussed.     

Extra DNA synthesis in the dedifferentiating cells ofVicia faba roots

Summary Cell dedifferentiation was induced inVicia faba root tissues by removing the whole root meristem (decapitation) and the behaviour of the nuclear DNA in the dedifferentiating cells was studied by means of cytophotometric and autoradiographic analyses. Cytophotometric determination after Feulgen-staining showed that: 1. the vast majority of nuclei in differentiated cells were in the DNA postsynthetic phase, but their Feulgen absorption was lower than that of DNA postsynthetic nuclei (G₂, 4 C) in the meristem; 2. such a Feulgen absorption was detected in certain nuclei after root decapitation; 3. all the mitoses in the dedifferentiating tissues were diploid, fully matching the Feulgen absorption of mitoses in the meristem.After³H-thymidine (³H-T) feeding of the decapitated roots and autoradiography, the following results were obtained: 1. two populations of labeled nuclei, characterized by two different levels of scattered labeling occurred in dedifferentiating tissues, slightly labeled nuclei being much more numerous than heavily labeled nuclei; 2. the percentage of labeled nuclei was much greater than that of DNA presynthetic nuclei in the root tissues; 3. almost all the mitoses were labeled after a 16-hour³H-T feeding; 4. the percentage of slightly labeled nuclei paralleled that of dedifferentiating cells; 5. the duration of the DNA synthesis phase and that of the gap between completion of DNA synthesis and mitosis differed in heavily and slightly labeled nuclei; 6. all nuclei which entered DNA synthesis also entered mitosis.These results are interpreted to mean that: 1. after decapitation, two different DNA syntheses occur in the dedifferentiating root tissues ofV. faba: DNA reduplication in cells which dedifferentiate starting from a DNA presynthetic nuclear condition (heavily labeled nuclei) and extra DNA synthesis in cells which dedifferentiate starting from a DNA postsynthetic nuclear condition (slightly labeled nuclei); 2. extra DNA synthesis is required in these dedifferentiating cells for entry into mitosis.     

Gamma-glutamyltranspeptidase induction by cortisol in liver parenchyma of unweaned rats

In contrast to many differentiated hepatic functions developing after birth, very little is known about in vivo glucocorticoid influences on postnatal expression of fetal liver enzymes, such as GGT. This study showed that cortisol markedly induces liver GGT activity in unweaned rats, but has no effectafter weaning. Enzyme induction was dose- and time-dependent and occurred in parenchymal cells, progressing with time from zone 1 to zone 2 of the liver acinus. Zone-3 hepatocytes were unresponsive even after a 5-day treatment. Lag-times for GGT induction in zones I and 2 of the liver acinus were 1 to 2 days and 2 to 3 days, respectively. From this, a permissive cell change, determined by the hormone administration itself, seems required for the hepatocyte GGT induction by cortisol in pre-weaning rats.     

MATRIX SIMULATION OF DUODENAL CRYPT CELL KINETICS

Steady state crypt cell kinetics have been simulated using matrix algebra. The model crypt cell population is distributed through two proliferation compartments (P₁ and P₂) and a quiescent state (Q). Under steady state conditions half the daughter cells produced on completion of P₁ enter G₁ of P₂ and half enter G₁ of P₁. Both P₂ daughter cells enter Q. Cells in Q are non-dividing but retain the potential to divide. On completion of Q, cells lose the potential to divide and move up onto the villi. The model has been developed by simultaneously simulating the following biological data: (1) the per cent labeled mitosis (PML) curve, (2) the number of labeled cells per crypt as a function of time following an injection of ³H-thymidine, and (3) the total number of cells per crypt.     

Separation of hepatocytes of different acinar zones by flow cytometry

Hepatocytes in the proximal (zone 1) and distal (zone 3) regions of the liver acinus are selectively stained by perfusion of the isolated rat liver with 0.2-20 microM acridine orange (AO). After 10-60 min of anterograde perfusion, AO fluorescence is visible in zone 1 cells, whereas retrograde perfusion stains cells of zone 3. In this paper, we describe a technique to isolate a mixed population of fluorescent and nonfluorescent hepatocytes (cells from all acinar zones, which do not loose the zone specific AO labeling) and to separate these cells according to their zonal origin by fluorescence activated cell sorting. The zonal populations obtained were either fluorescent or nonfluorescent (purity greater than 95%). Separated cell fractions differed in their enzyme content (5' nucleotidase, succinate-dehydrogenase, beta-glucuronidase). An unidentified AO metabolite, which is not found in bile after retrograde perfusion (not formed in zone 3 cells), is also absent after retrograde perfusion in sorted fluorescent cells (zone 3 cells), indicating zonal purity of sorted cells.     

Growth and differentiation of murine cartilage cells in vitro followng a short-term exposure to triamcinolone acetonide

Summary Measurements of ³H-thymidine incorporation, quantitative autoradiography and morphometry were used to evaluate cell behavior during the recovery of mandibular condylar cartilage cultures following short-term exposure to a corticosteroid hormone in vitro. Apical segments of mandibular condyles of newborn mice were initially incubated in the presence of the hormone triamcinolone acetonide (10^-6 M) for 24 h and were thereafter cultured for additional 6 days in hormone-free medium. The present results indicated that the treatment led to a decrease in the rate of incorporation of ³H-thymidine, a feature that lasted for 48 h following the removal of the hormone. Quantitative ³H-thymidine autoradiography of explants that were labeled in the presence of the hormone further substantiated the initial suppressive effect of the hormone on cellular proliferation, a feature that was followed by a recovery. Differences were noted in the pattern of distribution of labeled cells: in control explants, labeled cells progressively moved from the chondroprogenitor compartment into the differentiated portion of the cartilage; in hormone-treated explants, ³H-thymidine labeled cells were confined to the progenitor layer up to 5 days after the treatment and only then appeared in the chondrocytic compartment. The hormone's adverse effect upon differentiation was manifested by both morphology, and by causing a significant increase in the size of the progenitor layer (up to 50.5% on 4th post-treatment day) along with a 70.5% reduction in the size of chondroblastic layer. We conclude that a short-term exposure to a glucocorticoid hormone in vitro interferes with proliferation of chondroprogenitor cells and their subsequent differentiative pathway. While the proliferative activity was restored within 48 h, the hormone's effect on differentiation lasted for a considerably longer period of time.     

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.     

Pancreas acinar cell differentiation VIII. Effect of methionine on DNA synthesis of pancreas anlage in organ culture

Rat pancreas embryonic rudiments incubated in a control chemically-defined (CD) medium grew and differentiated during 9 days of organ culture to adult acinar cells characterized by zymogen granules and relatively high levels of enzyme activity. Incubation of the anlagen in a chemically-defined medium with a lower methionine concentration (CD-MD) gave growth to a comparable size but no acinar cell formation, no zymogen granules and no increases of enzyme activity. Anlagen incubated in the CD medium showed a marked decrease of the autoradio-graphic labeling index of acinar cell nuclei after exposure to ³H-thymidine during the period of organ culture, whereas culture of anlagen in the CD-MD medium led to far less decrease of the acinar cell labeling index. When anlagen which had been grown in the CD-MD medium for 9 days were incubated for 3 additional days in the CD medium there was a highly significant drop in the previously high labeling index. The higher level of methionine in the CD medium may have been involved in the synthesis of, or the methylation of, an inhibitor of DNA synthesis.     

Differentiation of lymphocytes in mouse bone marrow. II. Kinetics of maturation and renewal of antiglobulin-binding cells studied by double labeling

DNA labeling by ³H-thymidine in vitro and antiglobulin-¹³¹I binding in vitro were used to determine the development and turnover of immunoglobulin-bearing lymphocytes in mouse bone marrow.Bone marrow cells from CBA mice previously injected repeatedly with ³H-thymidine for 1–84 hr were exposed to ¹³¹I-labeled rabbit-antimouse globulin for 30 min at 0 °C, and examined radioautographically. The antiglobulin-binding cells in bone marrow were predominantly (97–98%) nondividing small lymphocytes. Some plasmacytoid and monocytoid cells, but not the proliferating large lymphoid cells, also bound antiglobulin. The ³H-thymidine labeling index of the small lymphocyte population showed a rapid exponential increase (50% in 32 hr). The first small lymphocytes to show ³H-thymidine labeling were those lacking antiglobulin-binding capacity, reaching approximately 90% ³H-thymidine labeling after 2 days. Small lymphocytes which bound antiglobulin-¹³¹I at a concentration of 1.0 μg/ml became labeled with ³H-thymidine only after a lag of approximately 1.5 days. More avid antiglobulinbinding cells were delayed a further 12 hr in ³H-thymidine labeling. During in vitro culture the proportion of antiglobulin-binding small lymphocytes increased progressively in bone marrow but decreased in spleen cell suspensions.The results demonstrate a continuous, rapid renewal of immunoglobulin-bearing small lymphocytes in adult mouse bone marrow. Surface immunoglobulin molecules are not detectable when marrow small lymphocytes are first formed, but they appear and increase progressively in density as the cells mature.     

Effect of the Cytomegalovirus on Cell Cycle Progression and Pathological Mitoses in Cultured Human Diploid Fibroblasts

The effect of the cytomegalovirus on the cell cycle was studied autoradiographically in an asynchronous culture of human diploid fibroblasts. The analysis of labeled mitosis showed that some cells infected in the S phase ceased to progress through the cell cycle at one of its phases (S, G ₂, or M); at the same time, at least part of the infected cells remained capable of entering mitosis. Beginning from day 2 after infection by cytomegalovirus, the accumulation of pathological mitotic cells blocked at metaphase was observed in the culture. Approximately 50% of these cells contained ³H-thymidine label above chromosomes. This suggested the possibility of pathological mitosis in cells that were infected both at the S and other phases of the cell cycle. The detailed morphological analysis of chromosomes at different stages of infection demonstrated that the degree of their morphological changes increases from slight (stronger condensation) to severe pathology (fragmentation). In the aggregate, the results of the study suggested that abnormal chromosome morphology resulted from irreversible cell division arrest under the effect of the cytomegalovirus.     

GROWTH OF THE CHICKEN EMBRYONIC LENS TRANSPLANTED ONTO THE CHORIO-ALLANTOIC MEMBRANE

The influence of neural retina on the growth of chicken embryonic lens was studied by comparing the growth pattern of the lens transplanted onto chorio-allantoic membrane (CAM) with that of the normal lens. The lens from 6-day embryo, transplanted onto CAM after labeled with ³H-thymidine, continued to grow in the absence of neural retina at least for 12 days of incubation, although its growth rate was reduced. In the transplanted lens, no ³H-labeled epithelial cell differentiated into fiber at least for 2 days of incubation and ³H-labeled nuclei first appeared in the fiber cells on the fourth day of incubation, while, in the normal lens of 6-day embryo labeled with ³H-thymidine in situ, ³H-labeled epithelial cells differentiated into fibers within 24 hours. On the other hand, the fiber cells differentiated before transplantation maintained the nearly normal growth rate on CAM. The neural retina transplanted onto CAM together with lens induced the new fibers from the lens epithelium. These observations suggest that the neural retina initiates and promotes the fiber differentiation in the chicken lens, but its continued influence is not always necessary for the successive differentiation of epithelial cell into fiber and especially for the growth of the differentiated fiber cells.     

Autoradiographische Untersuchungen zur Mitoseaktivität im Hypophysenvorderlappen männlicher Ratten nach Behandlung mit Antiandrogenen und nach Kastration

Zusammenfassung Nach Applikation von ³H-Thymidin wird die Mitoserate im Hypophysenvorderlappen von männlichen Ratten nach 10-bzw. 14tägiger Behandlung mit Antiandrogenen (Cyproteron bzw. Cyproteronacetat) und 10 bzw. 14 Tage nach Kastration autoradiographisch untersucht. Kastrierte oder Cyproteron-behandelte Tiere weisen gegenüber Normaltieren eine 3–4fach erhöhte Zahl markierter HVL-Zellen auf. Nach Behandlung mit Cyproteronacetat ist dagegen die Mitoserate vermindert. — Die Ergebnisse ergänzen die Vorstellung vom Wirkungsmechanismus der genannten Antiandrogene, wonach Cyproteron nur antiandrogen wirkt und damit die FSH-Abgabe im HVL erhöht, wogegen Cyproteronacetat zusätzlich antigonadotrope Wirkung besitzt, die die FSH-Abgabe drosselt.

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Radioautographic investigations on the rate of mitosis in the anterior pituitary in male rats after treatment with antiandrogenic substances and castration

Summary After application of ³H-thymidine the rate of mitosis in the anterior pituitary of male rats is investigated by means of radioautography after treatment with antiandrogenic substances (cyproterone and cyproterone acetate) for 10 and 14 days respectively and 10 and 14 days after castration. Castrated or cyproterone-treated rats show a 3 to 4 fold increase of the number of labeled anterior pituitary cells as compared to untreated animals. In the anterior pituitary of cyproterone acetate-treated rats the rate of mitosis decreases. — The present results are in accordance with the view, that cyproterone acts only antiandrogenic and stimulates the FSH-release in the anterior pituitary, whereas cyproterone acetate has also an antigonadotrophic effect, which slows down the FSH-release.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Effect of thiopyrimidine ribonucleosides on DNA and RNA synthesis in synchronized mammalian cell cultures

The uptake of ³H-uridine into RNA and of ³H-thymidine into DNA was investigated in synchronized Chinese hamster cells which had been exposed to thiopyrimidine ribonucleosides. The cells were synchronized at metaphase by reversal of colcemid inhibition; these cells were then labeled with either ³H-thymidine or ³H-uridine at selected times, and analyzed in autoradiographs. Incorporation of ³H-thymidine into DNA was not inhibited by administration to the cells of 2-thiouridine or 4-thiouridine (4 × 10⁻³ M). Exposure of the cells to the anti-metabolites for over 15 h significantly reduced the incorporation of ³H-uridine into nuclear RNA and completely blocked the labeling of cytoplasmic RNA. This finding is interpreted as an indication that RNA synthesis was inhibited in cells which continued to synthesize DNA. The inhibition of RNA synthesis hindered cell division and decreased cell viability. This lethal effect is similar to the “unbalanced growth” induced by inhibitors of DNA synthesis. The thiopyrimidine ribonucleosides, however, killed mammalian cells without inhibiting DNA synthesis.     

The pattern of lymphocytes in the thymus and spleen after labeling with 3H-thymidine and 3H-deoxycytidine.

Adult male untreated mice (NMRI) were investigated after radioactive labeling with 3H-thymidine and 3H-deoxycytidine to find out whether the lymphocytes in the cortex and medulla of the thymus as well as in the perifollicular and periarteriolar regions of the spleen show a labeling pattern which allows a classification into T- and B-lymphocytes. The percentages of radioactively labeled small lymphocytes and their mean grain counts were determined. The percentages of radioactively labeled small lymphocytes after 3H-TdR and 3H-CdR showed no significant differences in both splenic zones. The grain counts over the lymphocyte nuclei in the periarteriolar zone showed lower values after 3H-TdR than after 3H-CdR. The lymphocytes in the perifollicular zone were strongly labeled with 3H-TdR and weakly labeled with 3H-CdR. In the thymus medulla, lymphocytes were weakly labeled with 3H-thymidine and strongly labeled with 3H-CdR. In the cortex no significant differences were observed. 75 to 80% of the small lymphocytes in the peripheral blood were weakly and 20-25% strongly labeled after 3H-TdR. Therefore there are similarities in the radioactive labeling pattern of thymic medulla lymphocytes and that of small lymphocytes of the periarteriolar zone of the spleen by both DNA precursors. The small lymphocytes in the peripheral T-dependent tissue zones, for example in the spleen, as well as in the mixed lymphocyte population of the peripheral blood can be differentiated from the B-lymphocytes through the difference in the amount of incorporation of 3H-thymidine and 3H-deoxycytidine.