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Query: UMLS:C0038002 (
splenomegaly
)
9,873
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two distinct clones of Friend spleen focus-forming virus (SFFV), differing in their erythroleukemic potential, are described. These isolates have been cloned free of their associated helper viruses and shown to be replication-defective. Both SFFV isolates have been rescued from rat fibroblast nonproducer cell clones with cloned replication-competent viruses, F-MuLVA and F-MuLVP, obtained from the anemia- or polycythemia-inducing isolates of Friend virus complex, respectively. These rescued viruses induce a rapid proliferative disease associated with the appearance of macroscopic spleen foci and
splenomegaly
. In addition, each is subject to regulation by the W, Steel (Sl), and Fv-2 host gene loci. These two isolates of SFFV can, however, be distinguished by both biological and molecular criteria. Friend SFFVP induces a rapid polycythemia associated with the appearance of large numbers of erythropoietin (EPO)-independent erythroid colony-forming cells in the marrow and spleen. In contrast, SFFVA induces a rapid anemia associated with a progressive decrease in the number of EPO-dependent erythroid colony-forming cells in marrow, and a rapid increase in the number of EPO-dependent erythroid colony-forming cells in spleen. Furthermore, the nature of the disease induced by the two isolates of SFFV is independent of the Friend helper virus: SFFVP, rescued from a nonproducer cell clone with either F-MuLVA or F0MuLVP, induced a polycythemic transformation, whereas SFFVA, rescued with either F-MuLVA or F-MuLVP, induced an anemic transformation. The two Friend SFFV isolates can also be discriminated on the basis of translational products encoded by their gag and
env
genes: SFFVP encodes the amino-terminal gag-gene protein p15, whereas SFFVA encodes the gag-gene proteins p15, p12, and p30. In addition, the SFFV isolates encode nonidentical 55,000-mol wt
env
gene-related proteins that can be distinguished by analysis of their methionine-containing tryptic peptides.
...
PMID:Anemia- and polycythemia-inducing isolates of Friend spleen focus-forming virus. Biological and molecular evidence for two distinct viral genomes. 692 80
The Friend spleen focus-forming virus induces a massive expansion of erythroid progenitor cells resulting in polycythemia and
splenomegaly
. The pathogenic agent is the membrane glycoprotein gp55, encoded by the
env
gene. Recent evidence indicates that gp55 binds to and activates the erythropoietin (Epo) receptor. It is not clear, however, whether gp55 completely mimics the natural receptor ligand (Epo). To directly compare both effectors, we constructed selectable retroviral vectors which carry either the
env
or the Epo gene. The selection marker allowed for clonal analysis of infected cells. After infection of DBA/2J mice, the spleen weight, hematological indices, and Epo titer of peripheral blood were monitored. Although both viruses induced an acute erythrocytosis, there were significant differences in disease phenotype and progression. The Epo virus caused an enhanced increase of hematocrit and erythrocytes, whereas with the
env
virus the pool of late progenitors (CFU-erythroid) was dramatically expanded, resulting in a more severe
splenomegaly
. The distribution of cytologically recognizable erythroid precursors was shifted towards immature cell types by the
env
vector compared with Epo. These data suggest that Epo and gp55 differentially affect proliferation and differentiation. Gp55 appears to promote proliferation over differentiation, whereas Epo preferentially drives differentiation.
...
PMID:Selectable retrovirus vectors encoding Friend virus gp55 or erythropoietin induce polycythemia with different phenotypic expression and disease progression. 793 6
Murine AIDS (MAIDS) is characterized by severe lymphadenopathy and
splenomegaly
. The proliferation of the infected target B cells is also an important manifestation of the disease (M. Huang, C. Simard, D. G. Kay, and P. Jolicoeur, J. Virol. 65:6562-6571, 1991). The etiologic agent of MAIDS is a defective murine leukemia virus that is deleted of most of its pol and
env
genes and appears to encode a single protein, the Gag precursor Pr60gag protein. Pr60gag is myristylated and attached to the plasma membrane. To study the role myristylation on the function of Pr60gag, we have generated a myristylation-negative (Myr-) mutant of the MAIDS defective virus. We found that Myr- Pr60gag interacted less tightly with the plasma membrane. In addition, the Myr- MAIDS defective virus mutant was unable to induce expansion of infected cells and was nonpathogenic. These results emphasize the essential role of Pr60gag in the disease process. Our data also suggest that Pr60gag, once recruited to the cell membrane through its myristylation, interacts with other membrane-bound effectors to send signals to induce proliferation of the infected cells and to initiate immune dysfunctions.
...
PMID:Myristylation of Pr60gag of the murine AIDS-defective virus is required to induce disease and notably for the expansion of its target cells. 805 45
Recent evidence suggests that interactions between spleen focus-forming virus (SFFV)
env
products and the erythropoietin receptor (EpoR) are responsible for viral pathogenicity. Infection of factor-dependent cell lines expressing epoR (the cloned gene for EpoR) with SFFVP is mitogenic, generating cell lines that are no longer dependent on added growth factor, and an immunoprecipitable complex between EpoR and immature env protein in the endoplasmic reticulum has been identified. The dependence of these in vitro activities on env protein processing and their relationship to pathogenicity of SFFV were explored by using glycosylation site mutants of SFFV
env
. Mutants carrying Asn-->Asp mutations at each of the two consensus signals for N-linked glycosylation in the N-terminal domain of SFFVAP-L
env
(gs1 and gs2), the gs1-2- double mutant, and the gs0 quadruple mutant (mutated at all four signals utilized for N-linked glycosylation in SFFVAP-L
env
) were made. The primary translation products (gp52) of single-site mutant envs were processed into more highly glycosylated forms, and the corresponding viruses induced
splenomegaly
in susceptible mice, whereas the gs1-2- and gs0 proteins were not processed, and these viruses were not pathogenic. Unprocessed
env
proteins of both pathogenic and nonpathogenic mutants coprecipitated with EpoR. In the BaF3 cell assay for epoR-dependent mitogenicity, the pathogenic single mutants induced factor-independent growth efficiently whereas the nonpathogenic gs1-2- and gs0 mutants did not. These data demonstrate that the ability of gp52 to form complexes with EpoR in the endoplasmic reticulum is not sufficient for either mitogenicity in cell culture or induction of
splenomegaly
in mice while supporting the hypothesis that pathogenicity and mitogenicity of SFFV both result from an interaction between EpoR and SFFV env protein.
...
PMID:Erythropoietin receptor (EpoR)-dependent mitogenicity of spleen focus-forming virus correlates with viral pathogenicity and processing of env protein but not with formation of gp52-EpoR complexes in the endoplasmic reticulum. 843 18
Fv-4 is a mouse gene that confers resistance to infection with ecotropic retroviruses. A candidate Fv-4 gene was cloned previously and found to resemble the 3' half of a murine leukemia virus (MuLV). To study the effect of this gene in vivo, we generated two transgenic mouse strains carrying the Fv-4
env
gene under control of its presumed natural promoter, a cellular sequence unrelated to retroviruses. Transgenic progeny expressed a 3-kb Fv-4
env
RNA in all of the organs and tissues examined, as well as an Fv-4 envelope antigen on the surface of thymocytes and spleen cells, similar to mice carrying the natural Fv-4 gene. One of the two transgenic strains (designated Fv4-2) expressed three to nine times as much transgene RNA and protein as the other strain (Fv4-11). When challenged with a Friend virus complex containing up to 10(4) XC PFU of Friend MuLV, Fv4-2 mice were completely resistant to development of
splenomegaly
and had no detectable ecotropic virus in the spleen or blood, confirming that the cloned Fv-4 gene is responsible for resistance to ecotropic MuLV in vivo. In contrast, Fv4-11 mice were only partially resistant, developing viremia and
splenomegaly
at the highest inoculum dose but recovering from viremia several weeks after inoculation with 10-fold less virus. The phenotype of recovery from viremia in Fv4-11 mice was unexpected and suggests that low levels of expression of the Fv-4 gene enhance the effectiveness of the immune response.
...
PMID:Transgenic Fv-4 mice resistant to Friend virus. 851 Feb 19
The Friend spleen focus-forming virus (SFFV)
env
gene encodes a glycoprotein with apparent Mr of 55,000 that binds to erythropoietin receptors (EpoR) to stimulate erythroblastosis. A retroviral vector that does not encode any Env glycoprotein was packaged into retroviral particles and was coinjected into mice in the presence of a nonpathogenic helper virus. Although most mice remained healthy, one mouse developed
splenomegaly
and polycythemia at 67 days; the virus from this mouse reproducibly caused the same symptoms in secondary recipients by 2 to 3 weeks postinfection. This disease, which was characterized by extramedullary erythropoietin-independent erythropoiesis in the spleens and livers, was also reproduced in long-term bone marrow cultures. Viruses from the diseased primary mouse and from secondary recipients converted an erythropoietin-dependent cell line (BaF3/EpoR) into factor-independent derivatives but had no effect on the interleukin-3-dependent parental BaF3 cells. Most of these factor-independent cell clones contained a major Env-related glycoprotein with an Mr of 60,000. During further in vivo passaging, a virus that encodes an Mr-55,000 glycoprotein became predominant. Sequence analysis indicated that the ultimate virus is a new SFFV that encodes a glycoprotein of 410 amino acids with the hallmark features of classical gp55s. Our results suggest that SFFV-related viruses can form in mice by recombination of retroviruses with genomic and helper virus sequences and that these novel viruses then evolve to become increasingly pathogenic.
...
PMID:Origin and rapid evolution of a novel murine erythroleukemia virus of the spleen focus-forming virus family. 955 41
The A8 virus is a molecular clone of the neuropathogenic FrC6 virus derived from the Friend murine leukemia virus (F-MuLV). To elucidate the effects of A8 virus-infection on immune-mediated diseases in the central nervous system, we investigated the development of acute and monophasic experimental autoimmune encephalomyelitis (EAE) in A8 virus-infected Lewis rats. In EAE rats after A8 virus infection (A8-EAE), many inflammatory cells were found in the gray matter including the frontal lobe, where almost no inflammatory cells were found in rats with EAE alone. The modified distribution of inflammatory cells was not dependent on the ages of A8 virus-infected rats, although the frequency of the modified distribution was reduced in older rats. The chimeric virus Rec2, which contains the pol and
env
genes of 57 virus on the background of A8 and does not induce spongiform degeneration in the CNS, caused the same distributional modification of inflammatory cells in the rats with EAE as in A8-EAE rats. Furthermore, the incidence and intensity of spongiform degeneration, thymoma and
splenomegaly
caused by A8 virus were reduced by the induction of EAE.
...
PMID:Neuropathology of experimental autoimmune encephalomyelitis modified by retroviral infection. 1256 68
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