Endogenous blockage and delay of the chromosome cycle despite normal recruitment and growth phase explain poor proliferation and frequent edomitosis in Fanconi anemia cells.

BrdU-Hoechst flow cytometry was employed to study the proliferation kinetics of blood lymphocytes from patients with Fanconi anemia (FA). Compared to controls, untreated FA lymphocytes show normal response to PHA stimulation, normal G0/G1 exit rates, and normal first S-phase durations. The G2 phase of the first cell cycle, however, is severely prolonged, and 24% of the recruited population become arrested during the first chromosome cycle (S, G2/M phases). The delay suffered during G2 appears to be compensated in part by a subsequent G1 phase duration that is unusually short for postnatal human cells (3.7 +/- 0.5 hrs). In analogy to what has been observed in other cell systems after experimental delays of the chromosome cycle, we therefore postulate that at least some FA cells enter their second growth phase without prior completion of the delayed chromosome cycle. Renewed replication would ensue in such cells without prior passing through mitosis and cytokinesis, leading to endoreduplication, which is a frequent finding in the FA syndrome.     

Dna Synthesis and Cell Generation Pattern of Chronic Lymphatic Leukaemia Lymphocytes Stimulated By Phytohaemagglutinin

A detailed analysis of the cell recruitment and of the cell generation pattern of normal lymphocytes and chronic lymphatic leukaemia (CLL) lymphocytes, simulated by phytohaemagglutinin (PHA), was performed by the bromodi-oxyuridine (BUdR) Hoechst technique. It was found that in normal cultures the majority of cells divide two or three times, producing an early peak of DNA synthesis, while only a few cells grow exponentially and pass through many rounds of replication. On the contrary, the majority of CLL responsive cells grow exponentially, producing a delayed peak of DNA synthesis, while cells which divide only two or three times are scarce or absent. No difference in the minimal cell cycle length of the normal and the CLL exponentially growing population was found. In addition, a cell population recruited into cycle for the first time 5–6 days following PHA stimulation was observed in normal cultures but not in CLL cultures.     

Cell kinetics of PHA-activated lymphocytes are slowed by prolonged hypertonic stress

The effect of prolonged exposure to a hypertonic medium on human lymphocytes during mitogenic stimulation with phytohemagglutinin was investigated. The process of chromatin decondensation during the first 24 hrs stimulation (G0 to G1 transition) and the changes in kinetic parameters and the occurrence of chromosome aberrations from 48 hrs to 72 hrs of stimulation were studied. In HT medium, lymphocyte transition from G0 to G1 was slowed; there were fewer S-phase cells, after 48 hrs PHA stimulation, whereas after 72 hrs the resistant cells showed the same frequency of S-phase cells as the controls. The mitotic index was always smaller, and the frequency of G0/G1 cells larger. No significant increase in the frequencies of chromosome aberrations were found. These findings suggest that human peripheral lymphocytes can survive and grow in a hypertonic medium; chromosome damages, if not repaired, may be lethal, and only lymphocytes with normal karyotypes can survive for long times in the HT medium, although with modified kinetic characteristics.     

Cytophotometry of granulocytes in chronic granulocytic leukemia patients. Part I. Cell cycle distribution, S-phase transition and quantitative cytochemistry

In the chronic phase of CGL the proportion of granulocytes in S + G2 was lower (18.7 +/- 1.3% in marrow and 16.7 +/- 2.4% in blood) than in normal bone marrow (42.4 +/- 2.9%) as studied by Feulgen-DNA cytophotometry. During the blast crisis the percentage of S + G2 blasts was 39.3 +/- 8.4 in marrow and 38.7 +/- 7.8 in blood which was much higher than in acute myeloblastic leukemia patients (10.8 +/- 1.4 and 5.1 +/- 1.0). Thymidine labelling index values were lower than the percentage of cytophotometrically detected S-phase cells: up to 28% of cells with Feulgen-DNA content corresponding to S-phase did not incorporate 3H-thymidine. The rate of DNA synthesis remained constant during the S-phase but 3H-thymidine uptake increases towards the end of the S-phase. Morphometric parameters and quantitative cytochemical (PAS, Sudan, myeloperoxidase activity) characteristics of polymorphonuclear neutrophils were altered during the chronic phase of the disease but remained in the normal range during the blast crisis. Mature neutrophils in the blast crisis are assumed to originate from normal granulocyte progenitors.     

The somatostatin analogue peptide TT-232 induces apoptosis and chromosome breakage in cultured human lymphocytes

Somatostatin receptors are supposed to be important in the regulation of apoptosis. In this study, we measured apoptosis occurring spontaneously, or induced by the synthetic somatostatin analogue, the peptide TT-232. We examined isolated human peripheral blood lymphocytes (PBL) from 32 nurses exposed bedside to cytostatic drugs, 12 chronic lymphoid leukaemia (CLL) patients prior to treatment, and 19 unexposed, healthy donors without anamnestic occupational exposure to genotoxic agents. Cells were stimulated by phytohaemagglutinin-P (PHA) and cultured for 69 h with or without 15 microg/ml TT-232, respectively. Cell kinetic parameters and apoptosis were determined by flow cytometry after staining with FITC-labeled anti-BrdU and propidium iodide (PI) and the results on spontaneous and peptide-induced apoptosis were compared with the obtained chromosome aberration frequencies (CA). The peptide TT-232 unexpectedly induced chromosome breakage in addition to apoptosis. The mean spontaneous apoptotic fractions were 6.65+/-0.89%, 6.46+/-0. 53%, and 3.07+/-0.57%, and the mean CA yields in the samples without TT-232 were 1.74+/-0.46%, 2.44+/-0.40%, and 4.50+/-1.05%, for healthy subjects, nurses, and CLL patients, respectively. A total of 15 microg/ml TT-232 treatment in healthy subjects increased the mean CA frequency (10.38+/-1.57%), as well as the apoptotic cell fraction (2.63+/-0.45 times higher than the corresponding untreated sample). In TT-232-treated PBLs of nurses, CA remained unchanged and the mean apoptotic cell fraction showed only a slight increase (1.24+/-0.11 times higher than the untreated). Among CLL patients, TT-232 treatment significantly increased both CA (up to 17.83+/-4.04%) and the ratio of apoptotic cells (21.78+/-11.00 times higher than the untreated). These results demonstrated significant differences in apoptosis sensitivity in controls, nurses and CLL donors, after 15 microg/ml TT-232 treatment. Data also indicate that the induced CA yields in CLL donors with high CA are in correlation with TT-232-induced apoptosis.     

The chronic lymphatic leukemia lymphocyte: Correlation of functional,metabolic, and surface immunoglobulin characteristics

This study determined the correlation between the functional capacity of chronic lymphatic leukemia lymphocytes as determined by their response to nonspecific mitogens with their glucose metabolism and surface immunoglobulin characteristics. A majority of patients (12) were found to have lymphocytes with impaired transformation to both PHA and pokeweed mitogens. These cells also had impaired glucose metabolism in unstimulated cultures and failed to have the striking increase in glucose metabolism in response to mitogens which is characteristic of normal lymphocytes. Most of these lymphocytes had IgM surface immunoglobulins. However, we were not able to demonstrate surface immunoglobulins on the lymphocytes of one patient in this group. Two patients were found to have lymphocytes with normal lymphoblastic transformation to PHA and impaired transformation to pokeweed suggesting cells of T origin. The glucose metabolism of these lymphocytes were less impaired in unstimulated cultures than those of the other patients and had a striking increment in glucose metabolism in response to PHA similar to normal lymphocytes. Unexpectedly, these lymphocytes were found to have IgG on their surface suggesting cells of B origin. These results indicate that there may be two groups of CLL patients with clinically similar disease in whom the functional and metabolic characteristics of the lymphocytes are distinct and that the surface immunoglobulin characteristic of lymphocytes may not always predict their functional characteristic.     

Proteoglycan synthesis in normal and Lowe syndrome fibroblasts

Lowe (oculocerebrorenal) syndrome (LS) is an X-linked disorder characterized by congenital cataracts, generalized hypotonia, mental retardation, and renal Fanconi syndrome. The basic defect remains unknown, but the possibility that fibroblasts express reduced sulfation of glycosaminoglycans has been studied in several laboratories. A mechanism involving overproduction of an enzyme (nucleotide pyrophosphatase) active against adenosine 3'-phosphate, 5'-phosphosulfate (PAPS) has been postulated. Decreased synthesis of normally sulfated glycosaminoglycans was also reported. We measured the synthesis of proteoglycans and glycosaminoglycans by incorporation of [3H]glucosamine and Na2(35)SO4 into cultured fibroblasts from four LS patients and related it directly to the synthesis in six normal fibroblast cultures. We found that the rate of synthesis varied greatly among the normal cultures (cv, 30%), but not significantly between LS and the normal. The LS fibroblasts' ability to sulfate glycosaminoglycans was assayed as the amount of 3H-glycosaminoglycan eluting at low ionic strength on anion exchange chromatography, the amount of non-sulfated disaccharide present in chondroitinase digests of labeled proteoglycans, and the ratio of 35S to 3H incorporation into proteoglycans. Each parameter suggested that the LS cells were synthesizing normally sulfated glycosaminoglycans (e.g. % delta Di-0S, 21 +/- 6 in normal; 27 +/- 6 in LS). The cells' ability to sulfate glycosaminoglycans was tested under conditions of markedly stimulated glycosaminoglycan synthesis, by treating the cultures with a beta-D-xyloside. LS and normal cells responded to the treatment by elevating the rate of synthesis of normally sulfated glycosaminoglycans (3.5-6-fold in normal, 3-7-fold in LS). Nucleotide pyrophosphatase activities were found to be elevated in each of our four LS cell strains as in the previous studies, excluding genetic heterogeneity as an explanation for our findings. We conclude that LS fibroblasts do not express defects in sulfation of glycosaminoglycans or in synthesis of proteoglycans.     

Decreased membrane potassium permeability and transport in human chronic leukemic and tonsillar lymphocytes.

Human blood T-lymphocytes increase their potassium (K+) permeability and active K+ transport following lectin or antigen stimulation. We have studied the permeability and active transport of K+ by lymphocytes in chronic lymphocytic leukemia (CLL) to determine if their membrane K+ transport was similar to resting or lectin-stimulated normal blood lymphocytes. K+ transport was assessed both by the rate of isotopic 42K+ uptake and by the rate of change in cell K+ concentration after inhibition of the K+ transport system with ouabain. CLL lymphocytes had a marked decrease in membrane K+ permeability and active transport of K+ when compared to blood T lymphocytes. K+ transport in five subjects with CLL (10 mmol.1 cell water-1.h-1) was half that in normal blood T-lymphocytes (20 mmol.1 cell water-1 h-1). Phytohemagglutinin (PHA) treatment of CLL lymphocytes did not increase significantly their active K+ transport, whereas K+ transport by normal T-lymphocytes increased by 100%. Since there were 73% T-lymphocytes in normal blood and 14% in CLL blood, the difference in membrane K+ turnover could be related either to neoplasia or to the proposed B-lymphocyte origin of CLL. We studied human tonsillar lymphocytes which contained a mean of 34% T-cells. In five studies of tonsils, K+ transport was 14 mmol.1 cell water-1.h-1 and treatment with PHA increased K+ transport only 30%. The intermediate values of basal K+ transport and K+ transport in response to PHA in tonsillar lymphocytes were consistent with the proportion of T-lymphocytes present. These data suggest that B-lymphocytes have reduced membrane permeability and active transport of K+. Thus the marked decrease in CLL lymphocyte membrane K+ permeability and transport may be a reflection of its presumed B-cell origin, rather than a membrane alteration related to malignant transformation.     

KINETICS OF PHYTOHEMAGGLUTININ STIMULATED LYMPHOCYTES IN CHRONIC LYMPHOCYTIC LEUKEMIA

The DNA synthesis pattern and several kinetic parameters of in vitro PHA stimulated normal and CLL lymphocytes were determined. The DNA synthesis peak of CLL lymphocytes occurred 2–3 days later than that of normal lymphocytes. The generation time, estimated by the labeled mitoses method, was found to be 28 hr and 20 hr for CLL and normal lymphocytes respectively. This difference was mainly due to longer S and G_t periods. It was also shown that both CLL and normal lymphocytes divide several times. These data were confirmed by the chromatid labeling pattern and by the halving of the grains and the double labeling techniques. By combining continuous and pulse labeling the growth fraction of CLL lymphocytes was found to be progressively increasing, because of the recruitment of new cells in cycle, from the third day of culture. Therefore the delayed peak of DNA synthesis of CLL lymphocytes was caused by a longer cell cycle and by a longer pre-replicative phase.     

Kinetics of excision repair of UV-induced DNA damage, measured using the comet assay

The kinetics of UV- (254 nm) irradiation-induced DNA single-strand breaks (SSBs), generated during the excision repair of UV-induced DNA damage, in leukemic lymphocytes and in normal blood mononuclear cells (MNCs) were studied using the alkaline comet assay. The cells were isolated by density gradient centrifugation from peripheral blood of patients with chronic lymphocytic leukemia (CLL) and from healthy study subjects. The cytotoxicity of UV irradiation was determined in vitro in peripheral blood mononuclear lymphocytes from 36 CLL patients and from eight healthy donors using the incorporation of radioactive leucine in 4-day cultures. A remarkable difference in excision repair capability was observed between normal and leukemic lymphocytes. In contrast to normal lymphocytes, there was always a subpopulation of CLL cells that did not complete the repair of UV-induced DNA damage during the 24-h repair period. Furthermore, differences were also recorded between UV-sensitive and UV-resistant CLL cases. The differences in DNA migration between the maximum increase (59-77 microm) and that at 24 h after irradiation (21-66 microm) was statistically significant in two of three patients exhibiting UV-resistance. Correspondingly, only in one of three patients exhibiting UV-sensitivity was the difference in DNA migration statistically significant (maximum increase: 44-107 microm, vs. 24 h after: 42-100 microm). Our results confirm an abnormal pattern of the CLL cell response to UV irradiation. Furthermore, we identified defective processing of UV-induced DNA damage in CLL versus normal lymphocytes, particularly in UV-sensitive cases.     

Survival and Development of Eimeria meleagrimitis Tyzzer, 1929 in Bovine Kidney and Turkey Intestine Cell Cultures

SYNOPSIS. Monolayer cell cultures of embryonic turkey intestine (primary) and bovine kidney (cell line, 20th passage), maintained at 40.6 and 43 C for alternating intervals of approximately 12 hours in Basal Medium Eagle and fetal calf serum at pH 7.0–7.4, were observed for 144 hours after inoculation of Eimeria meleagrimitis sporozoites.
In turkey intestine cultures, which consisted of fibroblast-like cells and patches of epitheliul-like cells, there were decreases of 80 and 81% in the numbers of parasites between 5 and 48 hrs; in bovine cultures, 21–41% decreases. Decreases in the turkey cultures, however, were due to the nonsurvival of sporozoites in fibroblast-like cells; in epitheliul-like cells there was a 42% dcrease between 5 and 48 hrs and only 27% between 48 and 144 hours.
Trophozoites were present in bovine cells at 5 hrs. Small, mature schizonts containing only 12-28 merozoites were present in the bovine cultures and in the epitheliul-like cells within turkey intestine cultures from 48-144 hrs. Larger schizonts (50-115 by 20-70 μ) were present in bovine but not in turkey cultures from 72–144 hrs. Many of these schizonts contained far more merozoites than schizonts of any of the 3 generations described from the host.
In bovine cultures, there was an abundance of liberated merozoites at 50, 52, 74, and 76 hrs; many had reinvaded cells, sometimes as many as 50–60 per cell. In turkey cultures, liberated merozoites were found once at 144 hrs and none were intracellular. At 120 and 144 hrs in bovine cultures, abnormally developed and degenerate forms appeared; in turkey cultures, all were normal.     

Flow cytometric cell cycle analysis of cultured porcine fetal fibroblast cells

Normal development of nuclear transfer embryos is thought to be dependent on transferral of nuclei in G0 or G1 phases of the cell cycle. Therefore, we investigated the cell cycle characteristics of porcine fetal fibroblast cells cultured under a variety of cell cycle-arresting treatments. This was achieved by using flow cytometry to simultaneously measure cellular DNA and protein content, enabling the calculation of percentages of cells in G0, G1, S, and G2+M phases of the cell cycle. Cultures that were serum starved for 5 days contained higher (p < 0.05) percentages of G0+G1 (87.5 +/- 0. 7) and G0 cells alone (48.3 +/- 9.7) compared with rapidly cycling cultures (G0+G1: 74.1 +/- 3.0; G0: 2.8 +/- 1.2). Growth to confluency increased (p < 0.05) G0+G1 percentages (85.1 +/- 2.8) but did not increase G0 percentages (6.0 +/- 5.3) compared to those in cycling cultures. Separate assessment of small-, medium-, and large-sized cells showed that as the cell size decreased from large to small, percentages of cells in G0+G1 and G0 alone increased (p < 0.05). We found 95.2 +/- 0.3% and 72.2 +/- 12.0% of small serum-starved cells in G0+G1 and G0 alone, respectively. Cultures were also treated with cell cycle inhibitors. Treatment with dimethyl sulfoxide (1%) or colchicine (0.5 microM) increased percentages of cells in G0 (24.8 +/- 20.0) or G2+M (37.4 +/- 4.6), respectively. However, cells were only slightly responsive to mimosine treatment. A more complete understanding of the cell cycle of donor cells should lead to improvements in the efficiency of nuclear transfer procedures.     

Actin and tubulin of normal and leukaemic lymphocytes.

Double labelling and the isolation of actin- and tubulin-derived peptides were used to determine the amounts of these proteins in peripheral lymphocytes from normal donors and from patients with chronic lymphocytic leukaemia. As a precaution against proteolysis, samples were boiled before assay. The actin content of chronic-lymphocytic-leukaemia (CLL) lymphocytes was 8.1 +/- 2.1% of total protein, which was lower (P less than 0.05) than the amount (12.8 +/- 3.0%) of actin found in normal lymphocytes. The tubulin content of CLL lymphocytes was 4.4 +/- 1.5% of total protein, which was also significantly less (P less than 0.05) than that of normal lymphocytes, which was found to be 6.1 +/- 1.1%.     

Cyclosporin A inhibits long-term activation of Na+,K+ pump in phytohemagglutinin-stimulated human lymphocytes

The effect of the immunosuppressive drug cyclosporin A (CsA) on the K (Rb) influx, intracellular K and Na contents, and on the major parameters of lymphocyte activation have been investigated in human peripheral blood lymphocytes activated by phytohemagglutinin (PHA). CsA suppressed protein, RNA, DNA syntheses and cell proliferation by 49.8 +/- 4.3, 67.6 +/- 10.1, 60.4 +/- 5.3 and 60.0 +/- 5.1%, respectively (n = 10) within 48 h. It also inhibited the late long-term Na+,K+ pump activation, as determined from the ouabain-sensitive Rb uptake, and prevented the increase in the intracellular K content at the late stages of G0/G1/S progression. Cyclosporin A did not affect the early transient pump activation, the dynamics, of ouabain-resistant influxes and the intracellular Na content in PHA-activated lymphocytes. When added 1 h after PHA, CsA neither affected the activation of the pump-mediated Rb influxes nor the increase in the intracellular K content. It is concluded that in activated human lymphocytes, the long-term activation of Na+,K+ pump associated with the mitogen-induced blast transformation, as well as the late increase in K content depend on the T-cell growth factor interleukin-2.     

Studies on T cells in newborns. Higher reactivity of umbilical cord blood lymphocytes to PHA as measured by whole blood microtechnique.

The capacity of human foetal lymphocytes to respond to PHA and to form E-rosettes have been compared with data from adult individuals. For this purpose a microculture system that uses whole blood and avoids the problems of lymphocyte separation, has been developed. Foetal lymphocytes reached optimal stimulation with lower dosis of PHA (31,2 microgram/ml) as compared with adult cells (125-252 microgram/ml). However their quantitative response (measured by 14C-thymidine uptake) was equal in both groups. In addition, peripheral T cells (E-rosetting cells) reached values of 36.47 +/- 9% in newborn and 49.6 +/- 10% in normal adult controls. These results are discussed as to the status and development of cellular inmunity in human foetus.     

Reactivity of lymphocytes to a progesterone receptor-specific monoclonal antibody

In this study we present evidence for reactivity of pregnancy lymphocytes, but not nonpregnancy lymphocytes, with the progesterone receptor-specific monoclonal antibody mPRI. Using an avidin-biotin peroxidase detection system, we found a nuclear staining in 14.6 +/- 3.7% (mean +/- SEM, N = 27) of pregnancy lymphocytes, while only 0.47 +/- 0.33% (mean +/- SEM, N = 15) of nonpregnancy lymphocytes reacted with the antibody. To characterize the receptor-bearing subset, CD8+ and CD4+ cells were depleted by complement-dependent lysis. Depletion of CD8+ cells was accompanied by 62 +/- 18% loss of progesterone receptor-bearing cells, while depletion of CD4+ cells resulted in a twofold increase in the number of positively staining lymphocytes. In nonpregnancy lymphocytes a 3-day PHA treatment, as well as allogeneic stimulation, resulted in a significant increase in the number of receptor-containing cells. These results suggest that pregnancy, but not nonpregnancy, lymphocytes contain progesterone binding structures, and that these are inducible by mitogenic or alloantigenic stimuli.     

Observations on prostaglandins in normal and leukemic human lymphocytes

Prostaglandins E (PGE) and F₂ (PGF₂) were measured in lymphocytes of normal subjects, children with acute lymphocytic leukemia (ALL), and adults with chronic lymphocytic leukemia (CLL). In ALL lymphocytes PGE increased from a normal value of 25 pgrams to 270 pgrams/10⁶ cells, and PGF₂ increased from a normal value of 31 pgrams to 482 pgrams/10⁶ cells. In CLL lymphocytes, levels of PGE and PGF₂ were normal or low. When normal lymphocytes were stimulated with phytohemagglutinin (PHA), the level of PGE and PGF₂ fluctuated, followed by corresponding changes in the level of cyclic nucleotides. In cultured ALL lymphocytes, the level of PGE remained high, while cyclic 3′:5′-adenosine monophosphate (c-AMP) level was constantly low, and the initial high level of PGF₂ fluctuated in relation to similar oscillations of cyclic 3′:5′-guanosine monophosphate (c-GMP). These values were lower, although not significantly, when ALL lymphocytes were stimulated with PHA. When CLL lymphocytes were stimulated with PHA, the level of PGE remained low (20 pgrams), as did that of c-AMP. The level of PGF₂, after a brief initial increase (130 pgrams), returned to and remained at a lower level (60 pgrams) while the level of c-GMP was persistently high. These results suggest: (1) prostaglandins may indirectly influence the cell cycle, possibly through modulation of cyclase activity and levels of cyclic nucleotides; and (2) some derangement of this regulatory mechanism may be present in leukemic lymphocytes.     

Cell Cycling of Astrocytes and Their Precursors in Primary Cultures: A Mevalonate Requirement Identified in Late G1, but Before the G1/S Transition, Involves Polypeptides

The relationship between mevalonate and cell cycling was investigated in developing glial cells. Primary cultures of newborn rat brains were serum-depleted (0.1%, vol/vol) for 48 h on days 4-6 in vitro, then returned to 10% calf serum (time 0). After 48 h, 70-80% of the cells were glial fibrillary acidic protein (GFAP)-negative by indirect immunofluorescence; 79 +/- 7% were GFAP-positive after an additional 3 days. Serum shift-up resulted in 12 h of quiescence, and then by 20 h (S phase) in increased proportions of cells synthesizing DNA (from 15 +/- 6% to 75 +/- 4% by bromodeoxyuridine immunofluorescence at 12 h and 20 h, respectively) and rates of DNA synthesis (42 +/- 6 versus 380 +/- 32 cpm/micrograms of protein/h of [3H]thymidine uptake). Additional mevalonate (25 mM) for 30 min at 10 h reversed the inhibition of DNA synthesis apparent with mevinolin (150 microM), an inhibitor of mevalonate synthesis, present from time 0. Cycloheximide added simultaneously with mevalonate prevented this reversal of inhibition. To cause arrest at G1/S, cultures were exposed to hydroxyurea between 10 and 22 h. By 3 h after hydroxyurea removal, bromodeoxyuridine-labeled nuclei increased from 0% to 75 +/- 9%, and DNA synthesis increased 10-fold. Mevinolin failed to inhibit these increases. Thus, primary astroglial precursors stimulated to progress through the cell cycle express a mevalonate requirement in late G1, but before the G1/S transition. The effect of mevalonate was characterized further as being brief (30 min) and as requiring polypeptides.