Cytotoxic effect of structurally modified bull seminal ribonuclease (AS RNase)

Chemical modifications of bull seminal ribonuclease (AS RNase) cause considerable changes in its cytotoxic activity. However, binding of AS RNase on cells has been changed little or not at all. Every modification (oxidation, reduction, carbomethylation, succinylation and maleylation) inhibited ribonuclease and aspermatogenic and embryotoxic activity of AS RNase. The common cytotoxic effect was also changed to some degree. Inhibition of incorporation of ³H-thymidine to BP-8 tumor cells in culture was observed after application of native, oxidized, reduced, and carboxymethylated AS RNase.     

Seminal ribonuclease synthesis in bull reproductive organs during ontogenesis

Seminal ribonuclease (AS RNase) is synthesized in the epididymis, ampullary glands and seminal vesicles of sexually mature bulls. During sexual maturation of Czech red-spotted bulls it first begins to be synthesized in the seminal vesicles and ampullary glands, after the age of 20 weeks. At this age practically none is synthesized in the epididymis. As soon as the epithelial cells of the seminal vesicles start to synthesize the enzyme and secretion of the fluids of this organ begins, synthesis per ml fluid is almost the same as in sexually mature bulls. AS RNase synthesis in the cauda epididymidis begins after the age of 27 weeks and is individually variable. AS RNase synthesis in the reproductive organs depends on the testosterone concentration in the blood plasma of the bull.     

Cellular immunological defects of chronic myelogenous leukaemics: partial dependence on busulphan therapy

Summary The PBMC from treated (n=10) and untreated (n=7) chronic phase CML patients were examined for their functional expression of helper cell-stimulating class II products, HLA-DR and -DP, and for their ability to induce suppression in normal PBMC. Although DR and DP were found to be functionally expressed in both groups of patients, a dysregulation of suppression induction was found in treated but not in untreated patients. Furthermore, the patients demonstrated a virtual absence of NK activity and severely depressed LAK activity which was equally striking in both treated and untreated patients and did not seem to be related to the presence of active suppression of cytotoxicity. Such defects in chronic phase CML patients may be relevant to the progression of their disease. Moreover, at least one of the cellular immunological defects, induction of suppressive cells, was not intrinsic to the disease, but appeared to be chemotherapy related.This work was supported by the Deutsche Forschungsgemeinschaft (SFB 120) and the Biotest Serum Institut, Frankfurt, FRG Abbreviations used: BM, bone marrow; CML, chronic myelogenous leukemia; IL 2, interleukin 2; LAK, lymphokine-activated killer; LP, lymphoproliferative; LU, lytic unit; MLC, mixed lymphocyte culture; MoAb monoclonal antibody; NK, natural killer, PBMC, peripheral blood mononuclear cells; PLT, primed lymphocyte typing; SA, suppressive activity; ³H-TdR, tritiated thymidine     

The suppressive effect of a supernate from concanavalin A-activated human lymphocytes: effects of concanavalin A-activated lymphocytes and their supernates on cytotoxic and mixed lymphocyte reactions.

The effects of Concanavalin A-treated human peripheral blood lymphocytes and their supernatants were evaluated on the MLC reaction and on the generation of cytotoxic lymphocytes assessed by cell-mediated lympholysis (CML). Experiments were performed with both allogeneic and xenogenic sensitization. It was found that Con A-activated cells suppressed the MLC and CML reactions in allogeneic and xenogeneic systems. On the other hand, the SIRS-like supernate was able to suppress the MLC reaction and blastogenesis, but had no suppressive effect on the generation of cytotoxic lymphocytes. We found no difference in the magnitude of suppression, whether or not Con A-activated lymphocytes were syngeneic to the responder cells. This finding suggests that there is no requirement for allogeneic restriction in the interaction between suppressor and suppressed cells, and demonstrates a soluble human suppressor substance capable of suppressing some cell-mediated reactions.     

Interleukin 2 inhibits in vitro granulocyte-macrophage colony formation

We have previously shown that murine bone marrow cells cultured with interleukin 2 (IL-2) produce interferon-alpha/beta (MuIFN-alpha/beta) and that IFN-alpha/beta can suppress in vitro granulocyte-macrophage colony-forming cell formation (GM-CFC). In this study, IL-2 was directly assessed for its ability to inhibit in vitro granulocyte and/or macrophage colony-forming cell formation (GM-CFC/M-CFC). C57BL/6 bone marrow cells were cultured with different colony-stimulating factors (CSF), i.e., partially purified macrophage-CSF (M-CSF) or recombinant granulocyte and macrophage CSF (GM-CSF) in the presence or absence of different IL-2 preparations. Partially purified mouse IL-2 or recombinant human or mouse IL-2 (rHuIL-2 and rMuIL-2) totally inhibit GM-CFC and M-CFC formation at 7 days of culture. The level of inhibition mediated by IL-2 was concentration-dependent, with as little as 1 U/ml giving total inhibition of colony formation. The ability of IL-2 to inhibit colony formation was completely abolished by treatment with antisera to IL-2. MuIFN-alpha/beta and MuIFN-gamma appeared to play no role in IL-2-induced myelo-suppression in that addition of antisera to these IFN failed to block IL-2-induced suppression. Myelo-suppression mediated by IL-2 was independent of the concentration of CSF used in the bone marrow cultures. Suppression was also not dependent upon the initial presence of T cells or natural killer (NK) cells. Bone marrow cells depleted of Thy-1+, Lyt-1+, Lyt-2+, NK-1.1+, Asialo GM1+, or Qa-5+ cells were as susceptible to IL-2 induced suppression as untreated or complement-treated bone marrow cells. These results suggest that IL-2 may play an important role in regulating different aspects of hematopoiesis.     

Seminal ribonuclease of bulls - biosynthesis in normal and orchitic bulls and correlation with blood plasma hormone levels

In sexually mature and healthy bulls, seminal ribonuclease (AS RNase) is synthesized in the distal part of the corpus epididymidis, the cauda epididymidis, the ampullary glands and the seminal vesicles. Indirect immunofluorescence demonstrated AS RNase binding to the cytoplasmic droplets of bull spermatozoa.In bulls with orchitis, AS RNase synthesis decreases in accordance with the degree of damage to the Leydig cells and the drop in the blood plasma testosterone level. The organ most sensitive to decreased testosterone levels, from the aspect of AS RNase synthesis, is the epididymis and the least sensitive are the seminal vesicles. Hypertrophy of the adrenal cortex (in particular of the zona fasciculata and the zona reticularis) and elevated adrenocortical secretion - demonstrated by a raised cortisol concentration in the blood plasma of severely orchitic bulls - failed to inhibit AS RNase synthesis. Injections of Gn RH-LH and HCG raised the blood plasma cortisol, but not testosterone, concentrations in bulls with very severe orchitis. This also indicates serious damage to the Leydig cells in these bulls.     

Restoration of nonclonal hematopoiesis in chronic myelogenous leukemia with interferon alpha

Studies have shown that recombinant human alpha interferon (rIFN alpha) inhibits the growth of colonies of multipotential stem cells from human bone marrow. This report demonstrates that rIFN alpha inhibits the growth of such colonies from the bone marrow of patients with chronic myelogenous leukemia (CML) to a greater extent than from bone marrow of healthy individuals. It also shows that T lymphocyte colonies subcloned with interleukin 2 (IL-2) from CML mixed colonies were inhibited more by rIFN alpha than were similar colonies subcultured from normal mixed colonies. The report demonstrates that the Ph' chromosome is present in such T cell colonies subcultured from CML mixed colonies. When mixed colonies were grown from CML bone marrow in the presence of rIFN alpha, Ph' negative colonies were observed, whereas no such Ph' negative mixed colonies grew from a similar number of bone marrow cells incubated without rIFN alpha. These observations confirm that T lymphocytes derived from bone marrow stem cells are from the CML clone, and that the inhibition of growth of Ph' positive colonies, by rIFN alpha permits the growth of residual normal stem cells. The disappearance of the Ph-chromosome in subclones of T lymphocytes supports the notion of nonclonal hematopoiesis in patients with CML.     

The effect of DLE fractions on GM-progenitors of haematopoietic stem cells in vitro

Dialysable leucocyte extract (DLE) prepared from buffy coats of human blood, potentiates the effect of Colony-stimulating factor (CSF) on the growth of granulocyte-macrophage colony forming cell (GM-CFC) colonies in vitro. This relative increase of the number of colonies is apparent when diluted CSF (present in lung conditioning medium) as a control, and DLE, in a wide range of concentrations are added to the culture of mouse bone marrow cells. Fractionation of DLE on Amicon membranes revealed that the activity resides in molecules of 0-5kD. Molecules 5-10kD have no potentiating effect. DLE and its fractions (0-5kD, 0-1kD), except fractions 0-500 D and 5-10kD, when added undiluted i.e. at the initial concentration, exerted a suppressive effect: colonies are not formed despite the presence of CSF. In a pilot experiment, it was shown that DLE is able to stimulate colony-forming activity of earlier progenitors of erythroid cells (BFUe), under the influence of erythropoietin.     

Modulation of in vitro myelopoiesis by alloreactive T cell clones

Regulatory effects of mixed lymphocyte culture (MLC)-derived CD4+ human T cell clones on granulocyte-macrophage colony (CFU-GM) formation by normal bone marrow (BM) were studied in an initial attempt to establish an in vitro model for the negative feedback control of myelopoiesis by alloactivated T cells. This is likely to be of clinical significance in the aberrant control of haematopoiesis during some cases of graft-versus-host disease (GVHD) after allogeneic BM transplantation. Whilst 5 such alloproliferative clones generally failed to suppress CFU-GM, the majority of clones with natural killer (NK)-like activity, or those with suppressive activity in MLC, regularly and strongly suppressed in this system, reinforcing the view that certain T cells may have potent negative regulatory effects on haematopoiesis.     

Qualitative and quantitative analyses of seminal ribonuclease in reproductive tract fluids of bulls

Bovine seminal ribonuclease (BS RNase) is synthetized in the ampulary gland and seminal vesicles of the bull as shown by indirect immunofluorescence and by using a sensitive sandwich-linked immunosorbent assay (ELISA). The ampullary and seminal vesicle BS RNase concentrations in samples from 15 bulls were 656 μg/ml and 1285 μg/ml, respectively. Seminal plasma BS RNase levels in 22 breeding bulls were slightly lower than in the seminal vesicles—1132 μg/ml. There were no significant differences in the concentration of this enzyme in seminal plasma of 16 bulls ranked as having high and low fertility. Even with its immunosuppressive activity this enzyme does not seem important for the protection of sperm cells in the female reproductive tract.     

Blast colony-forming cell binding from CML bone marrow, or blood, on stromal layers pretreated with G-CSF or SCF

Blast colony-forming cells (CFU-BL) represent a specific subpopulation of special primitive progenitors characterized by colony formation only in close contact with a preformed stromal layer. CFU-BL derived from bone marrow of chronic myeloid leukaemia (CML) patients have been proved to adhere poorly to bone marrow derived stromal layers suggesting that the appearance of progenitors and precursors in the circulation is due to a defective adhesion of these cells to the bone marrow microenvironment. In the present experiments the effect of short-term incubation of preformed normal bone marrow stroma on the adherence of CML derived CFU-BL was studied. For stroma cultures bone marrow cells were cultured in microplates in the presence of hydrocortisone. Cultures were used when stromal layers became confluent and no sign of haemopoiesis could be observed. CFU-BL were studied by panning plastic non-adherent mononuclear (PNAMNC) bone marrow or blood cells. 8.9 +/- 2.4 colonies/103 PNAMNC (six experiments) were formed from normal bone marrow on stromal layers and 4.8 +/- 2.1 colonies/103 PNAMNC (five experiments) from CML bone marrow. Colony formation from normal bone marrow was not increased if stromal layers were incubated with 100 ng/mL granulocyte colony-stimulating factor (G-CSF) or stem cell factor (SCF). Incubation of stroma with G-CSF or SCF, however, increased the colony formation of PNAMNC from CML bone marrow or blood significantly. These findings suggest that local concentration of haemopoietic growth factors at the time of panning may influence the attachment of CML progenitors to the stroma.     

The effect of bull seminal ribonuclease on reproductive organs and sexual behaviour in male rats

Wistar male rats received an intratesticular injection (at 114 and 265 days of age) of 3 mg of partially purified bull seminal ribonuclease (AS RNase) or saline. It was found that sexual behaviour (initiation of copulation as well as copulatory behavioural pattern) of experimental males was not changed, but the ability of these males to fertilize females was evidently suppressed. In addition to significantly lower weights of testes and epididymis, inhibition of seminiferous epithelium development (aspermatogenesis) associated with the absence of spermatozoa was determined in cauda epididymidis in experimental animals. However, Leydig cells remained without changes. Plasma testosterone levels of AS RNase treated males were not altered in comparison with the controls. Thus AS RNase specifically impaired spermatogenesis but did not influence androgen action and sexual behaviour.     

Lipopolysaccharide-induced immunomodulation of the generation of cell-mediated cytotoxicity. I. Suppression of the development of cytotoxic lymphocytes

Bacterial lipopolysaccharide from a variety of Gram-negative organisms suppresses the development of cytotoxic killer cells in the murine MLC. Cytotoxic T lymphocytes were generated in vitro by incubating BALB/c responder spleen cells with irradiated C57BL/6 stimulator cells for 5 days in mixed lymphocyte culture (MLC). The addition of LPS at the initiation of MLC suppressed killing of 51Cr-labeled target cells in a dose-dependent manner. LPS was active only during the afferent phase of CMC, since it did not interfere with the efferent phase of the assay. Furthermore, timed addition and timed removal studies suggested that the presence of LPS during the first 48 hr of MLC was critical for maximal suppression of CMC. Lipid A extracted from LPS, which had been shown to be highly suppressive when added to the sensitization phase of the CMC assay, was also inhibitory. Moreover, when LPS was added to MLC in the presence of tritiated thymidine, the proliferative activity of the responder cells increased markedly after 72 hr of culture. These data suggest that LPS, a known B cell mitogen, can modulate the complex sequence of cellular interactions that leads to the generation of cell-mediated cytotoxicity.     

Action of granulopoiesis-stimulating cytokines rhG-CSF, rhGM-CSF, and rmGM-CSF on murine haematopoietic progenitor cells for granulocytes and macrophages (GM-CFC)

The aim of this study was to provide new data to the knowledge of mechanisms by which recombinant human granulocyte colony-stimulating factor (rhG-CSF), recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) and recombinant murine granulocyte-macrophage colony-stimulating factor (rmGM-CSF) enhance the numbers of colonies growing from hematopoietic progenitor cells for granulocytes and macrophages (GM-CFC) in the murine bone marrow. The in vitro technique for cultivating GM-CFC from normal bone marrow cells was used. For evaluation of stimulatory actions of the drugs studied, the factors themselves or sera of mice given these factors were added to the cultures. The factors or the sera were present in the cultures either as the only potentially stimulatory agents or acted jointly with a suboptimum concentration of recombinant murine interleukin-3 (rmIL-3). It was found that both rhG-CSF and rmGM-CSF stimulate the proliferation of GM-CFC by a combination of direct mechanisms (direct actions on the target cells) and indirect effects (effects mediated through the induction of other cytokines and/or growth factors in the murine organism). The rhGM-CSF exhibited somewhat weaker in vitro effects in comparison with the other two factors and only indirect effects were noted. Additional in vivo experiments documented that, in spite of differences in mechanisms of action of the individual drugs studied on murine bone marrow cells in vitro, equal in vivo doses of the factors induce quantitatively similar effects on the production of GM-CFC in vivo.     

The suppressive influences of human tumor necrosis factors on bone marrow hematopoietic progenitor cells from normal donors and patients with leukemia: synergism of tumor necrosis factor and interferon-gamma

The influences of human tumor necrosis factor (TNF) (LuKII), recombinant human TNF-alpha, natural human interferon-gamma (HuIFN-gamma), recombinant HuIFN-gamma, and natural HuIFN-alpha were evaluated alone or in combination for their effects in vitro on colony formation by human bone marrow granulocyte-macrophage (CFU-GM), erythroid (BFU-E), and multipotential (CFU-GEMM) progenitor cells incubated at 5% CO2 in lowered (5%) O2 tension. TNF (LuKII) and recombinant TNF-alpha caused a similar dose-dependent inhibition of colony formation from CFU-GM, BFU-E, and CFU-GEMM. Day 7 CFU-GM colonies were more sensitive than both day 14 CFU-GM colonies and day 7 CFU-GM clusters to inhibition by TNF. BFU-E colonies and CFU-GEMM colonies were least sensitive to inhibition with TNF. The suppressive effects of TNF (LuKII) and recombinant TNF-alpha were inactivated respectively with hetero-anti-human TNF (LuKII) and monoclonal anti-recombinant human TNF-alpha. The hetero-anti-TNF (LuKII) did not inactivate the suppressive effects of TNF-alpha and the monoclonal anti-recombinant TNF-alpha did not inactivate TNF (LuKII). The suppressive effects of TNF did not appear to be mediated via endogenous T lymphocytes and/or monocytes in the bone marrow preparation, and a pulse exposure of marrow cells with TNF for 60 min resulted in maximal or near maximal inhibition when compared with cells left with TNF for the full culture incubation period. A degree of species specificity was noted in that human TNF were more active against human marrow CFU-GM colonies than against mouse marrow CFU-GM colonies. Samples of bone marrow from patients with non-remission myeloid leukemia were set up in the CFU-GM assay and formed the characteristic abnormal growth pattern of large numbers of small sized clusters. These cluster-forming cells were more sensitive to inhibition by TNF than were the CFU-GM colonies and clusters grown from the bone marrow of normal donors. The sensitivity to TNF of colony formation by CFU-GM of patients with acute myelogenous leukemia in partial or complete remission was comparable with that of normal donors. When combinations of TNF and HuIFN were evaluated together, it was noted that TNF (LuKII) or recombinant TNF synergized with natural or recombinant HuIFN-gamma, but not with HuIFN-alpha, to suppress colony formation of CFU-GM, BFU-E, and CFU-GEMM from bone marrow of normal donors at concentrations that had no suppressive effects when molecules were used alone.(ABSTRACT TRUNCATED AT 400 WORDS)     

Suppression of the polyclonal B-cell responses by concanavalin A-treated bone marrow B cells in vitro

A suppressor cell that inhibits the development of a polyclonal antibody response of splenic B cells to lipopolysaccharide is generated in the bone marrow cell culture in response to a mitotic dose (10 micrograms/ml) of concanavalin A (Con A). The Con A-responding suppressor cell is radioresistant and found in a bone marrow B (BM-B) cell population of normal as well as athymic mice. The suppressor activity of Con A-treated BM-B cells was consistently higher (P less than 0.01-0.0001) than those of untreated BM-B and fresh BM cells. The BM-B cell population recovered from short-term (3-day) cultures with Con A contained about 65% surface immunoglobulin (Ig)-positive cells, about 6% T cells, and less than 0.5% plastic-adherent cells, the latter two of which did not contribute to the suppressive activity. Thus, cytolytic treatment with various anti-T-cell antibodies could not eliminate the suppressive activity of the Con A-treated BM-B cells, and the Con A-treated macrophage population provided no significant suppression. The Con A-treated BM-B cells adherent to anti-Ig or anti-Con A dishes exhibited highly enriched suppressive activity. It was therefore concluded that an immature B-cell population of bone marrow could develop in response to stimulation with Con A into surface Ig-positive suppressor cells, contributing to the regulation of nonspecific B-cell responses.     

Haemopoietic Inductive Capacity of Irradiated Stromal Cell Layers In Human Micro Long-Term Bone Marrow Cultures

Abstract. In a micro long-term bone marrow culture (LTBMC) system the effects of irradiation on confluent stromal cell layers were studied. In order to individually analyse the number of granulocyte-macrophage colony-forming cells (GM-CFC) per LTBMC a miniaturized human GM-CFC assay was established. the normalized GM-CFC numbers in the micro-assay compared well with data by the conventional GM-CFC assay. Pre-formed stromal cell layers were irradiated with doses up to 20 Gy and subsequently recharged with allogeneic bone marrow cells (BMC). Immediately before recharge the BMC were stromal cell-depleted by nylon wool filtration. When stromal cell-depleted BMC were inoculated on empty culture dishes, in vitro haemopoiesis rapidly declined. Sustained GM-CFC production, however, was seen when these cells were used as a second inoculum. It is concluded that irradiation doses of up to 20 Gy do not cause alteration of the haemopoietic inductive capacity of confluent stromal cell layers.     

Cimetidine induced pancytopenia. Effect on human CFU-MIX colony formation

We describe a 26 year-old male with a pancytopenia possibly due to cimetidine. Using progenitor cell culture techniques we investigated the mechanism of this bone marrow toxicity. Our results show a cimetidine dose-dependent inhibition of normal human CFU-GM colony formation as described by Fitchen and Koeffler in 1980. No differences in growth inhibition were found between the patients' recovery marrow and the controls. Toxicity on normal human CFU-MIX colony formation was, however, far more pronounced. At concentrations as low as 5 micrograms/ml the numbers of CFU-MIX colonies were decreased by almost 20% and more than 30% in cultures of two normal bone marrow samples. A significant decrease in CFU-MIX colony size was measured even at therapeutic levels (0.5 micrograms/ml). No obvious decrease in CFU-GM colony size was noticed at low concentrations. Experiments with T-cell- and monocyte-depleted bone marrow samples gave similar results: a pronounced inhibition of the CFU-MIX colony formation at low concentrations of cimetidine whereas the CFU-GM formation was less affected. It is therefore very unlikely that Accessory cells play part in the cimetidine induced CFU-MIX inhibition. Our results suggest the existence of H2 histamine receptors on human CFU-MIX (= multipotent progenitor cell). Blocking these receptors prevents the multipotent progenitor cell from going into the DNA-synthesis phase of the cell cycle.     

The osteogenic stimulating effect of neuroactive calcitonin gene-related peptide

Silverman and Kruger (Somatosens. Res. 5(2):157-175; 1987) reported that sensory nerve fibers of the dental pulp secrete calcitonin gene-related peptide (CGRP). These are localized exactly where secondary or tertiary dentin calcification occurs. Recently we found that CGRP has an osteogenic stimulating effect by increasing the number and size of bone colonies in vitro. The purpose of this study is to test whether there is a relationship between the effects of different doses of CGRP and bone colony numbers and/or size. Rat CGRP in different dosages (0.4, 4 and 40 micrograms/ml in BGJb medium) was added daily to 3 million light density (LD) bone marrow white cells which were harvested from adult Sprague-Dawley rats with the Ficoll-Paque density gradient separation method, then seeded onto a previously prepared feeder layer of fibroblasts in Petri dishes. Seven days after adding CGRP, in the controls without CGRP there were 2 bone colonies; with 0.4 microgram of CGRP there were 4 colonies; with 4 micrograms of CGRP there were 6 colonies; with 40 micrograms there were 9 colonies, indicating there was a significant increase in number of bone colonies with an increase in dose of CGRP between individual groups, respectively (p less than 0.0005 and p less than 0.0001). In another experiment, intravenous injection of 10 micrograms of rCGRP/kg body weight was performed two hours before surgery. LD bone marrow white cells were collected and seeded onto a feeder layer in Petri dishes exactly as described above.(ABSTRACT TRUNCATED AT 250 WORDS)     

Kinetic studies of pyruvate kinase duringin vitro differentiation of GM-CFC haemopoietic precursor and bone marrow cells in mice

Pyruvate kinase studies in the granulocyte-macrophage lineage duringin vitro differentiation have been performed using culture techniques on GM-CFC cells and a study has also been done in bone marrow cells.The enzyme exhibits biphasic behaviour with respect to both of its substrates in cells derived fromin vitro cultures at 5 and 7 days of incubation period. However in bone marrow cells these kinetics are only observed for ADP.The different kinetic behaviour of pyruvate kinase toward Fru-1,6-P₂, Ala, Phe and ATP in the three cellular populations allows us to conclude that the expression of pyruvate kinase is associated with the differentiation of these cells.Abbreviations GM-CFC granulocyte-macrophage colony forming cells - PK pyruvate kinase - CFU-E Colony Forming Units Erythroid - E_w Error weight - PEP phosphoenolpyruvate - Fru-1,6-P₂ fructose 1,6-bisphosphate - Ala L-alanine - Phe L-phenylanine - 5 GM granulocytemacrophage colonies obtained after 5 days incubation - 7 GM granulocyte-macrophage colonies obtained after 7 days incubation - h Hill coefficient - S_0,5 substrate concentration that yields half-maximal velocity