Mean diameter of nucleolar bodies in cultured human leukemic myeloblasts is mainly related to the S and G2 phase of the cell cycle

Mean diameter of nucleolar bodies (nucleoli without the perinucleolar chromatin) per cell was studied in human leukemic myeloblasts represented by K 562 and Kasumi 1 cell lines which originated from chronic and acute myeloid leukaemia. The measurement of mean diameter of nucleolar bodies in specimens stained for RNA was very simple. Such approach eliminated the variability of the perinucleolar chromatin discontinuous shell which might influence the measured nucleolar size as suggested by earlier studies. Ageing of K 562 myeloblasts produced a significant decrease of cells in S+G2 phase of the cell cycle accompanied by a significant reduction of mean diameter of nucleolar bodies (MDNoBs) per cell. In contrast, treatment of Kasumi 1 myeloblasts with histone deacetylase inhibitor - Trichostatin A - produced a large incidence of resistant cells in S+G2 phase which were characterised by a large increase of MDNoBs. Thus, MDNoBs in leukemic myeloblasts might be a helpful tool to estimate the incidence of cells in the S+G2 phase at the single cell level in smear preparations when the number of cells is very small.     

To the nucleolar density and size in apoptotic human leukemic myeloblasts produced in vitro by Trichostatin A

The present study was designed to provide more information on nucleoli in apoptotic cells,which were represented in the present study by cultured leukemic myeloblasts (Kasumi-1 cells). The apoptotic process in these cells was produced by trichostatin A (TSA) that is a histone deacetylase inhibitor with strong cytostatic effects. The selected TSA concentration added to cultures facilitated to study apoptotic and not-apoptotic cells in one and the same specimen. The nucleolar diameter and density were determined using computer assisted measurement and densitometry in specimens stained for RNA. In comparison with not-apoptotic cells, in apoptotic cells, nucleolar mean diameter did not change significantly and nucleolar RNA density was also not apparently different. On the other hand, the cytoplasmic RNA density in apoptotic cells was markedly reduced. Thus it seemed to be possible that the transcribed RNA remained "frozen"within the nucleolus but its transport to the cytoplasm decreased or stopped. However, the possibility of the RNA degradation in the cytoplasm of apoptotic cells based on the present study cannot be eliminated. At this occasion it should be added that AgNORs reflecting nucleolar biosynthetic and cell proliferation activity in apoptotic cells decreased in number or disappeared. The presented results also indicated that large nucleoli intensely stained for RNA need not be necessarily related to the high nucleolar biosynthetic or cell proliferation activity and may be also present in apoptotic cells responding to the cytostatic treatment.     

Proliferating cell nuclear antigen (PCNA) and human malignant tumor nucleolar antigens (HMTNA) in nucleoli of human hematological malignancies

Lymphoma (Lymphocytic non-Hodgkin's malignant lymphoma) and leukemic (chronic lymphocytic, acute and chronic myeloid, myelomonocytic leukemia) cells were studied by indirect immunofluorescence to evaluate the presence of proliferating cell nuclear antigen (PCNA) and human malignant tumor nuclear antigen (HMTNA) in their nucleoli. Most cells in lymph node smears of lymphocytic non-Hodgkin's malignant lymphoma (NHML) developed a bright nucleolar fluorescence with HMTNA antibodies. PCNA was detected in nucleoli of a limited number of cells which apparently represent the proliferating cell population in these lymphomas. Similarly, in the bone marrow smears of patients with chronic lymphocytic leukemia most cells possessed a nucleolar fluorescence for HMTNA and PCNA was present in nucleoli of a limited number of cells. In the bone marrow smears of patients with myeloid or myelomonocytic leukemias most blastic or monocytoid cells also developed a bright nucleolar fluorescence with HMTNA antibodies and PCNA was present only in a small percentage of these cells. Leukemic cells with PCNA in their nucleoli like thekhuntigen might represent a proliferating cell population in late G1-early S phase.     

A further study on nucleolar silver stained granules in some mononuclear-lymphoid bone marrow cells

Nucleolar silver stained granules (SSGs) representing nucleolus organizer regions (NORs) were investigated in human as well as rabbit bone marrows after visualization with standardized silver reaction for non-histone nucleolar argyrophilic proteins. The results indicated that few mononuclear lymphoid blast-like cells in investigated bone marrows are characterized by large irregularly shaped nucleoli which contain a larger number of SSGs than myeloblasts or proerythroblasts as well as immature or stimulated lymphocytes. Since according to previous studies the number of nucleolar SSGs decreased in the course of the erythroid, granulocytic and lymphocytic differentiation and maturation, a possibility exists that the described mononuclear lymphoid blast-like cells are even less differentiated and immature than committed stem cells for mentioned cell lines.     

Nucleolar immunofluorescence in human hematological malignancies.

Rabbit antibodies to the nuclear Tris extract of HeLa cells which have been shown by the indirect immunofluorescence technique to localize in nucleoli of a variety of human malignant tumors but not in a number of nontumor tissues also produced bright fluorescence in nucleoli of tumor cells in several hematological malignancies. The tumors studied included Hodgkins malignant lymphoma, non-Hodgkins malignant lymphoma, acute myeloid and acute myelomonocytic leukemia, chronic lymphatic and chronic myeloid leukemia. In contrast, none of the corresponding normal cell lines in the bone marrow exhibited bright nucleolar fluorescence. In addition, neither the cells of patients with acute infectious mononucleosis nor lymphoid hyperplasia exhibited bright nucleolar fluorescence. These studies suggest that antibodies to HeLa cell nucleolar antigens may be useful in immunodiagnosis of human malignancies.     

To the intranucleolar translocation of AgNORs in leukemic early granulocytic and plasmacytic precursors

Early leukemic granulocytic and plasmacytic precursors were studied in vitro and in vivo to provide an information on the intranucleolar distribution of AgNORs (silver stained nucleolus organizer regions). In most of these cells AgNORs appeared as clusters of silver stained particles distributed in the whole nucleolar body. On the other hand, in some leukemic early granulocytic precursors, i.e., in myeloblasts and promyelocytes enlarged AgNORs were translocated in the nucleolar peripheral part. In addition, the number of translocated AgNORs at the nucleolar periphery was significantly smaller. Such translocation of a reduced number of AgNORs was easily produced by experimental aging, i.e., starving of cultured leukemic early granulocytic precursors (HL-60 and K562 cells) in vitro and seems to be reversible. Similar translocation of a reduced number of AgNORs was also produced by aging of leukemic plasmacytic precursors. Thus, the translocation of the reduced number of AgNORs to the nucleolar periphery in some blastic leukemic hematopoietic cells might be an useful marker of their aging at the single cell level. However, more studies in this direction are required in the future.     

A further contribution on nucleoli of human lymphocytes.

Cultured human lymphocytes were investigated by means of light as well as electron microscopic procedures to provide more information on the structural organization of their nucleoli. The transformation of ring shaped nucleoli to nucleoli with less or more distinct nucleolonemata in PHA stimulated cells was characterized by a marked increase of granular RNP components in number indicating the activation of their production. This phenomenon seems to be related not only to the activation of the ribosomal RNA synthesis but also to its processing. The appearance of fibrillar RNP components in the central area of the ring shaped nucleoli apparently represents the first sign of the nucleolar RNA synthesis in these cells. The proportion of fibrillar and granular nucleolar RNP comonents in PHA inresponsive lymphocytes was similar to that in lymphocytes from patients with the usual type of lymphocytic leukemia. The intranucleolar chromatin areas appeared to be larger in PHA stimulated lymphocytes but the proportion of these areas to the nucleolar body did not show substantial difference as compared to the resting cells.     

Silver staining of the nucleoli of pig embryonic kidney cells during the hyperactivation and inhibition of the synthesis of nucleolar RNA by UV microirradiation

Silver staining of the nucleoli in pig embryo kidney cells (PK) was studied during the cell cycle and also upon mature nucleoli modifications induced by UV microirradiation. During anaphase only four silver-stained granules were revealed in each daughter set of chromosomes in the four nucleolus-organizing regions (NORs). In the following 1-2 hours, the number of granules in the NORs rapidly increased up to 25-30 per nucleus. During the next 20-25 hours of the cell cycle, the number of silver-stained granules was slowly doubling as the nucleoli grew in size. UV microirradiation of one nucleolus in the nucleus with two nucleoli induced a profound degradation of the injured nucleolus and a compensatory hypertrophy of the intact one. Such nucleolar modifications were accompanied by redistribution of the silver-stained granules between the injured and non-injured nucleoli and by alterations in the levels of nucleolar RNA synthesis in the NORs. These data support a hypothesis that silver-stained proteins may be involved in the regulation of the nucleolar activity.     

Nucleolar activity in the fusiform cambial cells of Abies balsamea (Pinaceae): effect of season and age

Nucleolar involvement in the regulation of the activity-rest-quiescence cycle of the vascular cambium was assessed by determining the seasonal variation in number, diameter, and volume of nucleoli in fusiform cells of Abies balsamea (L.) Mill. The cells were isolated from 1- and 19-yr-old cambia and stained with either silver nitrate or Feulgen + naphthol yellow-S. The ability of fusiform cells to incorporate [5-³H]-uridine into nuclei and nucleoli was also determined. In the 1-yr-old cambium, the activity of the nucleoli, as evidenced by their diameter, total volume per cell, and intensity of staining with silver nitrate, exhibited two maxima during the year—a large one during cambial reactivation in April-May and a small one during the rest-quiescence transition in October. Incorporation of radiolabeled uridine at 20 C was low at the end of the active period and increased during the rest–quiescence transition, suggesting that the quiescent, but not the resting, cambium can rapidly resume nucleolar activity when the temperature is permissive. The number of nucleoli per cell varied between two and eight, and was higher during the dormant than the active period. The increase in number took place during the autumnal activity–rest–quiescence transition, when cambial cells were arrested in the G₁ phase of the cell cycle. Similar seasonal changes in nucleolar morphology were observed in the 19-yr-old cambium. Nucleolar diameter and total nucleolar volume were larger in the 19-yr-old cambium than in the 1-yr-old cambium, whereas nucleolar number was lower. Th results suggest that repression of rRNA genes underlies the development of rest when the cambium will not produce new cells.     

The induction of nucleolar fragmentation and the inhibition of RNA synthesis in HeLa cells by MPB and their restoration

The effects of MPB on the staining intensity of pyronine G, the fine structure of HeLa cell nucleoli and RNA synthesis were investigated. MPB (50 μg/ml) produced a loss of pyronine G staining material (RNA) and fragmentation of nucleoli in HeLa cells within 3 h; however, these changes in nucleoli were rapidly reversed by removal of the drug. These morphological alterations of nucleoli were apparently related to the inhibitory action of MPB on nucleolar RNA synthesis in HeLa cells, and its reversibility.     

REPOPULATION OF POSTMITOTIC NUCLEOLI BY PREFORMED RNA : II. Ultrastructure

The reconstruction of the nucleolus after mitosis was analyzed by electron microscopy in cultured mammalian (L929) cells in which nucleolar RNA synthesis was inhibited for a 3 h period either after or before mitosis. When synchronized mitotic cells were plated into a concentration of actinomycin D sufficient to block nucleolar RNA synthesis preferentially, nucleoli were formed at telophase as usual. 3 h after mitosis, these nucleoli had fibrillar and particulate components and possessed the segregated appearance characteristic of nucleoli of actinomycin D-treated cells. Cells in which actinomycin D was present for the last 3 h preceding mitosis did not form nucleoli by 3 h after mitosis though small fibrillar prenucleolar bodies were detectable at this time. These bodies subsequently grew in size and eventually acquired a particulate component. It took about a full cell cycle before nucleoli of these cells were completely normal in appearance. Thus, nucleolar RNA synthesis after mitosis is not necessary for organization of nucleoli after mitosis. However, inhibition of nucleolar RNA synthesis before mitosis renders the cell incapable of forming nucleoli immediately after mitosis. If cells are permitted to resume RNA synthesis after mitosis, they eventually regain nucleoli of normal morphology.     

Immunofluorescence studies on proteins B23 and C23 in nucleoli of human lymphocytes

Nucleoli of normal and leukemic lymphocytes were studied by cytochemical and immunofluorescence methods to provide more information on the nucleolar presence and distribution of proteins B23 and C23. Annular nucleoli of human lymphocytes represent a very convenient subject for such studies, since they consist of one centrally located large fibrillar center surrounded by RNP components. In such nucleoli, protein C23 was present mainly in the central nucleolar region and protein B23 was found mostly in the periphery. The nucleolar area immunostained for protein B23 was usually larger than that stained for protein C23. The distribution of protein C23 appeared to be similar to that of intensely stained nucleolar argyrophilic components. No substantial differences were found between the distribution of proteins B23 and C23 in nucleoli of normal and leukemic lymphocytes. In lymphocytes of patients treated with chemotherapy, the immunofluorescence was diminished for protein B23 and particularly so for protein C23.     

A comparison of the rate of DNA synthesis in myeloblasts from peripheral blood and bone marrows of patients with acute nonlymphocytic leukemia

Durations of S-phase (Ts) and total cell cycle times (Tc) were measured from the peripheral blood (PB) and bone marrow aspirates (BM) of five patients with acute nonlymphocytic leukemia (ANLL). Intravenous bromodeoxyuridine (BrdU) was used as the first label for S-phase cells and a monoclonal anti-BrdU antibody was used to detect the positive cells. Tritiated thymidine [( 3H]Tdr) was used as a second label in vitro, and the Ts was calculated by counting the number of cells labeled either by BrdU or by [3H]Tdr or by both. Our data demonstrate that the duration of S-phase in myeloblasts obtained from BM is quite similar to that of circulating leukemic cells. Finally, the most accurate assessment of percentage of myeloblasts actively engaged in DNA synthesis can be obtained only from bone marrow biopsies following in vivo labeling.     

NUCLEOLAR SIZE DIFFERENCES IN THE GRASS ROOT EPIDERMIS

Root tips of the festucoid grass, Festuca arundinacea, and 2 panicoid species, Chloris gayana and Panicum virgatum, were processed using 2 different staining techniques. Measurements of nucleolar size were taken on epidermal and cortical cells. Trichoblasts and hair cells of Festuca were found to contain much larger nucleoli than those in hairless initials or hairless cells. Significant nucleolar size differences between hair and hairless cells were also found in the 2 panicoid species. In contrast to Festuca, this difference between the 2 cell types was not as pronounced, and overlapping in nucleolar size occurred between adjacent hair and hairless cells. The cortex was composed of rows of cells in which nucleolar size simply decreased with cell distance from the apex. The significance of the observed nucleolar differences among cell types of the root tip is discussed briefly in relation to systematics, enzyme activity patterns, and differentiation.     

Morphological phase-contrast cinematographic studies on the behavior of bone marrow cells in vitro. X. Myeloblasts and monoblasts]

The myeloblast is nearly of the same size as the lymphozyte and has the same nucleus cytoplasma ratio of 0.7 but differs from it in its morphology, its high frequency of multiplication, and by its kinetic behaviour. By phase contrast observation the transformation of the myeloblast into the promyelocyte has been seen several times. The myeloblast like the lymphocyte is able to move although at a much slower speed. By locomotion the myeloblast, and likewise the lymphocyte can move between blood and bone marrow. Of the granulocytopoietic series only the promyelocyte and the myelocyte with their nuclear cytoplasm relation of 0.3 are found in the bone marrow. The monoblast but is about twice its size, and moves less often. Apart from its transformation into promonocyte, monocyte and histiocyte, the monoblast may evalue in another way: it grows into a cell of doubled size with the same nucleus cytoplasm ratio 0.7 in whose cytoplasm are seen a lot of big granules. The cell may now be characterized as a tissue macrophage or mastcell. In consequence a frequently multiplying basophilic cell with a coarse nuclear structure and nucleoli, grows from a diameter of 6.5 to one of 13.0 mum without marked morphologic change apart from becoming alpha-NA-Esterase positive and acquiring big lysosomes. When this haemocytoblast is small (K 1/4 to K 1/2), it can be triggered into the granulocytopoietic series, when it is bigger (K 1/2 to K1) into the monocytopoietic series, or in the size K1 to K2 by erythropoietin into the erythropoietic series. If no triggering takes place, the cell degenerates after having granulated. The lymphopoietic system is not connected to this system of stem cells committed to the granulocytopoietic, the monocytopoietic and the erythropoietic series. Therefore we postulate a dual haematopoietic system. In acute leukemias the spread of size of cells and nuclei is wider and kinetically active stem cells are rarer. Only leukemic promyelocytes are in locomotion vividly, in contrast to the normal ones. In leukemic myeloblasts there are fewer mitoses than in normal ones, but in leukemic promyelocytes and monoblasts the mitotic frequency is not reduced.     

Nucleolar silver-staining patterns related to cell cycle phase and cell generation of PHA-stimulated human lymphocytes

Silver staining (Ag-I) was used to investigate changes in the nucleolar structure of PHA-stimulated human lymphocytes through the phases of the cell cycle, G1, S and G2. Ag-I patterns and cell cycle phases of individual cells were assessed by sequential silver staining, Feulgen staining, DNA microdensitometry and 3H-thymidine autoradiography. The morphology and number of Ag-I nucleoli in a particular cell depended upon the phase of the cell cycle reached and on the number of generations the cell had passed through in culture. Resting, unstimulated cells usually had one small silver positive nucleolus. During blast transformation, the silver stained nucleoli increased in number and size, and then fused to form one very large, rounded or irregular-shaped nucleolus which was present through all cell cycle phases of the first reproductive cycle. Many lymphocytes developed a band-shaped nucleolus during their first S phase in culture. Lymphocytes at all cell cycle stages of the second and third generations after PHA-stimulation had multiple nucleoli whose combined areas approximated that of the single large nucleolus observed in first generation cells.     

C. I. acid red 52: a new stain for cells of granulocytic origin

Using the xanthene dye C.I. acid red 52 (C.I. 45100) as a single agent stain applied to coverslip preparations of blood and bone marrow, primary and secondary granules in cells of neutrophilic origin stained brilliant pink. In eosinophils, granules stained dark red. In leukemic myeloblasts that also stained with Sudan black B and demonstrated myeloperoxidase and specific esterase activity, a few bright red staining granules were visualized with acid red 52. In some leukemic promyelocytes, Auer rods stained bright red. In leukemic lymphoblasts, no red granules were seen. Of a wide variety of dyes tested so far, acid red 52 is the most sensitive stain for primary and secondary granules of granulocytes in blood and bone marrow.     

C. I. Acid Red 52: A New Stain for Cells of Granulocytic Origin

Using the xanthene dye C.I. acid red 52 (CI. 45100) as a single agent stain applied to coverslip preparations of blood and bone marrow, primary and secondary granules in cells of neutrophilic origin stained brilliant pink. In eosinophils, granules stained dark red. In leukemic myeloblasts that also stained with Sudan black B and demonstrated myeloperoxidase and specific esterase activity, a few bright red staining granules were visualized with acid red 52- In some leukemic promyelocytes, Auer rods stained bright red. In leukemic lymphoblasts, no red granules were seen. Of a wide variety of dyes tested so far, acid red 52 is the most sensitive stain for primary and secondary granules of granulocytes in blood and bone marrow.     

Characteristics of the silver-stained nucleoli of tumor cells from the pleural fluid of lung cancer patients

Tumor cell nucleoli obtained from pleural effusions of 26 patients with different morphologic types of lung cancer were evaluated by silver staining. Distinct heterogeneity of tumor cell populations, with regard to the number of nucleoli as well as their functional activity in respect to ribosomal RNA synthesis, were shown to be the most common feature of all the tumors studied, regardless of their morphologic variants. One likely cause of heterogeneity in Ag nucleolar organized region (NOR) pattern of tumor cells may be due to chromosomal losses and gains from the karyotypes of acrocentric chromosomes with active NORs. Another possible cause for heterogeneity in nucleolar activity might be due to different reactions of tumor cells towards some humoral and cellular factors of pleural fluid including T-lymphocytes.