Antibacterial resistance induced by recombinant interleukin 1 in myelosuppressed mice: effect of treatment schedule and correlation with colony-stimulating activity in the bloodstream

We have investigated the effects of interleukin 1 (IL-1) administration on the ability of neutropenic mice to resist Pseudomonas aeruginosa challenge in vivo. Cyclophosphamide-treated mice received human rIL-1 beta at 7.0, 0.7, or 00.7 micrograms/kg, according to different regimens, to be challenged with a lethal ip inoculum of pseudomonas cells 5 days after myelosuppression. The repeated exposure of the neutropenic mice to an overall cytokine dosage of 7.0 or 0.7 micrograms/kg during the 4 days after myelosuppression was found to optimally restore the animals' antibacterial resistance. However, when administered as a single injection 24 hr before challenge, the same dosages of IL-1 had lower or no effect in enhancing survival, primarily leading only to a reduction in the amount of antipseudomonal chemotherapy required for cure. The regimen of IL-1 administration conferring optimal protection also resulted in a decrease in the number of pseudomonas cells recovered from the peritoneal cavity of infected mice. This regimen accelerated hematopoietic recovery in cyclophosphamide-treated mice. Assay of serum colony-stimulating activity (CSA) revealed that (a) cyclophosphamide treatment alone significantly increased the level of circulating CSA, (b) administration of a single dose of IL-1 to neutropenic mice induced an early, further increase in serum CSA, followed by depression, (c) a biphasic pattern of CSA response was also evident in mice repeatedly treated with IL-1. These results suggest that regulation of hematopoiesis may have an important role in the induction of antibacterial resistance in myelosuppressed hosts repeatedly treated with low dosages of IL-1.     

Effects of recombinant human interleukin 11 on thrombocytopenia and neutropenia in irradiated rhesus monkeys

The effects of recombinant human interleukin 11 (rhIL11) on thrombocytopenia and neutropenia in irradiated rhesus monkeys were evaluated after administration different doses at different times. Twenty-three rhesus monkeys were exposed to a total-body irradiation (TBI) with a single dose of 3 Gy 60Co gamma rays. Either placebo, rhIL11 at a dose of 30, 60 or 120 microg/kg day(-1) on days 0-13, or rhIL11 at a dose of 60 microg/kg day(-1) on days 13-26 after TBI was administered to the animals. The results showed that the immediate treatment with rhIL11 but not treatment on days 13-26 resulted in much higher platelet nadirs than in the placebo-treated group. The accelerated recovery of platelets to normal levels after TBI was demonstrated in all groups treated with rhIL11, but the effects of rhIL11 were independent of dose. However, rhIL11 treatment could also accelerate the recovery of leukocytes to normal levels. The numbers of colony-forming bone marrow cells (CFU-E, CFU-Mix, CFU-MK and CFU-GM) in all groups treated with rhIL11 were increased 4- to 14-fold relative to those of the placebo group on day 30. We conclude that rhIL11 may directly promote megakaryocyte development and ameliorate myelosuppression in irradiated monkeys.     

Augmentation of human natural cell-mediated cytotoxicity by recombinant human interleukin 2

Human peripheral blood mononuclear cells (PBMC) demonstrated increased natural cell-mediated cytotoxicity (NCMC) activity after only 5 min of exposure to purified recombinant human IL 2 or interferon (IFN)-gamma. The mechanism of NCMC augmentation by treatment with IL 2 is not entirely dependent on IFN-gamma production because: a) IL 2 was found to augment NCMC activity at levels which did not induce detectable IFN-gamma; b) IL 2 required only 5 min of exposure to PBMC to augment NCMC activity, whereas 3 hr of contact were required to demonstrate detectable IFN-gamma levels; c) the levels of NCMC enhancement by treatment with IL 2 exceeded the amount of NCMC enhancement that could be due to IFN alone; d) anti-recombinant IFN-gamma, which totally eliminated the augmentation of NCMC enhancement by IFN-gamma, only partially reduced the augmentation of NCMC activity by IL 2; and e) combination treatment of PBMC with IL 2 and IFN-gamma resulted in a synergistic enhancement of NCMC. The results strongly support the conclusion that augmentation of NCMC by IL 2 and IFN-gamma involve overlapping mechanisms.     

Modulation of human natural killer cell activity by recombinant human interleukin 2

Recombinant human IL-2, secreted by yeast harboring a plasmid containing a synthetic IL-2 gene, is biologically active in augmenting human natural killer (NK) cell activity. A dose-dependent linear stimulation of NK activity was obtained against the chronic myelogenous leukemia cell line K562 over the range 3 to 300 units/ml of IL-2. Enhancement of NK activity was similarly demonstrable against the less NK-sensitive carcinoma cell lines LoVo and SKOSC. IL-2 could also be demonstrated to augment antibody-dependent cellular cytotoxicity (ADCC) against SKOSC targets. IL-2 responsiveness segregated with a non-E-rosetting fraction comprising 11% of postfractionation lymphocytes and containing 94% of the recoverable NK activity, suggesting that IL-2 might operate directly upon the NK cell rather than through an accessory cell. This is believed to be the first demonstration of NK stimulatory activity by the product of a totally synthetic human IL-2 gene. The availability, purity, and NK-enhancing properties of the recombinant IL-2 make it a potentially important agent for clinical trial.     

Modulation of human natural killer cell activity by recombinant human interleukin 2

Recombinant human IL-2, secreted by yeast harboring a plasmid containing a synthetic IL-2 gene, is biologically active in augmenting human natural killer (NK) cell activity. A dose-dependent linear stimulation of NK activity was obtained against the chronic myelogenous leukemia cell line K562 over the range of 3 to 300 units/ml of IL-2. Enhancement of NK activity was similarly demonstrable against the less NK-sensitive carcinoma cell lines LoVo and SKOSC. IL-2 could also be demonstrated to augment antibody-dependent cellular cytotoxicity (ADCC) against SKOSC targets. IL-2 responsiveness segregated with a non-E-rosetting fraction comprising 11% of postfractionation lymphocytes, and containing 94% of the recoverable NK activity, suggesting that IL-2 might operate directly upon the NK cell rather than through an accessory cell. This is believed to be the first demonstration of NK stimulatory activity by the product of a totally synthetic human IL-2 gene. The availability, purity, and NK-enhancing properties of the recombinant IL-2 make it a potentially important agent for clinical trial.     

Modulation of the expression of interleukin 2 receptors of human thymocytes by recombinant interleukin 2

The effect of purified recombinant interleukin 2 on the expression of the receptors for interleukin 2 by human thymocytes was examined. Interleukin 2 augmented the expression of interleukin 2 receptors and interferon-gamma synthesis by thymocytes activated with concanavalin A, and it was required to maintain the growth of thymocytes in vitro and the expression of interleukin 2 receptors. The increase observed in the number of receptor bearing thymocytes and in the density of receptors due to interleukin 2 occurred within the first 2 days of culture. Dexamethasone inhibited the expression of interleukin 2 receptors, the synthesis of interferon-gamma, and the early proliferation and protein synthesis of lectin-activated thymocytes during the first 2 days of culture. The inhibitory effect of dexamethasone on the expression of interleukin 2 receptors and on the synthesis of interferon-gamma was reversed by interleukin 2, whereas its effect on proliferation and on protein synthesis during the first two days of culture was not reversed by interleukin 2. Interleukin 2 induced the proliferation of thymocytes in vitro, even in the absence of activation by lectin; however, the number of cells displaying receptors which could be detected with anti-Tac remained low throughout the first week of culture and interferon-gamma synthesis was not observed. Nonetheless, interleukin 2-induced proliferation was inhibited by anti-Tac on a dose dependent manner. The results of the study document that recombinant interleukin 2, like purified natural interleukin 2, is required for the expression of interleukin 2 receptors, for interferon-gamma synthesis, and for the growth of thymocytes in vitro.     

Crystallographic characterization of recombinant human interleukin 2

Recombinant human interleukin 2 produced by Escherichia coli was purified to homogeneity and crystallized after being separated from methionyl interleukin 2. Crystals suitable for structural studies have been obtained by the seed enlargement technique, using the method of vapor diffusion with ammonium sulfate as the precipitant at pH 4.6. The space group is P2(1)2(1)2 with cell dimensions a = 49.2 A, b = 87.6 A and c = 32.4 A. The asymmetric unit contains one molecule of the protein. From preliminary results, the crystals are moderately stable to X-rays and produce measurable reflections to a resolution of about 2.2 A. The diffraction data for the native crystals have been collected on a diffractometer at 2.4 A resolution.     

Structure-activity relationships of recombinant human interleukin 2

Structure-activity relationships of recombinant human interleukin 2 were investigated by preparation, purification, and characterization of 21 missense mutants. A key role for residue Phe42 in the high-affinity interaction with receptor was indicated by (a) the reduction of 5-10-fold in binding affinity and bioactivity upon mutation of this residue to Ala and (b) the lack of evidence for conformational perturbation in Phe42----Ala in comparison with the wild-type protein as investigated by intrinsic fluorescence, second-derivative UV spectroscopy, electrophoresis, and reversed-phase HPLC, suggesting that the drop in binding is a direct effect of removal of the aromatic ring. In contrast, the conservative mutations Phe42----Tyr and Phe42----Trp did not cause significant reductions in bioactivity. UV and fluorescence spectra indicated approximately 60% overall exposure to solvent of tyrosines in the wild-type molecule, the tryptophan (residue 121) being buried; fluorescence data also showed that Trp42 in Phe42----Trp is likely to be within 1 nm of Trp121 and about 50% exposed to solvent. Phe44----Ala, Cys105----Ala, and Trp121----Tyr also exhibited reduced bioactivity, but these mutants are conformationally perturbed relative to wild type. None of the remaining mutants had detectably reduced bioactivity, even though several showed signs of altered conformation. Four mutants were recovered in very low yield, probably because of defective refolding.     

猕猴单次及多次注射重组人白介素—11后的药代动力学及外周血小板计数变化

研究猕猴单次或多次静脉注射(iv)和皮下注射(sc)rhIL-11后药代动力学及周边血小板计数变化。ELISA法检测血清rhIL-11浓度,血细胞计数仪计数血小板。iv和sc注射50～400μg     

Proliferation of human peripheral blood lymphocytes induced by recombinant human interleukin 2: contribution of large granular lymphocytes and T lymphocytes

Recombinant human interleukin 2 (rH IL-2) in the presence or absence of additional stimuli, was found to be able to induce and support the proliferation of human peripheral blood lymphocytes (PBLs). These proliferative effects were observed at low doses (less than or equal to 10 U/ml) of interleukin 2 (IL-2) only when additional signals (antigen, mitogen) were provided. However, higher doses (greater than or equal to 100 U/ml) of rH IL-2 significantly stimulated the proliferation of PBL even in the absence of exogenous lectin, antigen, or allogeneic serum. The subpopulation of lymphocytes most responsive to these higher doses of rH IL-2 was the large granular lymphocyte (LGL), the morphologic homologue of natural killer activity. After the separation of human PBLs on discontinuous Percoll gradients, cells from fraction 2 (greater than 90% LGLs) responded in a dose-dependent manner to rH IL-2 alone, whereas cells from fraction 6 (greater than 90% T cells) were only slightly responsive to rH IL-2 alone. A portion of the proliferation of cells from fraction 2 was dependent on the expression of the TAC receptor, because the prior removal of TAC-positive cells significantly reduced IL-2-induced lymphocyte proliferation. These results demonstrate that human LGL that have not been exogenously stimulated can proliferate in direct response to IL-2, and suggest that LGL are the major cellular phenotype in the proliferative response that has been observed clinically.     

The anti-tumour efficacy of human recombinant interleukin 2

Summary Experiments were designed to test what percentage of experimental MC-induced murine sarcomas were sensitive to the local tumour inhibitory effect of IL-2 and whether any correlation existed between the sensitivity of these sarcomas to the immunotherapeutic effect of IL-2 and their susceptibility to the cytolytic effect of IL-2-activated killer cells. It was found that the sensitivity of MC-induced sarcomas to local IL-2 immunotherapy was a general phenomenon. Repeated peri-tumoural injections of RIL-2 inhibited the growth of five (MC11, MC13, MC14, MC15, MC16) out of six sarcomas in syngeneic mice. The sixth murine sarcoma (MC12) was found to be resistant to the tumour inhibitory effect of IL-2. Similarly, five (MC11, MC13, MC14, MC15, MC16) out of six murine sarcoma cell lines were sensitive to the cytolytic effect of IL-2-activated syngeneic killer spleen cells when examined in vitro, whereas the sixth (MC12) sarcoma cell line was resistant. These results suggest that LAK cells represent the effector cell mechanism responsible for the anti-tumour efficacy of local IL-2 immunotherapy and that in vitro testing of sensitivity to the LAK cell-mediated cytolysis may be used to detect tumours responding to IL-2 immunotherapy in vivo.Abbreviations IL-2 interleukin 2 - RIL-2 human recombinant interleukin 2 - LAK lymphokine-activated killer - MC 3-methylcholanthrene - B10 C57BL/10ScSnPh - MSV murine sarcoma virus (Harvey) - MEM minimal essential medium     

Disulfide assignments in recombinant mouse and human interleukin 4

The disulfide pairings of mouse and human interleukin 4 (IL-4) proteins have been determined. The purified proteins, synthesized by recombinant DNA technology, are fully active as judged by their ability to stimulate an appropriate biological response in a variety of functional assays. Peptide maps were produced by digesting the proteins with pepsin and separating the resulting fragments by reverse-phase HPLC using linear acetonitrile-TFA gradients. Cystine-containing peptides were identified by determining which reverse-phase peaks showed an altered elution pattern after reduction. These peptides were purified further and defined by composition and sequence analysis. Three sets of disulfide-linked peptides were consistently identified for each protein. For mouse IL-4, the first and fifth, second and fourth, and third and sixth cysteines are joined. The disulfide bonds in human IL-4 are between the first and sixth, second and fourth, and third and fifth cysteines. A large double-loop region within the central three-fifths of each protein is stabilized by these bonds. Sequence analysis of the peptides containing the third and fifth cysteines of human IL-4 also demonstrated that only one of the potential N-glycosylation sites is used by C127 mammary tumor cells. Complete alkylation of mouse IL-4 under mild conditions completely destroyed its biological activity in a hematopoietic precursor cell proliferation assay.     

Structure of recombinant human interleukin 5 produced by Chinese hamster ovary cells

The complete peptide map of purified recombinant human interleukin 5 (rhIL-5) was determined to verify its primary structure, glycosylation sites, and disulfide bonding structure. Each peptide fragment generated by Achromobacter protease I (API) digestion was purified and characterized by amino acid analysis and amino acid sequence analysis. After digestion with API, we could identify all the peptides which were expected from human IL-5 cDNA sequence. The analyses of sulfhydryl content in rhIL-5 molecule and disulfide-containing peptide obtained from API digestion indicated that active form of rhIL-5 existed as an antiparallel dimer linked by two pairs of Cys-44 and Cys-86. In addition, we concluded that Thr-3 and Asn-28 were glycosylated. The results indicate that primary structure of rhIL-5 is highly homogeneous and observed heterogeneity is due to the difference in the content of carbohydrate.     

Monocyte-derived inhibitor of interleukin 1 induced by human cytomegalovirus.

It has previously been shown that human cytomegalovirus (HCMV) can exert immunosuppressive effects, and it has been suggested that these may be mediated by monocytes, although the mechanism is unclear. We showed that infection of human monocytes with the AD169 strain of HCMV abrogates their production of interleukin 1 (IL-1) activity. This was associated with the release from infected monocytes of an inhibitor of IL-1 activity which was also released after HCMV infection of the U937 macrophage-like cell line. The inhibitor of IL-1 activity is a protein with an apparent molecular weight of ca. 95,000. This action of HCMV strain AD169 was virus specific and required infectious virus but occurred without virus replication or detectable expression of viral proteins. This effect may account, at least in part, for the previously observed immunosuppressive properties of HCMV.     

Cellular source of soluble interleukin 2 receptors in serum of mice after recombinant interleukin 2 administration.

Previous studies have shown that peripheral blood mononuclear cells activated in vitro not only express cell-associated interleukin 2 receptors (IL2R) but also release a soluble form of this receptor. In this study, we demonstrate that administration of human recombinant IL 2 (rIL 2) to mice results in increased spleen weights, splenic natural killer (NK) cell cytolytic activity, and serum levels of soluble IL2R. However, compared with rIL 2-treated heterozygote controls, beige mice treated with rIL 2 displayed similar elevations in serum soluble IL2R but significantly less splenic NK activity. Likewise, administration of anti-asialo GM1 antiserum to rIL 2-treated mice resulted in a dramatic reduction in splenic NK cytolytic activity, but no reduction in serum soluble IL2R. Conversely, while rIL 2 treatment of BALB/c mice produced increased splenic NK activity and serum soluble IL2R, similar treatment of BALB/c nude mice resulted in elevation of only splenic NK activity. These studies demonstrate that administration of rIL 2 to normal mice can elevate both serum IL2R levels and splenic NK cytolytic activity. However, the results suggest that T cells are likely to be the source of elevated serum IL2R after rIL 2 administration.     

B cell growth-promoting activity of recombinant human interleukin 4

Human interleukin 4 (IL-4), also known as B cell stimulatory factor 1, is a T cell-derived glycoprotein consisting of 129 amino acids for which a cDNA has been recently isolated. IL-4 displays little or no B cell growth factor (BCGF) activity in the standard anti-IgM costimulatory assay using suboptimal concentrations of soluble anti-IgM antibody whereas the low m.w. BCGF is very active. When insolubilized anti-IgM was used as the costimulating agent, both IL-4 and the low m.w. BCGF were found to promote B cell proliferation. Human IL-4 is able to induce the proliferation of B lymphocytes preactivated for either 1 day with insolubilized anti-IgM antibody or for 3 days with Staphylococcus aureus strain Cowan I. However, IL-4 is poorly mitogenic for B cells preactivated for 1 day with the Staphylococcus strain whereas the low m.w. BCGF strongly enhances the proliferation of these B cells. These two findings demonstrate that the preactivation signal necessary to induce human B cells to proliferate in response to IL-4 is critical. The increased tritiated thymidine ([3H]dThd) uptake in preactivated B cell cultures with IL-4 reflects cel proliferation because cell cycle analysis demonstrates that IL-4 induces activated B cells to enter the S and G2/M phases of the cell cycle and the addition of IL-4 to preactivated B cell cultures permits the recovery of three- to fourfold more B cells after 4 days of culture. IL-4 and the low m.w. BCGF act in concert to induce the proliferation of anti-IgM-preactivated B cells as demonstrated by [3H]dThd uptake and cell cycle analysis. In striking contrast to the demonstrated antagonistic effect of interferon-gamma on the IL-4-induced expression of the low affinity receptor for IgE (Fc epsilon RL/CD23), on B cells, it was found that interferon-gamma enhanced the IL-4-induced proliferation of anti-IgM-preactivated B cells. Finally, it was found that IL-4 had to be present continuously during the culture period to exert an optimal growth-promoting effect on B cell blasts. As a conclusion, IL-4 is able to induce the proliferation of an appropriately activated subpopulation of human B cells.     

Activation of neutrophils by recombinant interleukin 6

The cytokine interleukin 6 (IL-6) has been shown to have multiple biological activities against many cellular targets. The present studies were designed to determine whether these activities extended to the neutrophil (PMN). Initially, we investigated the ability of IL-6 to modulate PMN-mediated antibody-dependent cellular cytotoxicity. The presence of IL-6 stimulated 51Cr release from labeled, opsonized targets by 67.1% (from 21.6 +/- 1.4% to 36.1 +/- 1.3% at 10 U of IL-6 (P less than 0.01)). IL-6 was not directly toxic to the target cells and stimulation of ADCC was shown to occur across a range of effector-to-target ratios. To investigate the basis of the capacity of IL-6 to stimulate PMN, we studied the effects of IL-6 on PMN chemotaxis, degranulation, and the respiratory burst. IL-6 was not chemotactic or chemokinetic for PMN. However, IL-6 stimulated lysozyme secretion from 14.1 +/- 2.5 to 23.7 +/- 3.6% at 100 U (P less than 0.01). IL-6 was a complete secretagogue, being able to induce the secretion of both the secretory granule marker lactoferrin (11.2 +/- 2.0 to 23.5 +/- 2.2%) and the primary granule marker beta-glucuronidase (5.0 +/- 1.0 to 18.2 +/- 4.0%). IL-6 was not able to directly stimulate the PMN respiratory burst. However, IL-6 did "prime" PMN, enhancing superoxide secretion by fMLP (10(-7) M)-treated PMN by 50.8% (5.9 +/- 1.0 to 8.9 +/- 1.5 nmol superoxide at 100 U of IL-6; P less than 0.01) and PMA (5.0 nM) by 54.3% (8.1 +/- 2.6 to 12.5 +/- 3.6 nmol; P less than 0.05). In conclusion, IL-6 is a PMN stimulant, enhancing the toxicity of PMN in an antibody-dependent cellular cytotoxicity assay. Enhanced cytotoxicity may have been mediated, at least in part, by the stimulation of secretion of toxic components from PMN targets and by the priming of stimulating respiratory burst activity.     

Kinetic characterization of recombinant human acidic mammalian chitinase

Human acidic mammalian chitinase (AMCase), a member of the family 18 glycosyl hydrolases, is one of the important proteins involved in Th2-mediated inflammation and has been implicated in asthma and allergic diseases. Inhibition of AMCase results in decreased airway inflammation and airway hyper-responsiveness in a mouse asthma model, suggesting that the AMCase activity is a part of the mechanism of Th2 cytokine-driven inflammatory response in asthma. In this paper, we report the first detailed kinetic characterization of recombinant human AMCase. In contrast with mouse AMCase that has been reported to have a major pH optimum at 2 and a secondary pH optimum around 3-6, human AMCase has only one pH optimum for k(cat)/K(m) between pH 4 and 5. Steady state kinetics shows that human AMCase has "low" intrinsic transglycosidase activity, which leads to the observation of apparent substrate inhibition. This slow transglycosylation may provide a mechanism in vivo for feedback regulation of the chitinase activity of human AMCase. HPLC characterization of cleavage of chitooligosaccharides (4-6-mers) suggests that human AMCase prefers the beta anomer of chitooligosaccharides as substrate. Human AMCase also appears to cleave chitooligosaccharides from the nonreducing end primarily by disaccharide units. Ionic strength modulates the enzymatic activity and substrate cleavage pattern of human AMCase against fluorogenic substrates, chitobiose-4-methylumbelliferyl and chitotriose-4-methylumbelliferyl, and enhances activity against chitooligosaccharides. The physiological implications of these results are discussed.     

Kinetic analysis of 11α-hydroxylation of steroids by Rhizopus nigricans

Optimization of bioconversion of 16,17α-epoxyprogesterone by Rhizopus nigricans TJ 108 was investigated by means of uniform design. Batch cell growth and bioconversion kinetics were simulated under optimal conditions. Contois equation was used in the kinetics study of fungal growth on glucose. Simulation of bioconversion process was done at a constant value of substrate concentration according to the reaction mechanism. It was demonstrated that the above model satisfactorily described the kinetic behaviors of cell growth and bioconversion of the filamentous fungi.     

Splenomegaly induced by recombinant human granulocyte-colony stimulating factor in rats

Spontaneous ruptures of the spleen have been observed in donors and patients with malignancy during mobilization of peripheral blood stem cells. Thus, we investigated the morphological and histological alteration of the spleen, and mRNA expression levels and activities of the DNA-synthesizing enzymes thymidylate synthase (TS) and thymidine kinase (TK) in the splenic cells, of rats treated with recombinant human granulocyte-colony stimulating factor (rhG-CSF). Daily injections of rhG-CSF for 5 or 7 days slightly enhanced the splenic weight. Single or 3-day treatment with rhG-CSF markedly enhanced the number of granulocytes in peripheral blood. Expression levels of TS and TK mRNA in the splenic cells were significantly increased 6 hours after rhG-CSF treatment. Early expression of TS and TK mRNA in the splenic cells may indicate a reseeding of hematopoietic cells from the bone marrow. Daily injections with rhG-CSF enhanced the TS and TK activities in the splenic cells. As continuous elevations of DNA-synthesizing enzyme activity and spleno-megaly are suggestive of a possible splenic rupture, the monitoring of peripheral granulocytes and splenic size is necessary during the rhG-CSF treatment.