Diurnal rhythm of hypophyseal cells in mich. II. Pars intermedia.

By the use of Mac Conaill's lead hematoxylin, periodic acid and Schiff's reagent (PAS, PbH-positive and PAS-positive cells were distinguished in the pars intermedia of the hypophysis in mice. Nuclear volume in PbH-positive and PAS-positive cells in the pars intermedia of the hypophysis in male and female mice under conditions of 12 h light and 12 h darkness shows distinct diurnal rhythmicity. Maximum nuclear volume in PbH-positive cells of the pars intermedia in both sexes was observed at 1800 h, and minimum at 2400 h. In the Pas-positive cells in females maximum nuclear volume was observed at 600 h, and minimum at 2400 h. In males maximal nuclear volume in these cells appears at 2400 h, and minimum at 1800 h. Maximum number of vacuoles in the nuclei of PbH-positive cells in the pars intermedia in both sexes appeared at 1800 h, and minimum at 2400 h. Maximum numbers of vacuoles in the nuclei of PAS-positive cells in females was noted at 1200 h, and minimum at 2400 h. In males the maximum number of vacuoles appeared at 600 h, and minimum at 1200 h. Differences in the number of vacuoles in the nuclei of PAS-positive cells between males and females were also noted.     

Volumen und Proteinsynthese der Kerne des Stratum Basale in der Stumpfepidermis während des Wundverschlusses nach Amputation der Vorderextremität bei Triturus vulgaris

After injection of tritiated phenylalanine, microautoradiographs of longitudinal sections of the stumps of the forelegs of Triturus vulgairs 1 hour, 2, 3 and 9 hours after amputation and also of the opposite limb (reference) were prepared for quantitative measurements. The epidermal tissue (stratum basale) was examined with regard to proximo-distal changes of nuclear volume and protein synthesis. In the stratum basale of the stump the values for the parameters examined were similar to those of the reference limbs 1h and 2h after amputation, but 3h and 9h after amputation areas of increased nuclear volume were observed as well as an increased rate of protein synthesis per unit of nuclear volume. Protein synthesis in the epidermis of the stump was extremely low 1h after amputation. Protein synthesis in the reference epidermis was also reduced at this time, but then increased although the nuclear volume remained constant.     

Morphometric studies on the lateral habenular nucleus of Wistar rats after bilateral excision of the superior cervical ganglia and cold exposure with special reference to the pineal gland

To analyse the role of peripheral sympathetic fibres in the regulation of thyroxine (T4), serum thyrotropin (TSH), pituitary TSH, and nuclear size of the lateral habenular nuclei rats were studied 30 d after bilateral cervical ganglionectomy (GX). In order to examine the influence of GX at normal temperature (24 degrees C) and exposure to cold (10 degrees C), rats were subjected to a 72 h exposure to cold before killing. 4 times a day (light-dark cycle: 14L: 10D, light on 05h00) the rats were sacrificed: middle light, middle darkness, 1 h after "light on" and 1 h after "light off". Ganglion removal resulted in a highly significant decrease of serum-T4 and increase of serum- and pituitary-TSH (primary hypothyroidism). Under these circumstances, the karyometric findings are showing a statistically significant magnification of the lateral habenular nuclear volume. In contrast to GX, exposure to cold increased T4- and TSH-levels and reduced the lateral habenular nuclear size. GX diminished the effect of exposure to cold of the T4- and TSH-levels and normalized the habenular nuclear volume. These results indicate that there exists a negative correlation between T4 (but not TSH) and lateral habenular nuclear size. Under consideration of previous investigations of the pineal nuclear size in hypo- and hyperthyroid state, our results are in agreement with the hypothesis of other authors that it is probably an inhibitory feed-back loop between the lateral habenula and the pineal gland (see also the high gamma-aminobutyric acid [GABA] content in the habenular complex). On the other hand, it was possible to confirm that the habenular complex is integrated into the thyroid circuit.     

Cellular and nuclear volume of human cells during the cell cycle

Summary The volumes of whole cells and nuclei of cultured human cells were studied at different times after synchronization of growth using the Coulter counter and scanning microphotometry. It was found that the increase in cell volume is compatible with both linear or exponential growth during the cell cycle. The growth of the nuclear volume is not correlated with the beginning of the DNA synthesis. The nuclear volume starts to increase already 6 h prior DNA synthesis. The data also indicate that the nuclear volume growth could proceed in two stages. The relation of this result to radiation sensitivity is discussed.This research was carried out under contract no. 215-76-10-BIO-D, Radiation Protection programme of the Commission of the European Community (Publication no. BIO 1747)     

Study of the formation of prechondral blastemas in the autopodium of normal and polydactyl rats

The nuclear volume fractions in chosen mesenchymal and prechondral zones were examined during formation of the prechondral rays in the autopodium of 14- and 15-day rat embryos. A morphometric analysis showed that formation of the prechondral blastemas was accompanied by a significant increase in the nuclear volume fraction in relation to the adjacent distal mesenchyme in both normodactyl and polydactyl embryos. The mean nuclear volume fraction in the prechondral blastema (the third metatarsal ray) is somewhat larger in normodactyl embryos, but the differences (in progressive means) are not statistically significant. The nuclear volume fractions at chosen sites in the mesenchymal zones at 14 and 15 days do not differ significantly in either normodactyl or polydactyl embryos. There are, however, significant differences between the nuclear volume fractions of the mesenchymal cells at the chosen sites in normodactyl and polydactyl embryos at both 14 and 15 days. The degree of enlargement of the nuclear volume fraction in the prechondral (chondrogenic) ray in relation to the mesenchyme is relatively greater in polydactyl embryos than in normodactyl embryos.     

Nuclear and Nucleolar Size Changes and Nuclear Pore Frequency in Cultured Explants of Jerusalem Artichoke Tubers (Helianthus tuberosus L.)

Nucleolar and nuclear envelope size changes in cultured explantsof H. tuberosus L. were studied prior to the first mitotic division.Using the technique of nuclear isolation to facilitate measurementsresults were obtained showing an almost immediate increase innuclear envelope surface area, while nucleolar volume showedno appreciable increase until 4 h after excision. The sharpincrease in nucleolar volume shown at this time reaches a maximumat 18 h which is maintained until mitosis occurs. The frequencyof nuclear pores remains constant. These results are discussedin the light of previous work on levels of RNA throughout theactivation process.     

Correlation of 24-hour fluctuations in renin granules of juxtaglomerular cells and in renin and angiotensinogen in blood plasma of the rat

Summary Subcellular structures of juxtaglomerular (JG) cells in the rat kidney were morphometrically examined at six evenly spaced times over 24 h. Plasma renin activities and angiotensinogen concentrations were also measured at these times. The cell volumes were larger at 20.00 h and 04.00 h than at 00.00 h, whereas the nuclear volumes peaked at 20.00 h and 08.00 h, decreasing at 00.00 h and 16.00 h. The volume and surface densities of renin granules and their individual volumes and surface areas peaked at 16.00 h and 00.00 h, decreasing at 20.00 h and 08.00 h, whereas their numerical densities peaked at 20.00 h, decreasing at 12.00 h. The surface densities of the rough endoplasmic reticulum (rER) peaked at 20.00 h, decreasing at other times, except at 08.00 h, when rER volume and surface density were relatively high. The plasma renin activity was maximal at 20.00 h, whereas it was minimal at 08.00 h. The variation in plasma angiotensinogen concentrations was inversely correlated with that in plasma renin activities. These results suggest that JG cells actively synthesize and release renin during the dark period, especially at 20.00 h, whereas during the light period they gradually synthesize renin and produce the granules, most of which may be stored in the cells during this period.     

Variation across species in the size of the nuclear genome supports the junk-DNA explanation for the C-value paradox.

The amount of DNA in the nuclear genome (the DNA C-value) of eukaryotes varies at least 80,000-fold across species, and yet bears little or no relation to organismic complexity or to the number of protein-coding genes. This phenomenon is known as the C-value paradox. One explanation for the C-value paradox attributes the size of the nuclear genome to 'junk' (typically non-coding) genetic elements that accumulate until the costs to the organism of replicating excess DNA select against it. Across species, organisms that develop at a slower rate should tolerate more junk DNA. Alternatively, junk DNA may function as a nucleo-skeleton to maintain the volume of the nucleus at a size proportional to the volume of the cytoplasm in the cell. Across species, the DNA C-value is predicted to vary with the nuclear and cytoplasmic volumes of cells. Previous studies have not been able to distinguish between the skeletal-DNA and junk-DNA explanations for the C-value paradox. We report a study of DNA content in 24 salamander species which does. The size of the nuclear genome is correlated with developmental rate even after the effects of nuclear and cytoplasmic volume have been removed. However, genome size is not correlated with cytoplasmic volume after controlling for developmental rate. These results support the view that junk DNA accumulates in the nuclear genome until the costs of replicating it become too great, rather than that it functions as a nucleo-skeleton.     

Nuclear envelope transport capacity and the cell cycle in yeast (Saccharomyces cerevisiae).

Changes in the nuclear envelope transport capacity, as measured by the number of nuclear pore complexes/unit nuclear volume/cell, were followed during the Saccharomyces cerevisiae cell cycle using data obtained by freeze-fracture electron microscopy. Pore number per unit nuclear volume decreased sharply in early G0, remained steady from mid-GO through S to G2, and showed a further slight decrease at M and G1. These periods of decline apparently resulted from nuclear enlargement without sufficient formation of new nuclear pore complexes to maintain the pore number to nuclear volume ratio. However, marked nuclear pore formation did accompany both increases in nuclear volume. The significance of these changes in relation to other events in the cell cycle is discussed. The validity of using nuclear pore number/unit nuclear volume and other pore number data as indices of nuclear envelope transport capacity and cell activity is critically examined.     

Degradation of nuclear proteins: studies on transplanted B82 cell karyoplast proteins

Karyoplasts were prepared from B82 cells (thymidine kinase deficient mouse L cells) by cytochalasin B mediated enucleation. Morphological measurements show that the nucleus constitutes 89% of a karyoplast by volume. Homokaryons were obtained by Sendai virus mediated karyoplast-B82 cell fusion. Transplanted nuclei were not destroyed catastrophically but were maintained intracellularly for at least 140 h. Transplanted nuclear proteins were degraded with an average half-life of 84 +/- 7 h by processes partially sensitive to inhibition by NH4Cl (50%) and leupeptin (30%). The data therefore suggest that some nuclear proteins are translocated to the cytoplasm for lysosomal degradation.     

Changes in activity of the organon vasculosum laminae terminalis in the annual cycle in Rana temporaria.

In 70 sexually mature male and femal Rana temporaria frogs captured in natural habitat, mean nuclear volumes for the cells of the pars ependymalis and pars parenchymalis of the organon vasculosum laminae terminalis (OVLT) were determined in seven characteristic stages in life. The mean nuclear volume for the cells of the pars ependymalis and pars parenchymalis of the OVLT showed distinct annual fluctuation. Maximum nuclear volume of the cells in both investigated parts of the OVLT were observed during the breeding period (Ist decade of April), and minimum volume of the nuclei of the pars ependymalis at the beginning of hibernation (IIIrd decade of October), and in the pars parenchymalis near the end of active life (Ist decade of September).     

Effects of testosterone on nuclear ribonucleoprotein components of prostate epithelial cells

Summary— The changes of the nuclear components caused by castration and testosterone injection were studied in epithelial cells of the ventral prostate of the rat. Castration drastically diminishes the nuclear and nucleolar volume, as well as the fraction of the nuclear volume occupied by non-nucleolar ribonucleoprotein (RNP) fibrils. However, in castrated animals the frequency of perichromatin granules (PCG) is 79% higher than in controls. Testosterone injection causes a reduction of the number of PCG to 33% of the castrated level in 15 min, and increases the non-nucleolar RNP fibrils. Other parameters such as nuclear and nucleolar volume and the relative volume of the compact chromatin present only small changes in a period of 2 h following the hormone administration. High resolution quantitative autoradiography demonstrates that the transportation of previously synthesized RNA increases steeper than the RNA synthesis. All these effects are similar to those caused by ovariectomy and estradiol injection on the nuclear structures of endometrial epithelial cells. These similarities and other observations suggest that PCGs contain mRNA, of a few genes, stored in the nucleus by a restriction of its transportation to the cytoplasm.     

The size of the nucleus increases as yeast cells grow

It is not known how the volume of the cell nucleus is set, nor how the ratio of nuclear volume to cell volume (N/C) is determined. Here, we have measured the size of the nucleus in growing cells of the budding yeast Saccharomyces cerevisiae. Analysis of mutant yeast strains spanning a range of cell sizes revealed that the ratio of average nuclear volume to average cell volume was quite consistent, with nuclear volume being approximately 7% that of cell volume. At the single cell level, nuclear and cell size were strongly correlated in growing wild-type cells, as determined by three different microscopic approaches. Even in G1-phase, nuclear volume grew, although it did not grow quite as fast as overall cell volume. DNA content did not appear to have any immediate, direct influence on nuclear size, in that nuclear size did not increase sharply during S-phase. The maintenance of nuclear size did not require continuous growth or ribosome biogenesis, as starvation and rapamycin treatment had little immediate impact on nuclear size. Blocking the nuclear export of new ribosomal subunits, among other proteins and RNAs, with leptomycin B also had no obvious effect on nuclear size. Nuclear expansion must now be factored into conceptual and mathematical models of budding yeast growth and division. These results raise questions as to the unknown force(s) that expand the nucleus as yeast cells grow.     

Semipermeability of the nuclear membrane in the intact cell

The osmotic properties of nuclei in intact cells were studied by injecting solutions into the cytoplasm of amphibian oocytes. Subsequent changes in nuclear volume were recorded photographically. The injection of solutions containing polyvinylpyrrolidone or bovine serum albumin caused changes in nuclear volume which were related to the colloid osmotic pressure of the solution injected. The concentration in which no significant nuclear volume change occurred (the isotonic range) was 1.0 to 1.5 per cent polyvinylpyrrolidone (2.0 to 3.75 x 10(-4)M). 2 per cent bovine serum albumin had no significant effect on nuclear volume, whereas 4 per cent caused a significant decrease. The significance of these findings is discussed in terms of the permeability characteristics of the nuclear membrane.     

Structure, subnuclear distribution, and nuclear matrix association of the mammalian telomeric complex

Mammalian telomeres are composed of long arrays of TTAGGG repeats complexed with the TTAGGG repeat binding factor, TRF. Biochemical and ultrastructural data presented here show that the telomeric DNA and TRF colocalize in individual, condensed structures in the nuclear matrix. Telomeric TTAGGG repeats were found to carry an array of nuclear matrix attachment sites occurring at a frequency of at least one per kb. The nuclear matrix association of the telomeric arrays extended over large domains of up to 20-30 kb, encompassing the entire length of most mammalian telomeres. TRF protein and telomeric DNA cofractionated in nuclear matrix preparations and colocalized in discrete, condensed sites throughout the nuclear volume. FISH analysis indicated that TRF is an integral component of the telomeric complex and that the presence of TRF on telomeric DNA correlates with the compact configuration of telomeres and their association with the nuclear matrix. Biochemical fractionation of TRF and telomeric DNA did not reveal an interaction with the nuclear lamina. Furthermore, ultrastructural analysis indicated that the mammalian telomeric complex occupied sites throughout the nuclear volume, arguing against a role for the nuclear envelope in telomere function during interphase. These results are consistent with the view that mammalian telomeres form nuclear matrix- associated, TRF-containing higher order complexes at dispersed sites throughout the nuclear volume.     

Regulation of the expression and subcellular localization of the taurine transporter TauT in mouse NIH3T3 fibroblasts.

The cellular level of the organic osmolyte taurine is a balance between active uptake and passive leak via a volume sensitive pathway. Here, we demonstrate that NIH3T3 mouse fibroblasts express a saturable, high affinity taurine transporter (TauT, Km = 18 microm), and that taurine uptake via TauT is a Na+- and Cl(-)-dependent process with an apparent 2.5 : 1 : 1 Na+/Cl-/taurine stoichiometry. Transport activity is reduced following acute administration of H2O2 or activators of protein kinases A or C. TauT transport activity, expression and nuclear localization are significantly increased upon serum starvation (24 h), exposure to tumour necrosis factor alpha (TNFalpha; 16 h), or hyperosmotic medium (24 h); conditions that are also associated with increased localization of TauT to the cytosolic network of microtubules. Conversely, transport activity, expression and nuclear localization of TauT are reduced in a reversible manner following long-term exposure (24 h) to high extracellular taurine concentration. In contrast to active taurine uptake, swelling-induced taurine release is significantly reduced following preincubation with TNFalpha (16 h) but unaffected by high extracellular taurine concentration (24 h). Thus, in NIH3T3 cells, (a) active taurine uptake reflects TauT expression; (b) TauT activity is modulated by multiple stimuli, both acutely, and at the level of TauT expression; (c) the subcellular localization of TauT is regulated; and (d) volume-sensitive taurine release is not mediated by TauT.     

Nuclear volume and chromatin conformation of small and large bovine luteal cells: effect of gonadotropins and prostaglandins and dependence on luteal phase

Summary Change in nuclear volume and chromatin conformation are generally considered to reflect altered gene expression in eukaryotic cells. The present studies were undertaken to investigate whether these nuclear parameters of luteal cells can be altered by hormone treatment in vitro or change during the estrous cycle. The nuclear volume of small luteal cells was significantly lower than that of large luteal cells during the cycle and pregnancy. The nuclear volumes of small and large luteal cells from pregnancy did not change during incubation without any hormone or with 10 nM prostaglandin (PG)F₂. However, incubation with 1 nM human chorionic gonadotropin (hCG) or 10 nM PGE₁ resulted in a significant increase of nuclear volume of small luteal cells by 4 h and that of large luteal cells by 6 h. Small cells were more responsive to hCG than large luteal cells. The nuclear volumes of small and large luteal cells also significantly increased from early to mid luteal phase with no further change in late luteal phase. hCG and PGE₁, as well as PGF₂, treatment resulted in a change of chromatin conformation of small and large luteal cells. Dibutyryl cyclic AMP (10 mM) mimicked the hormones by increasing nuclear volumes and changing the chromatin conformation of small and large luteal cells. Chromatin conformation of small and large luteal cells also changed from early to mid luteal phase and mid to late luteal phase. In conclusion, in vitro, hCG and PGs can regulate nuclear volume and/or chromatin conformation of small as well as large bovine luteal cells. In vivo, these nuclear changes occur during the periods of luteal growth, development and regression in the estrous cycle.     

The Nuclear Endoreduplication Cycle in Metaxylem Cells of Primary Roots of Zea mays L.

The nuclear DNA content of metaxylem cells in roots of Zea mayscv. Golden Bantam reaches 16C or 32C by successive rounds ofDNA endoreduplication. Each phase of endoreduplication (endo-S)is separated by a non-DNA synthetic phase (endo-G). These phasesseem to occur in zones at fixed distances from the root tip.The duration of the phases in two of the endoreduplication cycles(4C–8C, 8C–16C) has been estimated in two ways.The first makes use of the rate of movement of cells throughthe positions along the root where the different phases of thecycle are occurring, the second uses labelling with methyl-[³H]thymidineand autoradiography. Both methods indicate that the endo-S phaseswhich cause the nuclear DNA content to rise from 4C to 8C andfrom 8C to 16C last 8–10 h, and that the intervening endo-Gphase lasts 8–12 h. DNA endoreduplication keeps pace withthe increase of nuclear volume; cell volume increases at a morerapid rate, however. Comparison of the endoreduplication cyclein the metaxylem with the mitotic cycle in the adjoining filesof parenchyma cells shows that the mitotic cells complete theircycle more slowly. DNA synthesis, endoreduplication cycle, mitotic cycle, root apex, Zea mays     

Changes in the nuclear volume of the receptor cells of the saccular macula in the frog Rana temporaria during sound exposure

Sonic stimulation at a frequency of 1200 Hz increases nuclear volume in the upper part of the maculae by 30-45%, whereas after stimulation at a frequency of 250 Hz nuclear changes (30-38%) were noted mainly in the caudal parts. The auditory function of the sacculus in amphibians is confirmed and special attention is paid to functional heterogeneity of the receptor epithelium in the saccular maculae.     

Green fluorescent protein-tagged adeno-associated virus particles allow the study of cytosolic and nuclear trafficking

To allow the direct visualization of viral trafficking, we genetically incorporated enhanced green fluorescent protein (GFP) into the adeno-associated virus (AAV) capsid by replacement of wild-type VP2 by GFP-VP2 fusion proteins. High-titer virus progeny was obtained and used to elucidate the process of nuclear entry. In the absence of adenovirus 5 (Ad5), nuclear translocation of AAV capsids was a slow and inefficient process: at 2 h and 4 h postinfection (p.i.), GFP-VP2-AAV particles were found in the perinuclear area and in nuclear invaginations but not within the nucleus. In Ad5-coinfected cells, isolated GFP-VP2-AAV particles were already detectable in the nucleus at 2 h p.i., suggesting that Ad5 enhanced the nuclear translocation of AAV capsids. The number of cells displaying viral capsids within the nucleus increased slightly over time, independently of helper virus levels, but the majority of the AAV capsids remained in the perinuclear area under all conditions analyzed. In contrast, independently of helper virus and with 10 times less virions per cell already observed at 2 h p.i., viral genomes were visible within the nucleus. Under these conditions and even with prolonged incubation times (up to 11 h p.i.), no intact viral capsids were detectable within the nucleus. In summary, the results show that GFP-tagged AAV particles can be used to study the cellular trafficking and nuclear entry of AAV. Moreover, our findings argue against an efficient nuclear entry mechanism of intact AAV capsids and favor the occurrence of viral uncoating before or during nuclear entry.