首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 0 毫秒
1.
Contributions of alpha-helices to biological activity in murine granulocyte-macrophage colony-stimulating factor were analyzed using site-directed mutagenesis and protein expression in COS-1 cells. A series of single proline substitutions were made for residues within the four predicted alpha-helices as a means of disrupting local helical secondary structure. Mutations in three of the four helices resulted in marked reductions in bioactivity. Five mutants E21P, L56P, E60P, L63P, and L107P showed 10(2)-10(4)-fold reduction in bioactivity as well as hyperglycosylation. The same Pro substitutions made on non-N-glycosylated molecules had a similar loss in bioactivity implying that a Pro-induced structural change and not hyperglycosylation was responsible for the major decrease in bioactivity. Additional amino acid substitutions at these residues which conserved charge or hydrophobicity, or replaced the original residue with an Ala, verified that conformational changes in the protein structure were specifically due to steric constraints imposed by the Pro residue rather than loss of important side chain functions.  相似文献   

2.
Mouse plasmacytoma FLOPC21 was adapted to culture in the presence of a mouse Th cell supernatant. A stable factor-dependent cell line was derived from this culture and the factor responsible for its growth was identified as granulocyte-macrophage colony-stimulating factor.  相似文献   

3.
Nonglycosylated murine and human granulocyte-macrophage colony-stimulating factor have a molecular mass of approximately 14.5 kDa predicted from the primary amino acid sequence. The expression of both proteins in COS cells leads to a heterogeneous population of molecules that differ in the degree of glycosylation. Both human and murine molecules contain two N-linked glycosylation sites that are situated in nonhomologous locations along the linear sequence. Despite this difference both proteins show a similar size distribution among the glycosylation variants. These studies analyze the effects of introducing in the murine protein novel N-linked glycosylation sites corresponding to those sites found in the human molecule. A panel of molecules composed of various combinations of human N-linked glycosylation sites in either the presence or the absence of murine N-linked glycosylation was compared. Substitution of a proper human N-linked glycosylation consensus sequence at Asn 24 did not result in N-linked glycosylation, nor was there any considerable effect on bioactivity. Replacement of the N-linked glycosylation consensus sequence at Asn 34 results in glycosylation similar to that found in the human molecule and causes a significant decrease in bioactivity. These data suggest that the position of N-linked glycosylation is critical for maximal bioactivity in a particular species and that the changes in position of these sites in different species probably occurred during evolution in response to changes in their receptors.  相似文献   

4.
To study the structure-function relationship of the human granulocyte-macrophage colony-stimulating factor (GM-CSF), genes were constructed that encode its three deletion mutants: D1, a mutant with the deletion of six amino acid residues (37-42) some of which are a part of a beta-structural region; D2, a mutant with the deletion of the unstructured six-aa sequence of a loop (45-50); and D3, a mutant with the deletion of 14 aa residues (37-50) corresponding to the A-B loop and encoded by the second exon of the gmcsf gene. The expression products of these genes in E. coli were accumulated in a fraction of insoluble proteins. The secondary structures of the mutant proteins were similar to that of the full-size GM-CSF, but the biological activity of the deletion mutants was 130 times lower than that of the GM-CSF: they stimulated the proliferation of the TF-1 cell line at 3 ng/ml concentration. The resulting proteins displayed antagonistic properties toward the full-size GM-CSF, with the inhibition degree of its colony-stimulating activity being 27%. A decrease in the mutant activity in the row D2 > D1 > D3 implies the importance of the conserved hydrophobic residues involved in the formation of the beta-structure for the formation of the GM-CSF functional conformation.  相似文献   

5.
Granulocyte-macrophage colony stimulating factor (GM-CSF) is a pleiotrophic cytokine which stimulates the function and proliferation of macrophage populations. Although the effects of GM-CSF are diverse and GM-CSF has entered into clinical trials, relatively little is known about signal transduction pathways utilized by GM-CSF. In view of previous studies which have suggested that some of the effects of GM-CSF on monocyte-macrophages can be mimicked by agents which increase intracellular cAMP, we investigated the effect of rGM-CSF on adenylate cyclase (AC) activity in murine peritoneal macrophages. Adenylate cyclase activity was quantitated in macrophage membrane preparations and in intact cells. In seven separate experiments, GM-CSF (50 U/ml) increased AC activity by 61(6)% relative to macrophages treated with carrier medium alone. A dose-dependent increase in AC activity was observed (10 to 100 U/ml) which peaked within 1 to 5 min after the addition of GM-CSF and returned to basal levels by 10 to 20 min. Lineweaver-Burk analysis revealed that the Vmax of macrophage AC was increased from 0.40 to 0.52 pmoles cAMP/min by GM-CSF but the Km was unchanged. Intracellular cAMP was increased by GM-CSF to 129(27)% of control values by 1 min of treatment (n = 6). Under similar experimental conditions, GM-CSF did not increase the activity of PK C (n = 14) or phospholipase A2 (n = 3) in peritoneal macrophages. These data show that macrophage adenylate cyclase activity is rapidly stimulated by GM-CSF. Moreover, these findings support further study of the role of cAMP in transmitting the intracellular signals initiated by GM-CSF in tissue macrophages.  相似文献   

6.
The expression in yeast of a cDNA clone encoding murine granulocyte-macrophage colony-stimulating factor (GM-CSF) has made possible the purification of large quantities of this recombinant protein. Rabbits immunized with pure recombinant GM-CSF generated antibodies that were shown to be specific for both recombinant GM-CSF and GM-CSF isolated from natural sources. Other lymphokines, including IL 1 beta, IL 2, IL 3, and recombinant human GM-CSF did not react with the antiserum. The antiserum, together with recombinant GM-CSF that had been radiolabeled with 125I to high specific activity, formed the foundation for a rapid, sensitive, and quantitative radioimmunoassay specific for murine GM-CSF. Furthermore, the antiserum was found to inhibit the biologic activities of GM-CSF as measured in both a bone marrow proliferation assay and a colony assay, and thus should prove to be a useful reagent for dissecting the complex growth factor activities involved in murine hematopoiesis.  相似文献   

7.
C Gamba-Vitalo  M P DiGiovanna  A C Sartorelli 《Blood cells》1991,17(1):193-205; discussion 206-8
To evaluate the efficacy of recombinant murine granulocyte-macrophage colony-stimulating factor (rGM-CSF) in attenuating the myelosuppression associated with chemotherapy, the effects of 100 and 300 ng rGM-CSF, administered twice daily by intraperitoneal injection for 6 consecutive days to mice 24 hours after a dose of 200 mg/kg cyclophosphamide, were measured. Six days after the initial injection of rGM-CSF, a significant increase occurred in the absolute myeloid count compared to that of vehicle-treated animals. The difference was most pronounced on day 7, attaining levels of 327% and 428% of the control; these increases slowly declined to that of the control level by day 19. No significant effect was produced by rGM-CSF on the packed red cell volume or on the platelet count. Furthermore, the administration of rGM-CSF did not alter bone marrow cellularity or increase the number of marrow-derived hematopoietic stem cells. In contrast, a significant splenomegaly occurred, starting on day 6 and continuing until day 17. This was characterized by a pronounced increase in splenic-derived granulocyte (CFU-G), granulocyte-macrophage (CFU-GM), macrophage (CFU-M), megakaryocyte (CFU-MK), and erythroid (BFU-E, CFU-E) stem cells. The increases occurred between days 6 and 9 following the initial administration of rGM-CSF. These findings indicated that the administration of rGM-CSF to cyclophosphamide-treated animals causes an absolute increase in circulating myeloid cells and that these increases are derived from the spleen. The use of recombinant hematopoietic growth factors may permit the administration of more intensive chemotherapy through amelioration of chemically induced leukopenia.  相似文献   

8.
Human granulocyte-macrophage colony stimulating factor (hGM CSF), a protein containing 127 amino acids, was chemically synthesized by using automated stepwise solid-phase methods. The unpurified synthetic hGM-CSF had the same range of actions on hemopoietic cells as the purified recombinant protein. The structural requirements for the activities of synthetic hGM-CSF were examined by the design and synthesis of fragments and analogs. The synthetic fragment, hGM-CSF (54-127), containing all four of the cysteine residues found in the intact protein, lacked detectable activity. Assays of fragments shortened at the N terminus showed that the residues 1-13 were not required for activity, but that the integrity of residues 14-25, particularly residues 16, 17, and 18, was critical for biologic activity. The 14-25 region is predicted to form the first alpha-helix in hGM-CSF. Synthetic peptides within the N-terminal 53 residue region lacked detectable activity. The synthetic analog hGM-CSF (1-121), which lacks the C-terminal 6 residues, had similar activity to hGM-CSF (1-127) indicating that residues 122-127 are not required for activity. An analog, [Ala88] hGM-CSF (14-96), which lacks the hydrophobic C-terminal region and 2 cysteine residues, had low but readily detectable activity suggesting that residues 14-96 are sufficient for detectable synthetic hGM-CSF activity, although the presence of residues 97-121 are required for full activity. No dissociation of the multiple biological activities of hGM-CSF was detected.  相似文献   

9.
10.
Granulocyte-macrophage colony-stimulating factor (GM-CSF) is an important cytokine in the mammalian immune system. It has been expressed in Escherichia coli with the same biological activity as the native protein. Here, we report the synthesis of a murine recombinant GM-CSF in an E. coli cell-free protein synthesis system with a high yield. Since there are two disulfide bonds in the native structure of GM-CSF, an oxidizing redox potential of the reaction mixture was required. By pretreating the cell extract with iodoacetamide (IAM), the reducing activity of the cell extract was inactivated, and upon further application of an oxidized glutathione buffer, most of the synthesized GM-CSF was found in its oxidized form. However, the GM-CSF thus formed showed low activity because of poor folding. With the addition of DsbC, the periplasmic disulfide isomerase from E. coli, a high yield of active GM-CSF was produced in the cell-free reaction. Finally, successful folding of the cell-free synthesized GM-CSF-his6 was confirmed by its cell-proliferation activity after purification with a Ni2+ chelating column.  相似文献   

11.
Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a glycoprotein required for the proliferation and differentiation of granulocyte and macrophage precursors. Previous investigations have identified regions in human and murine GM-CSF that are required for bioactivity. In the present study, alanine substitution mutagenesis was undertaken to define more precisely specific amino-terminal residues in murine GM-CSF that are involved in bioactivity and receptor binding. Five double alanine mutants were identified that showed at least 10-fold reductions in bioactivity (K14AK20A, K14AE21A, H15AK20A, H15AE21A, K20AE21A). Each of these mutants maintained a normal N-linked glycosylation pattern when expressed in COS-1 cells, suggesting that native polypeptide backbone conformation was preserved. The purified prokaryotic expression products of two mutants (K14AE21A and H15AE21A) had a 100-fold decrease in bioactivity and a decrease in receptor binding, indicating that the side chains of K14, H15, and E21 are required for optimal receptor binding and maximal bioactivity.  相似文献   

12.
Murine alveolar macrophages (AM) were shown to have proliferative ability and to form colonies in vitro. The factors in lung-conditioned medium (CM) and L929-CM which stimulate the proliferation of AM were considered to be granulocyte-macrophage colony-stimulating factor (GM-CSF) and CSF-1, respectively, because recombinant murine (rm)GM-CSF and recombinant human (rh)CSF-1 could replace the activities of lung-CM and L929-CM, respectively. The phenotype of the cells in the colonies formed by AM incubated with rmGM-CSF or lung-CM was AM-like; more than 90% of the cells were stained by anti-asialo GM1 but not by FITC-LPS, and had AM-like morphology. Expression of Mac-1 Ag determined by M1/70HL in these cells as well as original AM was low. However, the phenotype of the cells in the colonies formed by AM incubated with rhCSF-1 or L929-CM was peritoneal macrophage (PM)-like; more than 90% of the cells were stained by FITC-LPS and M1/70HL, but not by anti-asialo GM1, and showed PM-like morphology. The cells in the colonies formed by AM incubated with rmGMCSF changed their phenotype after treatment with rhCSF-1; the percentage of cells stained by anti-asialo GM1 decreased, and that of cells stained by FITC-LPS increased. The cells in the colonies formed by AM incubated with rhCSF-1 never changed their phenotype after incubation with rmGM-CSF. In contrast to AM, more than 90% of the cells in all colonies formed by PM incubated with either rmGM-CSF, rhCSF-1, lung-CM, or L929-CM were stained by FITC-LPS but not by anti-asialo GM1. These results show that although AM and PM can proliferate, AM, in contrast to PM, are bipotential cells that can differentiate into two types of macrophages responding to distinct types of CSF, and that one of the molecular mechanisms controlling macrophage heterogeneity may be based on the type of CSF produced at distinct tissues.  相似文献   

13.
The effect of s.c. inoculation of purified recombinant derived granulocyte-macrophage (GM)-CSF on resident murine peritoneal macrophages was assessed in this study. From 18 to 24 h after s.c. administration of GM-CSF to normal mice, the resident peritoneal macrophages were harvested and the levels of membrane-bound IL-1, FcR, Mac-1 cell-surface Ag, and class II MHC expression were assessed. Peritoneal cells from GM-CSF-inoculated mice had significantly greater levels of membrane-bound IL-1 than did control mice. In addition when resident peritoneal macrophages from normal mice were purified by adherence and grown in the presence of GM-CSF, they produced greater levels of both membrane-bound and secreted IL-1. The peritoneal cells from GM-CSF-inoculated mice did not differ from controls in the expression of class II MHC-encoded Ag. This observation was confirmed by the finding that GM-CSF was unable to induce class II MHC expression on P388D1 cells, whereas a secondary mixed leukocyte culture supernatant was. Peritoneal cells from GM-CSF-inoculated mice also exhibited greater levels of expression of FcR and the Mac-1 cell-surface Ag. This resulted in an increase in their ability to phagocytose opsonized SRBC in vitro.  相似文献   

14.
The present study was undertaken to elucidate whether B cell lymphoma and hybridoma cell lines can be stimulated by lipopolysaccharides (LPS) or by antibodies against immunoglobulin M (IgM) to produce granulocyte-macrophage colony-stimulating factor (GM-CSF). GM-CSF activity was assayed on the basophil/mast cell line PT-18 which is GM-CSF- and interleukin 3-dependent. Antibodies against murine recombinant GM-CSF were used to identify the colony-stimulating factor activity present in the supernatants of the stimulated B cell lines. When these cell lines were stimulated with LPS, two of five lymphoma and five of six hybridoma lines produced GM-CSF. Two cell lines, the B cell lymphoma M12.4.1 and the hybridoma TH2.2, were analyzed more extensively under serum-free conditions. In these two cell lines, the production of GM-CSF was dependent on the dose of LPS used and time of exposure. Antibodies against IgM stimulated the TH2.2 (IgM+) but not the M12.4.1 (IgM-) cells to produce GM-CSF. Northern blot analysis of the M12.4.1 and TH2.2 cells showed that mRNA of GM-CSF can be detected in LPS-stimulated but not in unstimulated cells. Our data show that transformed B cells can be stimulated to produce GM-CSF. The present data and previous studies on GM-CSF production by normal bone marrow-derived B cells suggest a possible participation of B cells in granulopoiesis.  相似文献   

15.
This report examines the actions of IFN-gamma on monocytopoiesis in murine liquid and semisolid bone marrow cultures. The proliferative response of bone marrow cells to macrophage CSF and granulocyte-macrophage CSF was assayed by measuring [3H]TdR uptake in a range of mouse strains. No interstrain difference in kinetics was observed for CSF-1 action, but GM-CSF acted significantly more rapidly on C57B1/6, Swiss, and to a lesser extent A/J mice than on BALB/c or CBA. IFN-gamma inhibited [3H]TdR incorporation elicited by CSF-1, and to a much lesser extent, GM-CSF. When the two CSF were added together, the effects were not additive; in fact, the response was the same as that seen with GM-CSF alone. When IFN-gamma was also added, the response was restored to the level seen with CSF-1 alone. In essence, the inhibitory actions of GM-CSF and IFN-gamma were mutually exclusive. The mechanism of these actions was investigated using colony assays. As expected, CSF-1 caused the formation of pure macrophage colonies, whereas GM-CSF stimulated production of macrophage, granulocyte, and mixed granulocyte macrophage colonies. When the two CSF were added in combination, the total colony count was greater than with either alone, but less than additive. The number of pure macrophage colonies was reduced to the number seen with GM-CSF alone. IFN-gamma reduced the number of colonies in the presence of CSF-1, but slightly increased the number with GM-CSF. In the presence of both CSF, IFN-gamma increased the colony count by around 25 to 40%, so that the numbers were greater than the combined total of CSF-1 plus GM-CSF added separately. Similar results were obtained in all mouse strains tested. The results suggest that the thymidine uptake data reflect changes in the number of progenitor cells responding rather than changes in cell cycle time. The results are discussed in terms of the possibility that coadministration of GM-CSF and CSF-1 could ameliorate the myelosuppressive actions of IFN-gamma in vivo, leading to more effective use of this agent as a biologic response modifier.  相似文献   

16.
Murine (m) and human (h) granulocyte--macrophage colony-stimulating factors (GM-CSF) have been expressed in large quantities in Saccharomyces cerevisiae using a secretion vector containing the promoter and leader sequences of the mating pheromone alpha-factor. Functionally active mGM-CSF was identified by a proliferation assay with a factor-dependent cell line and by a granulocyte--macrophage colony formation assay using bone marrow cells. The activity of hGM-CSF was confirmed by stimulation of granulocyte--macrophage colony formation using human cord blood cells. Murine GM-CSF with various apparent mol. wts (13, 18, 24, 34 and 40 kd, as well as a smear of higher mol. wts) was detected in yeast culture medium by protein blotting using a rat monoclonal antibody specific for the mGM-CSF N-terminal region peptide. Protein blotting using a rat monoclonal antibody specific for the hGM-CSF N-terminal region demonstrated that a 15.6-kd and higher mol. wt heterogeneous species were secreted. Mutations introduced at each of the two potential N-linked glycosylation sites in mGM-CSF showed that the 13-kd protein is not glycosylated and the major 18-kd protein is mainly glycosylated at the more C-terminal site, whereas the heterogeneous higher mol. wt species were not affected by the mutations. The N-terminal amino acid of the 13-kd protein was shown to be Ser which was four amino acids in the C-terminal direction from the fusion point.  相似文献   

17.
When murine T lymphocyte clones were cultured with purified recombinant IL 2, a dose-dependent increase in the production of granulocyte-macrophage colony-stimulating factor (GM-CSF) was observed. Whereas these clones produced both GM-CSF and multi-lineage CSF (multi-CSF) when cultured with concanavalin A, IL 2 induced the production of GM-CSF in the virtual absence of detectable multi-CSF. In addition, IL 2 synergistically enhanced the production of both GM-CSF and multi-CSF by some antigen- or Con-A-stimulated clones. Like Con-A-induced CSF production, GM-CSF production in the presence of IL 2 required protein synthesis but could occur in the absence of proliferation by the clone. Analysis of dose-response curves for stimulation of CSF production by Con A in the presence and absence of IL 2 suggested that Con A and IL 2 activated GM-CSF synthesis by different mechanisms. These results indicate that the coordinate production of two factors by a single T cell clone stimulated with Con A can be dissociated when the clone is stimulated with IL 2.  相似文献   

18.
Levels of serum granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony stimulating factor (GM-CSF) in patients with various leukocyte disorders were estimated by enzyme linked immunosorbent assay (ELISA). Some cases of acute myelogenous leukemia and aplastic anemia showed elevated serum levels of G-CSF and/or GM-CSF, whereas almost all of 23 healthy controls showed G-CSF and GM-CSF levels lower than 100 pg/ml. High levels of both types of CSF were noted in patients with granulocytosis due to infection. These levels became lower after resolution of the infection. Daily changes in serum CSF levels were also examined in a patient with autoimmune neutropenia, and it was found that the peripheral neutrophilic granulocyte count changed almost in parallel with the serum G-CSF level but not with GM-CSF, following the pattern with a delay of about 4–5 h, suggesting the possibility that G-CSF mainly regulates peripheral neutrophil circulation.  相似文献   

19.
20.
To determine if in vivo administration of granulocyte-macrophage CSF (GM-CSF) affects production of B lymphocytes in the bone marrow, mice were treated with the cytokine and the kinetics of B cell production was analyzed. After 1 wk of GM-CSF treatment, the number of B cell progenitors that express the B220 Ag had fallen fivefold and surface IgM expressing B cells were barely detectable. Although cellularity in the spleen had increased two-fold, due in part to an increase in the number of granulocyte-macrophage progenitor cells, splenic B cell levels were not affected by the GM-CSF treatment. Although numbers of marrow B cells and their immediate progenitors declined due to cytokine treatment, cells capable of rapidly restoring B lymphopoiesis were present in that tissue. After cessation of GM-CSF treatment, B lymphopoiesis resumed in the marrow of the mice and rebounded to supernormal levels at 1 wk after the last GM-CSF injection. This effect may be due to actions of GM-CSF on the B lymphopoietic support capability of the marrow environment, because the overproduction of B cells was not observed when marrow from the GM-CSF donors was used to reconstitute sublethally irradiated severe combined immunodeficient mice.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号