UMLS:C0023418 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The autogenous humoral immune response of mice to their endogenous leukemia virus (MuLV) has been examined with respect to the reactivities of natural antibodies to MuLV envelope antigens and virus-induced cells surface antigens. The natural reactivity of MuLV envelope antigens was evaluated by means of a radioimmune precipitation assay of intact and disrupted virus, as well as by virus neutralization tests. The specificity of natural antibody for MuLV envelope antigens was determined by immunoelectron microscopy and radioimmune precipitation. Antibody reactivity to virus-induced cell-surface antigens was evaluated by immunoelectron microscopy and a complement-dependent cytotoxicity test. The strains of mice seleced for study were C57BL/6, C3H/Anf, and the C57BL/6 X C3H/Anf F1 hybrid. Although there were quantitative differences in the antibody levels among these various strains, the naturally recognized antigenic determinants of the virus were consistent, i.e., gp68, gp-43, and p15. High levels of neutralizing antibody against the xenotropic BALB:virus-2 were detected in these various normal sera with the focus reduction assay; however, only marginal levels of neutralizing activity against Moloney leukemia virus were detected with the XC virus assay. No anticellular antibody could be detected in these normal sera with the complement-dependent cytotoxicity assay.
...
PMID:Assessment of reactivities of natural antibodies to endogenous RNA tumor virus envelope antigens and virus-induced cell surface antigens. 4 90

Major virion low-molecular-weight polypeptides were isolated from the Moloney strain of murine leukemia virus (type C) by agarose chromatography in 6M guanidine hydrochloride and were shown to have molecular weights of 15,000 (p15), 12,000 (p12), and 10,000 (p10) by their elution volumes and by their relative mobilities in sodium dodecyl sulfate-polyacrylamide gels. Each polypeptide could be iodinated and employed in double antibody radioimmunoassay procedures. All three polypeptides demonstrated a high degree of type-specificity in serologic immunoprecipitation analysis and in corresponding competition immunoassays. The p15 was immunologically distinct from other viron polypeptides including p12 and p10; the p12 and p10 were highly related to each other but not to other virion polypeptides and were even more type-specific than the p15 in serologic tests. Competition immunoassays with p15 and p10 indicate that the Moloney strain of MuLV is only a distant relative of the Friend-Rauscher group. The combined use of the Kirsten and Moloney low-molecular-weight polypeptide immunoassays suggest that xenotropic viruses constitute yet another group(s) of murine leukemia virus with distinct type-specific antigens, further expanding an already heterogeneous group of mouse type C viruses.
...
PMID:Serological studies with low-molecular-weight polypeptides from the Moloney strain of murine leukemia virus. 4 41

Sera from normal (C57BL/6XC3H/Anf)F1(B6C3F1) mice reacted with several biologically distinct murine leukemia virus(es) (MuLV) by radioimmune precipitation assays with the use of purified tritiated leucine-labeled virus. The reactivities of this natural antibody to viral envelope antigens of two laboratory strains (Rauscher and Moloney) and two endogenous mouse C-type viruses (AKR and BALB:virus-2) were further analyzed and compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Similar patterns of antibody reactivities to AKR MuLV and the two member viruses of the Friend-Moloney-Rauscher group were found. Three major antigenic determinants of the virus envelope, gp71, gp43, and p15, were recognized by and precipitated natural antibody. In all viruses examined, normal B6C3F1 sera precipitated comparable amounts of gp71 and gp43. However, compared with the other viruses, the amount of p15 (relative to the glycoproteins) precipitating from BALB:virus-2 was significantly lower. This appears to be due to a lesser amount of p15 on the xenotropic virus. While heterologous antisera to purified gp71 and p15 of MuLV reacted to a certain degree with rhabdomyosarcoma virus 114 and rat leukemia virus, natural mouse antibody did not. These results suggest that MuLV have common antigenic determinants recognized by natural antibody, and that the reactivities of natural antibody in an autogenous immune response are restrictive in contrast to immune antibody produced in a heterologous host.
...
PMID:Autogenous immunity to endogenous RNA tumor virus: reactivity of natural immune sera to antigenic determinants of several biologically distinct murine leukemia viruses. 5 18

Autogenous immune sera from several strains of mice have been examined for type-, group-, or interspecies-specific reactivities against leukemia virus envelope antigens and virus-induced cell surface proteins. The natural antibody of these test sera react with gp69/71, gp43, and p15 structural components on murine leukemia viruses including AKR, Friend, Rauscher, Moloney, and xenotropic BALB:virus-2. Furthermore, comparable radioimmune titration curves are obtained when these viruses are used in radioimmune precipitation assays. Competition experiments, however, suggest that natural immune sera are predominantly type specific and only weakly cross-react with the Rauscher or Friend virus. Natural immune sera react with the virion envelope but not with the virus-induced cell surface antigen. With respect to the biological activity of autogenous immune sera, there appears to be an inconsistency between the spectrum of virus-precipitating antibody and virus-neutralizing antibody. Although normal mouse serum readily neutralizes xenotropic viruses (BALB:virus-2), only weak neutralization of the ecotropic viruses can be achieved in vitro. Although there is a lack of direct evidence to indicate that autogenous immunity to murine leukemia virus is involved in the control of virus-mediated neoplasia, several empirical correlations point in this direction.
...
PMID:Autogenous immunity to endogenous RNA tumor virus: humoral immune response to virus envelope antigens. 5 22

Sera from normal C57BL/6 mice contained low titers of antibodies against proteins of MuLV. Sera from C57BL/6 mice that were immunized with allogeneic leukemia cells sometimes contained high-titered antibodies against the p15 protein of MuLV; these antibodies detected group-specific antigenic determinants of the p15 protein, since reactions were observed with the p15 proteins of both AKR and Moloney viruses. In contrast, antisera prepared in C57BL/6 mice against the AKR leukemia K36 reacted strongly with the p30 protein of MuLV, as well as with p15. Antibodies in the C57BL/6 anti-AKR K36 sera detected group-specific antigenic determinants of the p30 protein; reactions were observed with the C57BL/6 anti-AKR K36 serum and the p30 proteins of both AKR and Moloney viruses. It was concluded that mice do have the capacity to respond immunologically to antigenic determinants of the MuLV p30 protein, although in most circumstances this is not observed.
...
PMID:Immune response of the mouse to the major core protein (p30) of ecotropic leukemia viruses. 5 85

The murine leukemia virus envelope proteins, p15(E) and gp70, exhibit a mode of processing distinct from that of virion core proteins according to three criteria. First, the incorporation of both p15(E) and gp70 into virions is more sensitive to the metabolic analogue 2-deoxy-D-glucose than the incorporation of core proteins. Second, the kinetics with which the newly synthesized envelope proteins appear in the released virions is delayed relative to the appearance of core proteins. Third, immunoprecipitation of large polypeptides from infected cells reveals the presence of gp70 and p15(E) in a common precursor distinct from the core polyprotein.
...
PMID:Presence of murine leukemia virus envelope proteins gp70 and p15(E) in a common polyprotein of infected cells. 6 59

A polypeptide of molecular weight approximately 75,000 daltons, p(75), was identified on the surface of AKR spontaneous leukemia cells by lactoperoxidase-catalyzed radio-iodination. This protein was shown by immunoprecipitation to have antigenic determinants of MuLV p30, p15, and p10, but not gp70, suggesting that p(75) represents a polyprotein composed of virion core components. As evidenced by studies on incorporation of radioactive glucosamine, p(75) is probably glycosylated. No p(75) was found on 2 month old AKR thymocytes, and only a small amount of p(75) was detectable of thymocytes from 4 month old animals. However, substantial quantities of p(75) could be found on thymocytes from 6 month old, yet still preleukemic mice.
...
PMID:A core polyprotein of murine leukemia virus on the surface of mouse leukemia cells. 6 4

The Gross cell surface antigen (GCSA), associated with expression of endogenous Gross-type murine leukemia virus (G-MuLV) in tissues of mice, is defined by the cytotoxic reaction of a C57BL/6 antiserum, anti-AKR spontaneous leukemia K36, with cells of the Gross virus-induced C57BL/6 leukemia, Emale symbolG2. Sequential lactoperoxidase-catalyzed radioiodination of Emale symbolG2 cells, Nonidet P-40 lysis, precipitation with anti-K36 serum, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis identified molecules with properties of polyproteins encoded by the gag region of the viral genome. These cell surface species could also be labeled by in vitro culturing of Emale symbolG2 with radioactive glucosamine. The viral specificity of these molecules and their participation in the GCSA typing system were established as follows. (i) Absorption of anti-K36 serum with GCSA(+), but not GCSA(-), leukemias led to a marked decrease in precipitation of these proteins. (ii) The same Emale symbolG2 cell surface proteins were also precipitated by antisera against the MuLV virion proteins p30 and p15. (iii) Anti-K36 was shown to possess antibodies against Gross virus p30 and p15. (iv) "Clearing" the Emale symbolG2 lysate of molecules reactive with anti-p30 or anti-p15 sera removed molecules reactive with anti-K36 serum. (v) Absorption of anti-K36 serum with disrupted G-MuLV virions or with Gross p30 or p15 removed GCSA cytotoxic antibodies; partial absorption was achieved with disrupted Rauscher-MuLV (R-MuLV) or with R-MuLV p30, and no absorption was found with R-MuLV p15. These data show that Emale symbolG2 cells express, on their surfaces, MuLV core polyproteins that apparently can be glycosylated and on which the determinants of GCSA are located.
...
PMID:Characterization of molecular species carrying gross cell surface antigen. 6 25

Two species of glycosylated type C viral core polyprotein were identified on the surface of AKR spontaneous leukemia cells. One of these cell surface polyproteins was shown by immunoprecipitation to have antigenic determinants of murine leukemia virus p30, p15, p12, and p10; the other had murine leukemia virus p30, p15, and p12, but not p10, determinants. Both species were also expressed on thymocytes from 6-month-old, preleukemic AKR mice.
...
PMID:Two species of type C viral core polyprotein on AKR mouse leukemia cells. 6 29

The effect of interferon on the rate of synthesis and the cleavage processing of viral proteins in mouse cells, chronically infected with Rauscher murine leukemia virus, has been studied by immunoprecipitation of newly synthesized viral proteins from virus-infected cells pulse-labeled with [35S]methionine. Immuno-precipitated, labeled polypeptides were resolved by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and then examined by autoradiography. Cleavage processing was studied in the same manner with cells that had been pulse-labeled and then incubated with non-radioactive media for a sufficient time to allow normal cleavage processing to occur. At a concentration that strongly inhibited the release of virus particles, interferon had no effect on the synthesis of proteins carrying antigenic determinants of the major core protein p30 or of the envelope glycoprotein gp69/71. Nor did it affect the post-translational cleavage processing of the precursors to these proteins. Similarly, interferon did not affect labeling or chasing of precursor protein carrying the p15 determinants; labeling of p15 itself could not be studied because it does not contain methionine.
...
PMID:Synthesis and cleavage processing of oncornavirus proteins during interferon inhibition of virus particle release. 7 Apr 6

1 2 3 4 5 6 7 8 9 10 Next >>