The distribution and kinetics of nuclei in rat osteoclasts

Abstract. Osteoclast development and growth were studied by determining the number of labelled nuclei in osteoclasts of different sizes (based on the number of nuclei per osteoclast, N/O) and the number of osteoclasts with labelled nuclei at various intervals after tritiated thymidine ([³H]TdR) injection in young rats. The osteoclast smears were made from the cellular periosteum of the proximal tibia. The frequency distribution of the N/O osteoclasts types in the smears had profiles similar to that of in situ osteoclasts in whole mounts of proximal tibia, which indicates that the osteoclast population of the smears was representative of that on the bone surface. A vast majority of the osteoclasts had a 1–6 N/O, and a number of the cells had as many as 26 or more nuclei. Furthermore, profiles of N/O frequency distributions were similar over the course of the study. Nuclei with [³H]TdR label were initially observed in osteoclasts between 4 and 12 hr after isotope injection. However, fusion of labelled nuclei to osteoclasts continued for at least 150 hr. In general, the labelled osteoclasts exhibited a significantly larger number of nuclei than the unlabelled osteoclasts. The probability of an osteoclast incorporating one or more labelled nuclei increased with time after injection and with an increase in N/O. Labelling intensity decreased with time post injection and with an increase in N/O. The data suggest that turnover of nuclei is more rapid in osteoclasts with high N/O values.     

Comparison of morphological effects of PGE2 and TGFβ on osteoclastogenesis induced by RANKL in mouse bone marrow cell cultures

RANKL, in the presence of M-CSF, induces the development and fusion of TRAP+ osteoclasts in mouse bone marrow cultures at 3–5 days. Early during culture (day 3), most cells are small (up to six nuclei). At lower cell densities, these osteoclasts exhibit a rounded morphology with cytoplasm extending around the cells but, at higher densities, this changes to a stellate morphology with the cytoplasm being retracted around the nuclei with numerous localised cytoplasmic extensions. Under optimal conditions, osteoclast fusion results in conglomerates of many cells, which become large cytoplasmic masses on day 4. PGE2 and TGFβ have both been shown to increase osteoclast development in this model and their effects on the morphology of osteoclasts during fusion and differentiation have been compared under all these conditions. PGE2 or TGFβ increase osteoclast numbers and size and also the number of nuclei, indicating increased osteoclast development and fusion. TGFβ increases the size of rounded osteoclasts (with respect to the number of nuclei) more than PGE2, suggesting that TGFβ increases cytoplasmic extension. TGFβ increases the size and number of nuclei in stellate cells but particularly increases the number and length of the cytoplasmic extensions, in contrast to PGE2. Fusion of these extensions with other osteoclasts results in large networks of interconnected cells. On day 4, spreading cells develop but these are still interconnected by cytoplasmic links, a phenomenon not seen in control wells or after treatment with PGE2. TGFβ is more effective than PGE2 in increasing fusion in the formation of cell conglomerates and cytoplasmic masses. PGE2 decreases overall cell density resulting in additional indirect effects on osteoclast numbers and morphology. However, PGE2 particularly promotes the formation of large mature spreading osteoclasts later during culture.     

The distribution and kinetics of nuclei in rat osteoclasts

Osteoclast development and growth were studied by determining the number of labelled nuclei in osteoclasts of different sizes (based on the number of nuclei per osteoclast, N/O) and the number of osteoclasts with labelled nuclei at various intervals after tritiated thymidine [( 3H]TdR) injection in young rats. The osteoclast smears were made from the cellular periosteum of the proximal tibia. The frequency distribution of the N/O osteoclasts types in the smears had profiles similar to that of in situ osteoclasts in whole mounts of proximal tibia, which indicates that the osteoclast population of the smears was representative of that on the bone surface. A vast majority of the osteoclasts had a 1-6 N/O, and a number of the cells had as many as 26 or more nuclei. Furthermore, profiles of N/O frequency distributions were similar over the course of the study. Nuclei with [3H]TdR label were initially observed in osteoclasts between 4 and 12 hr after isotope injection. However, fusion of labelled nuclei to osteoclasts continued for at least 150 hr. In general, the labelled osteoclasts exhibited a significantly larger number of nuclei than the unlabelled osteoclasts. The probability of an osteoclast incorporating one or more labelled nuclei increased with time after injection and with an increase in N/O. Labelling intensity decreased with time post injection and with an increase in N/O. The data suggest that turnover of nuclei is more rapid in osteoclasts with high N/O values.     

DMSO regulates osteoclast development in vitro

Dimethyl sulfoxide (DMSO) is routinely used in the laboratory as a solvent and vehicle for organic molecules. Although it has been used in previous studies involving myeloid cells and macrophages, we are unaware of data demonstrating the effects of DMSO alone on osteoclast development. Recently, we were using DMSO as a vehicle and included a non-vehicle control. Surprisingly, we observed a marked change in osteoclast development, and therefore designed this study to examine the effects of DMSO on osteoclast development. Osteoclasts were generated from two sources: bone marrow macrophages and an osteoclast progenitor cell line. Cells were cultured with DMSO for various durations and at differing concentrations and mature, multinucleated (>3 nuclei) TRAP(+) cells were assessed in terms of cell number, cell surface area, and number of nuclei/cell. Osteoclast surface area increased in 5 μM DMSO to a mean of 156,422 pixels from a mean of 38,510 pixels in control culture, and subsequently decreased in 10 μM DMSO to a mean of 18,994 pixels. With serial addition of DMSO over 5 d, a significant increase in mean surface area, and number of nuclei/cell was also observed, while the opposite was true when DMSO was serially removed from culture. These findings show that DMSO exerts a marked effect on osteoclast differentiation. Since many investigators use DMSO to solubilize compounds for treatment of osteoclasts, caution is warranted as altering DMSO concentrations may have a profound effect on the final data, especially if osteoclast differentiation is being assessed.     

Ribosomal gene amplification in multinucleate oocytes of the egg brooding hylid frog Flectonotus pygmaeus

The multinucleate oocytes of Flectonotus pygmaeus begin as cysts containing 2,000 or more meiotic nuclei. Each nucleus amplifies its ribosomal DNA early in oogenesis. The level of amplification is widely different from one nucleus to another, and ranges from less than 0.1 × C to more than 8 × C. The C value for this species is 1.7 × 10^–12g of DNA. In oocytes of about 0.5 mm diameter the nuclei sort themselves out into an outer shell of several hundred nuclei that swell up to become much larger than the nuclei that remain in the inner compact mass. Later the outer nuclei continue to swell and decrease in number while the inner nuclei disintegrate and disappear. By the time the oocyte reaches 1.2mm diameter there are only a few large nuclei left and each has many large nucleoli and a full set of lampbrush chromosomes. Eventually, only one germinal vesicle nucleus is left, and this has all the characteristics of the single germinal vesicles that are typical of oocytes from other amphibians. It is suggested that the sorting out of nuclei into the inner mass and the outer shell of larger nuclei in middle sized oocytes is a consequence of the positions the nuclei happen to be in at the time, but that the contest for the role of germinal vesicle may be won by the nucleus of the outer shell that has the highest ribosomal DNA content.     

Effects of dexamethasone on expression and maintenance of cartilage in serum-containing cultures of calvaria cells

Summary The effects of dexamethasone on the ability of cells enzymatically isolated from 21-day fetal rat calvaria to produce cartilage in vitro has been investigated. Primary cultures of single-cell suspensions of rat calvaria were grown for up to 28 days in vitro in -minimal essential medium containing 15% fetal bovine serum, 50 /ml ascorbic acid, 10 mM Na -glycerophosphate and dexamethasone at concentrations of 1 M to 1 nM. Two types of nodules were present in dexamethasone-containing cultures. One has been characterized previously as bone (Bellows et al. 1986). The second morphologically resembled hyaline cartilage, possessed a strong Alcian blue-positive matrix and contained type-II, but not type-I, collagen. Both bone and cartilaginous nodules were spatially distinct and developed in isolation from each other. Cartilaginous nodules were found in the highest number at a dexamethasone concentration of 100 nM. Time-course experiments revealed that while the number of bone nodules increased continuously at least to day 28, the number of cartilaginous nodules remained constant after cultures had reached confluency. When cells were isolated separately from frontal and parietal bones and suturai regions, the greatest number of cartilaginous nodules developed from parietal bones. Since 21-day fetal rat calvaria contains 2 distinct patches of cartilage at the periphery of the parietal bones, it seems likely that this cartilaginous tissue is the origin of the cartilage cells. The results demonstrate that cultures of rat calvaria cells contain chondrocytes and possibly chondroprogenitor cells that are distinct from osteoprogenitors. Results support previous data that 100 nM dexamethasone permits the expression of and maintains the phenotype of chondrocytes in serum-containing cultures in vitro.     

Nitrogen-containing bisphosphonates inhibit RANKL- and M-CSF-induced osteoclast formation through the inhibition of ERK1/2 and Akt activation

Background

Bisphosphonates are an important class of antiresorptive drugs used in the treatment of metabolic bone diseases. Recent studies have shown that nitrogen-containing bisphosphonates induced apoptosis in rabbit osteoclasts and prevented prenylated small GTPase. However, whether bisphosphonates inhibit osteoclast formation has not been determined. In the present study, we investigated the inhibitory effect of minodronate and alendronate on the osteoclast formation and clarified the mechanism involved in a mouse macrophage-like cell lines C7 and RAW264.7.

Results

It was found that minodronate and alendronate inhibited the osteoclast formation of C7 cells induced by receptor activator of NF-κB ligand and macrophage colony stimulating factor, which are inhibited by the suppression of geranylgeranyl pyrophosphate (GGPP) biosynthesis. It was also found that minodronate and alendronate inhibited the osteoclast formation of RAW264.7 cells induced by receptor activator of NF-κB ligand. Furthermore, minodronate and alendornate decreased phosphorylated extracellular signal-regulated kinase 1/2 (ERK1/2) and Akt; similarly, U0126, a mitogen protein kinase kinase 1/2 (MEK1/2) inhibitor, and {"type":"entrez-nucleotide","attrs":{"text":"LY294002","term_id":"1257998346","term_text":"LY294002"}}LY294002, a phosphatidylinositol 3-kinase (PI3K) inhibitor, inhibited osteoclast formation.

Conclusions

This indicates that minodronate and alendronate inhibit GGPP biosynthesis in the mevalonate pathway and then signal transduction in the MEK/ERK and PI3K/Akt pathways, thereby inhibiting osteoclast formation. These results suggest a novel effect of bisphosphonates that could be effective in the treatment of bone metabolic diseases, such as osteoporosis.     

Dynamics and ultrastructural characteristics of osteoclast formation

Using electron microscopy and 3H-thymidine autoradiography it has been shown that osteoclasts of rats and rabbits are formed by fusion of cell precursors which become members of the osteoclasts 14 hours following S-phase. Monoblasts and promonocytes are considered as DNA-synthesizing forms. A single injection of parathormone in a dose of 10 units/100 g of body weight leads to an increase in the fractions of DNA-synthesizing cells. Monocytes and macrophages appear to be direct osteoclast precursors in resorption zones. As a result of their fusion there appear "unfixed" polynuclear macrophages (young osteoclasts). The number of osteoclast nuclei increases also at the expense of little-differentiated phagocytes, the inclusion of the latter takes place at different stages of the life span of osteoclasts depending on the intensity of bone resorption processes. The structural characteristics of fusion of cell precursors are considered.     

Analysis of cell ploidy in histological sections of mouse tissues by DNA-DNA in situ hybridization with digoxigenin-labelled probes

Summary DNA-DNA in situ hybridization, with two digoxigenin-labelled, chromosome-specific DNA probes, was used to determine the number of copies of a given chromosome in interphase nuclei and so identify putatively polyploid nuclei in histological sections of several mouse tissues. One hybridization site per diploid genome was expected for tissues with hemizygous markers: male mice hybridized with a Y chromosome probe (pY353/B) or hemizygous transgenic mice hybridized with a -globin probe (pM02). Nuclei with more than one hybridization site were considered putative polyploids. Three groups of experiments were undertaken: (1) evaluation of the method, using mouse liver sections; (2) studies of tissues already known to contain polyploid nuclei, and (3) studies that resulted in the discovery that the mouse ovary contains polyploid nuclei. First, control studies showed that the ability to detect the target DNA sequences was affected by section thickness. Studies of nuclear ploidy in the developing mouse liver revealed a pattern similar to that established by previous studies using DNA content as a criterion for ploidy. At birth, only about 5% of the liver nuclei were polyploid; this increased to 10–15% by 10–20 days and was followed by a sharp increase in the frequency of tetraploid nuclei between 20 and 40 days (to about 35%) and a more gradual increase in higher order polyploid nuclei. Secondly, this technique was used to confirm that polyploid (mostly tetraploid) nuclei were present in the bladder epithelium, heart, uterine decidua and placental trophoblast. Higher order polyploidy was seen in large bone marrow cells (megakaryocytes) but not in the even larger trophoblast giant cells of the placenta, thus confirming previous claims that these cells are polytene rather than polyploid. Thirdly, putatively tetraploid nuclei were found in the ovarian follicle and corpus luteum. As far as we are aware, this is the first time polyploid nuclei have been reported for the mouse ovary.     

The arrangement of chromosomes in nuclei of sperm from plethodontid salamanders

Plethodontid salamanders have n = 13 or 14 large metacentric or sub-metacentric chromosomes. Sperm nuclei from Plethodon cinereus measure 72×1 m. The nucleoprotein of spermatids is at first finely granular. In elongate spermatids it clumps into larger granules, which then fuse to form the compact nucleoprotein of the mature sperm. The nuclei of mature sperm are negatively birefringent with respect to their length. — ³H RNA complementary to high-density satellite DNA of centromeric heterochromatin in P. cinereus has been hybridized in-situ to spermatids and sperm, and its site of binding to these cells has been examined by autoradiography. Labelling of round spermatid nuclei is localized in a single patch. Elongate spermatid nuclei are labelled only over the rear quarter of the nucleus. Label over the nuclei of mature sperm is localized in a region extending 10–20 m forwards from the rear of the nucleus. — In P. cinereus the ribosomal genes are located near the centromere on the short arm of chromosome 7. ³H ribosomal RNA hybridizes to a single patch in round spermatid nuclei. Elongate spermatid nuclei show label over a short segment of the rear half of the nucleus. In spermatids nearing maturity the labelled region is never more than 20 m long. — These results indicate that in P. cinereus each chromosome is arranged in a U formation with its centromere at the base of the sperm nucleus, and its arms extended forwards along the length of the nucleus. — Among plethodontids, increase in C value and corresponding increase in chromosome size is accompanied by increase in the length rather than the width of the sperm nucleus. — ³H ribosomal RNA hybridizes to a short segment in spermatid and sperm nuclei from Xenopus and Triturus. In these animals, the position of the labelled segment varies from sperm to sperm.     

The synaptonemal complexes of Caenorhabditis elegans: Pachytene karyotype analysis of the Dp 1 mutant and Disjunction Regulator Regions

The duplication mutant Dp1 presents morphological changes of the pachytene nuclei which include enlarged nuclei (58% greater than the wild type (WT)) and increased total length of the synaptonemal complex (SC) complement (32% greater than WT). The size of the nucleolus is similar to that of the wild type. The SC of the XX bivalent is 2.5 m long which is similar to the length in other strains. Genetic analysis (Herman et al. 1976) has shown that a duplicated segment of the X chromosome has been transposed to linkage group V in the Dp1 mutant. The present analysis, however, did not reveal the expected duplication loop in bivalent V of the heterozygous Dp1 strain. There is an average of three Disjunction Regulator Regions (DRR) per nucleus and approximately 1% X-chromosome nondisjunction which is consistent with the notion that the presence of DRRs somehow facilitates regular disjunction of the X chromosome. Statistical analysis, based on 9 different strains and 81 nuclei, indicates that there is a good correlation between the frequency of occurrence of X-chromosome nondisjunction and the number of DRRs.     

Silver staining in pinealocyte nuclei: Observations and quantitative analysis during the rat oestrous cycle

Summary Morphology, distribution and number of different argyrophilic aggregates appearing in pinealocyte nuclei have been studied during the rat oestrous cycle. Using the Ag-NOR reaction we have found two types of argyrophilic aggregates in pinealocyte nuclei. One of them, corresponding to the fibrillar centres and the surrounding fibrillar component, appears in the nucleoli. The silver grains are more loosely packed in the dense fibrillar component than in the fibrillar centres. A decrease in the number of these nucleolar argyrophilic aggregates was obtained at oestrous. A second type of silver grain aggregate was observed in the pinealocyte nucleoplasm. We call them Ag-granule clusters because they are similar to the interchromatin granule clusters and constitute the only silver deposit forming aggregates apart from the nucleolus. The number of Ag-granule clusters is significantly smaller at oestrous and meta-oestrous than at dioestrous and pro-oestrous.     

Myosatellite cells associated with different muscle fibre types in the Atlantic hagfish (Myxine glutinosa,L.)

Summary The incidence of myosatellite cells associated with white and red muscle fibres of the parietal muscle and red fibres of the craniovelar muscle was estimated by quantitative electron microscopy in the Atlantic hagfish (Myxine glutinosa, L.). Myosatellite cell nuclei constitute 3, 11 and 23 % of the total number of nuclei inside the basal lamina of the three types of muscle fibres, respectively. However, the total number of nuclei is highest in white fibres, most of the nuclei belonging to striated muscle cells. Myosatellite cell profiles in transverse sections constitute 23, 41 and 61 % of the number of muscle fibre profiles of the three types, respectively. The intervals between adjacent myosatellite cells are 135 m in white fibres, 55 m in red parietal fibres, and only 25 m in craniovelar fibres. Since craniovelar fibres are also comparatively thin, myosatellite cells constitute a significant fraction of the volume inside the basal lamina in these fibres. The myosatellite cells are 30–50 m long and up to 5 m thick. Some myosatellite cells possess few organelles, whereas others appear to contain many free ribosomes, granular endoplasmic reticulum, prominent Golgi apparatus and lysosome-like bodies.This investigation was supported by the Norwegian Research Council for Science and the Humanities (NAVF grant No. C20.30–37). The authors are indebted to Jorunn Line Vaaland and Berit Branil for technical assistance, and to Dr. Finn Walvig, Biological Station, University of Oslo, Drøbak, for supplying the hagfish     

RNA Polymerase B levels during the cell cycle ofPhysarum polycephalum

Summary Tritiated -amanitin has been used as a specific and sensitive probe to estimate the number of RNA polymerase B molecules in isolated nuclei, chromatin and nucleoids, obtained from macroplasmodia ofPhysarum polycephalum. During mitosis (metaphase±10 min) there is at least 10-fold less RNA polymerase B than at all phases of the cell cycle, even if DNA replication has been blocked in vivo. It is concluded that many of the RNA polymerase B molecules leave the chromatin during decondensation of the chromosomes in telophase of the synchronous nuclear division ofPhysarum.     

Structural changes occurring during atresia in sheep ovarian follicles

Summary The structural changes that characterize primary, secondary and tertiary atresia in sheep Graafian follicles have been studied by means of histological, histochemical and ultrastructural techniques.In primary atresia vacuoles representing swollen endoplasmic reticulum are prominent along the antral border together with disorganized granulosa cells containing pyknotic nuclei. Phagocytic cells, which increase in number as atresia progresses, were seen within the membrana granulosa and are considered to be transformed granulosa cells. Even in follicles classified as nonatretic, a few antral vacuoles and occasional pyknotic nuclei are present.During secondary atresia there is a large increase in the number of cells with pyknotic nuclei; many of these nuclei had been extruded and had fused to form the characteristic Feulgen-positive atretic bodies found along the edge of the antral cavity. These bodies usually have a diameter of up to 15 m but occasionally reached as much as 400 m. A second area of degeneration is frequently present in the membrana granulosa, two or three cell layers from the basal lamina, and it is at this level that exfoliation of granulosa cells occurs in tertiary atresia. In contrast to the membrana granulosa, there are during secondary atresia, only slight indications of degeneration in the cumulus.In tertiary atresia the membrana granulosa is highly disorganized; the atretic bodies are often fewer in number than at earlier stages. The basal lamina remains essentially intact. It is at this stage that the first clear signs of degeneration occur in the theca interna. Despite some disintegration of the cumulus, the integrity of the oocyte is maintained and its nucleus remains vesicular.Changes in the thecal microcirculation may play a key role in atresia: adjacent to the basal lamina of non-atretic follicles, there is a well-developed capillary network which is significantly reduced as atresia progresses.The authors are greatly indebted to Dr. H.M. Dott and Mr. G.C. Foster for carrying out the analysis with the Quantimet image analysing computer. The skilled technical assistance of Mrs. Linda Collins is also gratefully acknowledged