scholarly journals Erythroleukemia induction by Friend leukemia virus. A host gene locus controlling early anemia or polycythemia and the rate of proliferation of late erythroid cells.

1982 ◽  
Vol 156 (2) ◽  
pp. 398-414 ◽  
Author(s):  
T Shibuya ◽  
Y Niho ◽  
T W Mak
Keyword(s):  
Leukemia Virus ◽  
Erythroid Cell ◽  
Direct Result ◽  
Erythroid Cells ◽  
Spleen Cells ◽  
Erythroid Progenitor ◽  
Erythroid Precursor ◽  
Cba Mice ◽  
Friend Leukemia ◽  
Friend Leukemia Virus

This report confirms that the Fv-5 locus controls the types of erythropoiesis induced by Friend erythroleukemia virus (FLV) (21) and extends the study to investigate the mode of action of this locus. With the use of FLV obtained by a variety of procedures, we showed that the polycythemia spleen focus-forming component (SFFVp) was responsible for the contrasting changes of hematocrits observed in FV-Pp (polycythemia strain)-infected DBA/2 (Fv-5pp) or CBA (Fv-5aa) mice. These changes in hematocrits were found to be a direct result of the rise in circulating reticulocytes and erythrocytes in DBA/2 mice and a corresponding drop of these erythroid cells in CBA mice 2 wk after infection. Examination of the FV-P-induced cellular changes indicated that dramatic increase in erythropoietin (epo)-independent erythroid precursor (CFU-E*) cells was detected in the spleens and marrow of both strains of mice. The epo responsiveness of the CFU-E in the uninfected and FV-P-infected CBA and DBA/2 mice was also very similar. Similar to FLV-infected DBA/2 mice, the FV-P-infected CBA mice also developed tumorogenic cells (CFU-FV) relatively early after infection (4-6 wk). Study of the physiological and pathological changes in the marrows and spleens of these infected mice indicated that significant differences were found in the spleens of the two strains of mice. The percent of reticulocytes in the spleen cells of CBA mice remained between 10 and 20%, and level of the DBA/2 mice increased to approximately 50%. This higher rate of erythropoiesis was also reflected in the significantly higher rate of uptake of 59Fe in the spleens of the DBA/2 mice. These results suggest that the Fv-5 locus might control the hematocrit levels of these mice by regulating the rates of erythropoiesis in the spleen levels of these mice, probably by affecting the rate of proliferation of an erythroid cell or cells. The erythroid cell(s) affected is likely to be more mature than the erythroid progenitor, CFU-E, as the levels of CFU-E in these two strains of mice were similar. The hypothesis that Fv-5 may control the rates of proliferation of a late erythroid (cell(s) is also supported by the significantly higher spleen weights found in the infected DBA/2 (approximately 2.5 g/spleen) mice than in the CBA (approximately 1 g/spleen) strain.

scholarly journals Erythroleukemia induction by replication-competent type C viruses cloned from the anemia- and polycythemia-inducing isolates of Friend leukemia virus.

1980 ◽  
Vol 151 (6) ◽  
pp. 1493-1503 ◽  
Author(s):  
M E MacDonald ◽  
T W Mak ◽  
A Bernstein
Keyword(s):  
Leukemia Virus ◽  
Kinetic Studies ◽  
Biological Properties ◽  
Erythroid Cells ◽  
Erythroid Progenitor ◽  
Newborn Mice ◽  
Adult Mice ◽  
Friend Leukemia ◽  
Virus Complex ◽  
Friend Leukemia Virus

In this study, the biological properties of the replication-competent viruses, F-MuLVA, present in the anemia-inducing isolate of Friend leukemia virus complex (FV-A); and F-MuLVP, present in the polycythemia-inducing isolate of Friend leukemia virus complex (FV-P) have been examined. BALB/c mice infected as newborns with clonal isolates of F-MuLVA or F-MuLVP become anemic and show splenic enlargement characterized by an increased proportion of cells that resemble immature nucleated erythroid cells. In addition, the spleens of these F-MuLVA- or F-MuLVP-infected mice contain a markedly increased proportion of both erythropoietin-dependent erythroid progenitor cells and spectrin-containing erythroid cells. These results suggest that Friend murine leukemia virus (F-MuLV) by itself can induce an erythroleukemic transformation in newborn BALB/c mice similar to that induced by the anemia-inducing spleen focus-forming virus (SFFVA) in newborn or adult mice. Kinetic studies indicated that the alterations in hemopoietic cell populations induced by F-MuLVA or F-MuLVP in newborn BALB/c mice occurred more slowly than the rapid changes observed after infection with FV-A. In addition, adult BALB/c mice were fully susceptible to the erythroleukemic transformation induced by either SFFVA or SFFVP, whereas only newborn mice were susceptible to F-MuLV. Taken together, these results suggest that, although the replication-defective Friend spleen focus-forming viruses appear to be the major determinant of erythroleukemia induction in adults, the replication-competent helper F-MuLV also have erythroleukemic potential when assayed in newborn animals.

scholarly journals Clonal analysis of the late stages of erythroleukemia induced by two distinct strains of Friend leukemia virus.

1981 ◽  
Vol 1 (8) ◽  
pp. 721-730 ◽  
Author(s):  
D Mager ◽  
M E MacDonald ◽  
I B Robson ◽  
T W Mak ◽  
A Bernstein
Keyword(s):  
Progenitor Cells ◽  
Cell Lines ◽  
Single Cells ◽  
Leukemia Virus ◽  
Significant Proportion ◽  
Erythroid Progenitor ◽  
Self Renewal ◽  
Friend Leukemia ◽  
P Colonies ◽  
Friend Leukemia Virus

We observed striking differences between the tumorigenic colony-forming cells present in the spleens of mice late after infection with the anemia-inducing strain of Friend leukemia virus (strain FV-A) and those present after infection with the polycythemia-inducing strain (strain FV-P). Cells within primary colonies derived from FV-A- and FV-P-transformed cells (CFU-FV-A and CFU-FV-P, respectively) contained hemoglobin and spectrin, indicating that the CFU-FV-A and CFU-FV-P were transformed erythroid progenitor cells. The proportion of cells containing hemoglobin was relatively high (> 25%) in newly isolated cell lines derived from CFU-FV-P colonies, whereas cell lines derived from CFU-FV-A colonies had only low levels (0 to 2%) of hemoglobin-containing cells. A high proportion of the cell lines derived from CFU-FV-A colonies responded to pure erythropoietin and accumulated spectrin and hemoglobin, whereas the cell lines derived from CFU-FV-P colonies did not. A cytogenetic analysis indicated that primary CFU-FV-P colony cells were diploid, whereas chromosomal aberrations were observed in the immediate progeny of CFU-FV-A. The presence of unique chromosomal markers in the majority of the cells within individual colonies derived from CFU-FV-A suggested that these colonies originated from single cells. Finally, leukemic progenitor cells transformed by strain FV-A appeared to have an extensive capacity to self-renew (i.e., form secondary colonies in methylcellulose), whereas a significant proportion of the corresponding cells transformed by strain FV-P did not. In addition, the self-renewal capacity of both CFU-FV-A and CFU-FV-P increased as the disease progressed. From these observations, we propose a model for the multistage nature of Friend disease; this model involves clonal evolution and expansion from a differentiating population with limited proliferative capacity to a population with a high capacity for self-renewal and proliferation.

scholarly journals Cell-free transmission of Fv-4 resistance gene product controlling Friend leukemia virus-induced leukemogenesis: a unique mechanism for interference with viral infection

Blood ◽  
1995 ◽  
Vol 86 (4) ◽  
pp. 1557-1563 ◽  
Author(s):  
M Kitagawa ◽  
S Aizawa ◽  
H Kamisaku ◽  
H Ikeda ◽  
K Hirokawa ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Mononuclear Cells ◽  
Specific Binding ◽  
Leukemia Virus ◽  
Spleen Cells ◽  
Peripheral Blood Mononuclear ◽  
Friend Leukemia ◽  
Bone Marrow Chimeras ◽  
Friend Leukemia Virus

Fv-4 is a mouse gene that dominantly confers resistance to infection by ecotropic murine leukemia virus (MuLV). We previously demonstrated that mixed radiation bone marrow chimeras containing Fv-4r-bearing BALB/c-Fv- 4Wr (C4W) bone marrow and Fv-4r-bearing C3H/He (C3H) bone marrow grafted into C3H recipient mice (C4W+C3H-->C3H) were resistant to Friend leukemia virus (FLV)-induced leukemogenesis, even when they contained as high as 70% C3H-derived cells. This indicates that FLV- sensitive C3H-derived cells are rendered refractory to infection and/or transformation with FLV when they coexist in mice with Fv-4r-bearing cells. To investigate the mechanism of Fv-4 resistance to FLV-induced leukemogenesis, we first examined the expression of Fv-4r env antigen in the peripheral blood mononuclear cells (PBMC) of these chimeras. The Fv-4r env antigen was present not only on C4W-derived cells, but also on Fv-4r-bearing C3H-derived cells in C4W+C3H-->C3H mixed bone marrow chimeras. The Fv-4r env antigen that binds to the cells surface of C3H cells was found in sera from normal C4W mice, C4W-->C3H chimeras, and C4W+C3H-->C3H mixed chimeras. The serum Fv-4r env antigen binds to ecotropic MuLV receptors, shown by specific binding to transfectant mink cells expressing ecotropic MuLV receptor, but not to parental mink cells. To determine whether the binding of Fv-4r env antigen to the putative MuLV receptors would block FLV infection, C3H thymocytes or spleen cells that had been preincubated with C4W serum were mixed with FLV and the subsequent production of MuLV specific antigens was examined. C3H thymocytes or spleen cells treated with C4W serum became refractory to binding by FLV. These results provide evidence that the Fv-4r env antigen is released from C4W-derived cells in vivo and binds to cells expressing surface receptors for ecotropic MuLV, thereby protecting them from infection with FLV. The implication of these findings for gene therapy of retrovirus-induced disease such as acquired immune deficiency syndrome (AIDS) is discussed.

Clonal analysis of the late stages of erythroleukemia induced by two distinct strains of Friend leukemia virus

1981 ◽  
Vol 1 (8) ◽  
pp. 721-730
Author(s):  
D Mager ◽  
M E MacDonald ◽  
I B Robson ◽  
T W Mak ◽  
A Bernstein
Keyword(s):  
Progenitor Cells ◽  
Cell Lines ◽  
Single Cells ◽  
Leukemia Virus ◽  
Significant Proportion ◽  
Erythroid Progenitor ◽  
Self Renewal ◽  
Friend Leukemia ◽  
P Colonies ◽  
Friend Leukemia Virus

We observed striking differences between the tumorigenic colony-forming cells present in the spleens of mice late after infection with the anemia-inducing strain of Friend leukemia virus (strain FV-A) and those present after infection with the polycythemia-inducing strain (strain FV-P). Cells within primary colonies derived from FV-A- and FV-P-transformed cells (CFU-FV-A and CFU-FV-P, respectively) contained hemoglobin and spectrin, indicating that the CFU-FV-A and CFU-FV-P were transformed erythroid progenitor cells. The proportion of cells containing hemoglobin was relatively high (> 25%) in newly isolated cell lines derived from CFU-FV-P colonies, whereas cell lines derived from CFU-FV-A colonies had only low levels (0 to 2%) of hemoglobin-containing cells. A high proportion of the cell lines derived from CFU-FV-A colonies responded to pure erythropoietin and accumulated spectrin and hemoglobin, whereas the cell lines derived from CFU-FV-P colonies did not. A cytogenetic analysis indicated that primary CFU-FV-P colony cells were diploid, whereas chromosomal aberrations were observed in the immediate progeny of CFU-FV-A. The presence of unique chromosomal markers in the majority of the cells within individual colonies derived from CFU-FV-A suggested that these colonies originated from single cells. Finally, leukemic progenitor cells transformed by strain FV-A appeared to have an extensive capacity to self-renew (i.e., form secondary colonies in methylcellulose), whereas a significant proportion of the corresponding cells transformed by strain FV-P did not. In addition, the self-renewal capacity of both CFU-FV-A and CFU-FV-P increased as the disease progressed. From these observations, we propose a model for the multistage nature of Friend disease; this model involves clonal evolution and expansion from a differentiating population with limited proliferative capacity to a population with a high capacity for self-renewal and proliferation.

Involvement of GER in Friend leukemia virus assembly in high-pressure frozen cells

1990 ◽  
Vol 48 (3) ◽  
pp. 590-591
Author(s):  
W. Djaczenko ◽  
M. Müller ◽  
A. Benedetto ◽  
G. Carbone
Keyword(s):  
High Pressure ◽  
Virus Assembly ◽  
Leukemia Virus ◽  
Leukemia Cells ◽  
Serial Sections ◽  
Myeloma Cells ◽  
Virus Particles ◽  
Friend Leukemia ◽  
Carbon Coated ◽  
Friend Leukemia Virus

A thickening of ER membranes in murine myeloma cells was attributed by de Harven to the assembly of intracisternal virus particles. We observed similar thickening of GER membranes in Friend leukemia cells (FLC) apparently associated with Friend leukemia virus (FLV) assembly. We reinvestigated the problem of GER involvement in FLV assembly using high pressure cryofixed FLC.FLC (745A clone growing in suspension and FF clone growing in monolayer) were immersed in Hexadecene (Fluka, Switzerland) and rapidly frozen in Balzers HPM 010 freezing machine working at 2200 bar. All cells were freeze substituted at -90°C in 2% OsO4 in absolute acetone. Serial sections cut to avoid misinterpretations due to the geometry of sections, were collected on carbon coated 100 mesh grids.

What can we learn from Fli1-deficient mice, new animal models of systemic sclerosis?

2018 ◽  
Vol 3 (1) ◽  
pp. 6-13 ◽  
Author(s):  
Yoshihide Asano
Keyword(s):  
Systemic Sclerosis ◽  
Animal Models ◽  
Leukemia Virus ◽  
Environmental Influences ◽  
Epidemiological Studies ◽  
Potential Candidate ◽  
Predisposing Factor ◽  
Friend Leukemia ◽  
Virus Integration ◽  
Friend Leukemia Virus

Systemic sclerosis is a complex multifactorial disease characterized by autoimmunity, vasculopathy, and selective organ fibrosis. A series of genetic and epidemiological studies have demonstrated that environmental influences play a central role in the onset of systemic sclerosis, while genetic factors determine the susceptibility to and the severity of this disease. Therefore, the identification of predisposing factors related to environmental influences would provide us with an informative clue to better understand the pathological process of this disease. Based on this concept, the deficiency of transcription factor Friend leukemia virus integration 1, which is epigenetically suppressed in systemic sclerosis, seems to be a potential candidate acting as the predisposing factor of this disease. Indeed, Fli1-mutated mice serve as a set of useful disease models to disclose the complex pathology of systemic sclerosis. This article overviews the recent advancement in systemic sclerosis animal models associated with Friend leukemia virus integration 1 deficiency.

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