Susceptibility of nude mice carrying the Fv-4 gene to Friend murine leukemia virus infection.

Fv-4 is a mouse gene that dominantly confers resistance to infection with Friend murine leukemia virus (F-MuLV) (S. Suzuki, Jpn. J. Exp. Med. 45:473-478, 1975). Despite complete resistance to ecotropic MuLV infection in mice carrying the Fv-4 gene, it is known that cells carrying the resistance gene in tissue culture do not always show resistance as extensive as that in vivo (H. Yoshikura and T. Odaka, JNCI 61:461-463, 1978). To investigate the immunological effect on resistance in vivo, we introduced the Fv-4 gene into BALB/c nude mice (Fv-4-/- nude[nu/nu]) by mating them with Fv-4 congenic BALB/c mice (Fv-4r/r nude+/+) and examined the susceptibility of the F2 progeny to F-MuLV. All BALB/c nude mice without the Fv-4 gene (Fv-4-/- nude[nu/nu]) were permissive to F-MuLV and developed erythroleukemia within 2 weeks after virus inoculation. The BALB/c nude mice with the Fv-4 gene (Fv-4r/r nude[nu/nu]) did not develop leukemia, and no or little virus was detected in the spleen 7 weeks after virus inoculation. The resistance to F-MuLV was dominant in (Fv-4 congenic BALB/c x BALB/c nude) F1 mice with the Fv-4r/- nude(nu/+) genotype as strictly as in (Fv-4 congenic BALB/c x BALB/c) F1 mice with the Fv-4r/- nude+/+ genotype. However, almost all BALB/c nude mice with the Fv-4r/- nude(nu/nu) genotype developed the disease within 7 weeks, and the virus was detected in all of their spleens even in the mice without leukemia. These results show that the resistance caused by the Fv-4 gene is recessive in nude mice and dominant in BALB/c mice. Some immunological effects, perhaps cell-mediated immunity, may play important roles in the resistance to F-MuLV infection in vivo in addition to the dosage effect of the Fv-4 product.     

Virological properties and nucleotide sequences of Cas-E-type endogenous ecotropic murine leukemia viruses in South Asian wild mice, Mus musculus castaneus

Two types of endogenous ecotropic murine leukemia viruses (MuLVs), termed AKV- and Cas-E-type MuLVs, differ in nucleotide sequence and distribution in wild mouse subspecies. In contrast to AKV-type MuLV, Cas-E-type MuLV is not carried by common laboratory mice. Wild mice of Mus musculus (M. m.) castaneus carry multiple copies of Cas-E-type endogenous MuLV, including the Fv-4(r) gene that is a truncated form of integrated MuLV and functions as a host's resistance gene against ecotropic MuLV infection. Our genetic cross experiments showed that only the Fv-4(r) gene was associated with resistance to ecotropic F-MuLV infection. Because the spontaneous expression of infectious virus was not detected in M. m. castaneus, we generated mice that did not carry the Fv-4(r) gene but did carry a single or a few endogenous MuLV loci. In mice not carrying the Fv-4(r) gene, infectious MuLVs were isolated in association with three of six Cas-E-type endogenous MuLV loci. The isolated viruses showed a weak syncytium-forming activity for XC cells, an interfering property of ecotropic MuLV, and a slight antigenic variation. Two genomic DNAs containing endogenous Cas-E-type MuLV were cloned and partially sequenced. All of the Cas-E-type endogenous MuLVs were closely related, hybrid-type viruses with an ecotropic env gene and a xenotropic long terminal repeat. Duplications and a deletion were found in a restricted region of the hypervariable proline-rich region of Env glycoprotein.     

Studies with aphidicolin on the Fv-1 host restriction of Friend murine leukemia virus.

The murine gene Fv-1 exerts a major control over the replication of Friend murine leukemia virus (F-MuLV). An effect of the gene product has been determined to be at the level of accumulation and integration of viral DNA. Aphidicolin, an inhibitor of eucaryotic DNA polymerase alpha, was studied in murine cells infected either permissively or nonpermissively with regard to the Fv-1 genotype. Results indicated that inhibition of DNA polymerase alpha did not affect the accumulation of form III viral DNA in either permissive or nonpermissive cells. However, the normal accumulation of circular form I DNA in permissive cells was inhibited. The block in the accumulation of form I DNA resembled that occurring in some F-MuLV Fv-1-nonpermissive infections. Additionally, aphidicolin treatment resulted in the accumulation of novel low-molecular-weight viral DNA species, normally detectable in a nonpermissive infection of NIH cells with B-tropic F-MuLV. These data suggest that the Fv-1 gene product may interact with host DNA polymerase alpha to prevent viral replication.     

Inhibition of murine AIDS (MAIDS), development by the transplantation of bone marrow cells carrying the Fv-4 resistance gene to MAIDS virus-infected mice.

To examine whether the resistance allele of the Fv-4 gene (the Fv-4r gene) is a dominant inhibitory-product-encoding gene which an be used to prevent the development of murine AIDS (MAIDS), bone marrow cells from BALB/c-Fv-4wr mice were transplanted into BALB/c mice and C57BL/6 mice infected with MAIDS virus. Almost all of the virus-infected BALB/c and C57BL/6 mice developed MAIDS within 4 months and died 2 or 3 months later. However, when the virus-infected mice were subjected to cobalt irradiation and then given an intravenous injection of 10(7) BALB/c-Fv-4wr mouse bone marrow cells, the recipient mice survived much longer than the untreated mice, which suggests that the Fv-4 gene is a dominant inhibitory gene that is potentially useful in gene therapy of MAIDS.     

Inhibition of infectious murine leukemia virus production by Fv-4 env gene products exerting dominant negative effect on viral envelope glycoprotein

Fv-4 is a mouse gene that confers resistance against ecotropic murine leukemia virus (MLV) infection on mice. While receptor interference by the Fv-4 env gene product, Fv-4 Env, that can bind to the ecotropic MLV receptor has been shown to play an important role in the resistance, other mechanisms have also been suggested because it confers extremely efficient, complete resistance in vivo. Here, we have examined the effect of Fv-4 Env on infectious MLV production. Infectious MLV titers in supernatants obtained after transfection with a Friend MLV (FMLV) Env-expressing plasmid from MLV gag-pol producer cells harboring a retroviral vector were largely reduced by coexpression of Fv-4 Env. Syncytia formation mediated by R-peptide-deleted FMLV Env in NIH 3T3 cells was impaired by Fv-4 Env coexpression. Similarly, Fv-4 Env inhibited infectious amphotropic MLV production and syncytia formation mediated by R-peptide-deleted amphotropic MLV Env. Immunoprecipitation analysis revealed interaction of Fv-4 Env with amphotropic MLV Env as well as FMLV Env. These results indicate that Fv-4 Env inhibits infectious ecotropic and amphotropic MLV production by exerting dominant negative effect on MLV Env, suggesting contribution of this inhibitory effect to the resistance against ecotropic MLV infection in Fv-4-expressing mice.     

Inhibition of infectious murine leukemia virus production by Fv-4 env gene products exerting dominant negative effect on viral envelope glycoprotein

Fv-4 is a mouse gene that confers resistance against ecotropic murine leukemia virus (MLV) infection on mice. While receptor interference by the Fv-4 env gene product, Fv-4 Env, that can bind to the ecotropic MLV receptor has been shown to play an important role in the resistance, other mechanisms have also been suggested because it confers extremely efficient, complete resistance in vivo. Here, we have examined the effect of Fv-4 Env on infectious MLV production. Infectious MLV titers in supernatants obtained after transfection with a Friend MLV (FMLV) Env-expressing plasmid from MLV gag–pol producer cells harboring a retroviral vector were largely reduced by coexpression of Fv-4 Env. Syncytia formation mediated by R-peptide-deleted FMLV Env in NIH 3T3 cells was impaired by Fv-4 Env coexpression. Similarly, Fv-4 Env inhibited infectious amphotropic MLV production and syncytia formation mediated by R-peptide-deleted amphotropic MLV Env. Immunoprecipitation analysis revealed interaction of Fv-4 Env with amphotropic MLV Env as well as FMLV Env. These results indicate that Fv-4 Env inhibits infectious ecotropic and amphotropic MLV production by exerting dominant negative effect on MLV Env, suggesting contribution of this inhibitory effect to the resistance against ecotropic MLV infection in Fv-4-expressing mice.     

Molecular characterization of the Akvr-1 restriction gene: a defective endogenous retrovirus-borne gene identical to Fv-4r.

A dominant restriction allele, Akvr-1r, from California wild mice (Mus musculus domesticus) confers resistance to exogenous ecotropic murine leukemia virus (MuLV) infection. The presence of an ecotropic MuLV envelope-related glycoprotein in uninfected virus-resistant cells suggests that viral interference is a possible mechanism for this resistance. We molecularly cloned the ecotropic MuLV envelope-related sequence from the genomic DNA of a wild mouse homozygous for the Akvr-1r locus. The cloned provirus was defective and contained a C-terminal end of the pol gene, a complete envelope gene, and a 3' long terminal repeat. The presence of this provirus was directly correlated with Akvr-1r-mediated virus resistance in cell cultures and hybrid mice. The Akvr-1r provirus restriction map and partial DNA sequence were identical to those of the Fv-4r allele, an ecotropic MuLV resistance locus from Japanese feral mice (M. musculus molossinus), which was previously shown to be allelic with the Akvr-1r gene. The 3' host flanking sequences of Fv-4r and Akvr-1r also had identical restriction maps. These findings indicate that Akvr-1r and Fv-4r are the same gene. It was probably acquired by interbreeding of these feral species in recent times. Conservation of this locus might be favored by the useful function that it performs in protection against ecotropic MuLV infection endemic in both populations of wild mice.     

Subgenomic fragment of molecular cloned Friend murine leukemia virus DNA contains the gene(s) responsible for Friend murine leukemia virus-induced disease.

Friend murine leukemia virus (G-MuLV) is a helper-independent, type C retrovirus isolated from stocks of Friend virus complex (spleen focus-forming virus plus MuLV). In cell culture, F-MuLV has an ecotropic and NB-tropic host range and causes XC cells to fuse. When injected into newborn NIH Swiss mice, F-MuLV produces hepatosplenomegaly, severe anemia, and numerous circulating hematopoietic precursors in the peripheral blood with normal thymus and lymph nodes after 3 to 6 weeks. Recently, we molecularly cloned an 8.5-kilobase pair (kbp) form of F-MuLV DNA from which we could recover the pathogenic F-MuLV virus by DNA transfection of NIH 3T3 cells. From this molecularly cloned F-MuLV DNA, we have now subcloned in pBR322 a 4.1-kbp HindIII fragment which contains in continuity 3.0 kbp from the 3' terminus (env and c region), 0.6 kbp of the terminal repeat sequences, and 0.5 kbp from the 5'terminus of the viral RNA (genome). NIH 3T3 fibroblasts were transfected with this DNA fragment an then infected with the wild mouse amphotropic retrovirus (cl 1504-A). In cell culture, 1504-A is a helper-independent type C virus which has an N-tropic host range and does not cause fusion of XC cells. When injected into newborn NIH Swiss mice, 1504-A does not produce splenomegaly or thymic enlargement in mice held for up to 8 months. The transfection with the F-MuLV fragment and the infection with 1504-A consistently yielded virus preparations that were XC positive. From such virus stocks we were able to isolate both helper-independent and replication-defective XC-positive viruses. The helper-independent virus was shown to be a recombinant virus since it contains a gp70 molecule derived at least in part from F-MuLV and a specific gag precursor derived from 1504-A as determined by radioactive immune precipitation assays. When injected into newborn Swiss mice, the recombinant helper-independent virus caused hepatosplenomegaly in approximately 50% of the mice in 6 to 8 weeks. The histology of the diseased splenic tissue was indistinguishable from that seen in the disease caused by the whole F-MuLV. The replication-defective virus could be pseudotyped with new 1504-A virus, and this viral complex also caused the F-MuLV disease picture when the complex was injected into newborn Swiss mice. We conclude that the genetic information responsible for the pathogenicity of F-MuLV is contained within the 4.1-kbp DNA fragment, which includes env gene sequences, the terminal repeat sequences, and the c region sequences of the F-MuLV genome.     

Lymphocyte Deficiencies Increase Susceptibility to Friend Virus-Induced Erythroleukemia in Fv-2 Genetically Resistant Mice

The study of genetic resistance to retroviral diseases provides insights into the mechanisms by which organisms overcome potentially lethal infections. Fv-2 resistance to Friend virus-induced erythroleukemia acts through nonimmunological mechanisms to prevent early virus spread, but it does not completely block infection. The current experiments were done to determine whether Fv-2 alone could provide resistance or whether immunological mechanisms were also required to bring infection under control. Fv-2-resistant mice that were CD4(+) T-cell deficient were able to restrict early virus replication and spread as well as normal Fv-2-resistant mice, but they could not maintain control and developed severe Friend virus-induced splenomegaly and erythroleukemia by 6 to 8 weeks postinfection. Mice deficient in CD8(+) T cells and, to a lesser extent, B cells were also susceptible to late Friend virus-induced disease. Thus, Fv-2 resistance does not independently prevent FV-induced erythroleukemia but works in concert with the immune system by limiting early infection long enough to allow virus-specific immunity time to develop and facilitate recovery.     

Inheritance of susceptibility to the myeloproliferative sarcoma virus: effect of the Fv-2 locus and evidence for a myeloproliferative sarcoma virus resistance locus.

Myeloproliferative sarcoma virus (MPSV) causes a generalized stem cell leukemia with erythroid and myeloid hyperplasia in adult mice. MPSV also transforms fibroblasts. Mice congenic for the Fv-2 locus showed marked differences in susceptibility to MPSV according to the Fv-2 genotype. MPSV was injected into C57BL/6 Fvs and C57BL/6 Fv-2r mice congenic except for the Fv-2 locus. C57BL/6 mice with the Fvs genotype were much more susceptible to MPSV than were those with the Fvr genotype. Both DDD Fv-2r mice congenic with DDD Fv-2s mice except for the Fv-2 locus and DDD Fv-2s mice, however, were sensitive to spleen focus formation by MPSV. These data indicate that at least one additional resistance locus to MPSV is present in C57BL/6 mice but not in DDD mice. Both the Fv-2 locus and the putative MSPV resistance locus (loci) Mpsvr appear to be epistatic to either of the sensitivity loci. Fibroblast focus formation by MPSV was obtained well in C57BL/6 Fv-2r and C57BL/6 Fvs fibroblasts, indicating that the genes for MPSV resistance (Fv-2r and Mpsvr) were not operating in fibroblast cells. A model is proposed which may account for the differences in response of genetically different mice to MPSV and Friend spleen focus-forming virus.     

Transgenic Fv-4 mice resistant to Friend virus.

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.     

Clonal expansion of superantigen-reactive T cells is resistant to FK506 in mice with AIDS.

Subcutaneous injection of FK506 (10 mg/kg of body weight) completely blocked the clonal expansion of staphylococcal enterotoxin A (SEA)-reactive T cells in healthy (control) mice after SEA injection but did not disturb it in mice with murine AIDS (MAIDS) caused by infection with LP-BM5 murine leukemia virus. MAIDS mice are characterized by utilization of a FK506-insensitive pathway for clonal expansion of superantigen-reactive T cells.     

Augmentation of helper virus replication in the presence of defective retrovirus

The interaction between defective spleen focus-forming virus (SFFV) and helper virus(es) in Friend virus (FV) complex has been assumed to be one-way, with the helper virus complementing SFFV by supplying necessary virion components. To test this assumption the expression of both SFFV and helper virus in partially congenic mice which differ at the Fv-2 locus, a gene that specifically controls susceptibility to SFFV, was analysed. When the mice were infected with LLV (a strain of Friend SFFV-free helper virus), there was no detectable effect of Fv-2 genotype on LLV expression as tested by virus infectivity in the XC plaque assay or by quantitative viral antigen analysis in an immunoprecipitation assay. However, after infection with FV complex there was an amplification of LLV (as well as SFFV) synthesis in Fv-2s as compared with Fv-2r hosts. To determine whether the increased LLV synthesis in Fv-2s mice was due to an increased population of susceptible target cells as a result of SFFV infection and/or transformation, the ratios of LLV-infected cells in the spleens of LLV- and FV-infected Fv-2s hosts in an infectious centre assay, were compared. Since the percentage of LLV-infected cells was equivalent in both instances, the higher rate of LLV synthesis after infection with FV complex was presumably due to intrinsic properties of SFFV-infected erythroid cells.     

A Friend virus mutant that overcomes Fv-2rr host resistance encodes a small glycoprotein that dimerizes, is processed to cell surfaces, and specifically activates erythropoietin receptors.

The env gene of Friend spleen focus-forming virus (SFFV) encodes a membrane glycoprotein (gp55) that is inefficiently (3 to 5%) processed from the rough endoplasmic reticulum to form a larger dimeric plasma membrane derivative (gp55p). Moreover, the SFFV env glycoprotein associates with erythropoietin receptors (EpoR) to cause proliferation of infected erythroblasts [J.-P. Li, A. D. D'Andrea, H. F. Lodish, and D. Baltimore, Nature (London) 343:762-764, 1990]. Interestingly, the mitogenic effect of SFFV is blocked in mice homozygous for the Fv-2r resistance gene, but mutant SFFVs can overcome this resistance. Recent evidence suggested that these mutants contain partial env deletions that truncate the membrane-proximal extracellular domain of the encoded glycoproteins (M. H. Majumdar, C.-L. Cho, M. T. Fox, K. L. Eckner, S. Kozak, D. Kabat, and R. W. Geib, J. Virol. 66:3652-3660, 1992). Mutant BB6, which encodes a gp42 glycoprotein that has a large deletion in this domain, causes erythroblastosis in DBA/2 (Fv-2s) as well as in congenic D2.R (Fv-2r) mice. Analogous to gp55, gp42 is processed inefficiently as a disulfide-bonded dimer to form cell surface gp42p. Retroviral vectors with SFFV and BB6 env genes have no effect on interleukin 3-dependent BaF3 hematopoietic cells, but they cause growth factor independency of BaF3/EpoR cells, a derivative that contains recombinant EpoR. After binding 125I-Epo to surface EpoR on these factor-independent cells and adding the covalent cross-linking reagent disuccinimidyl suberate, complexes that had immunological properties and sizes demonstrating that they consisted of 125I-Epo-gp55p and 125I-Epo-gp42p were isolated from cell lysates. Contrary to a previous report, SFFV or BB6 env glycoproteins did not promiscuously activate other members of the EpoR superfamily. Although the related env glycoproteins encoded by dualtropic murine leukemia viruses formed detectable complexes with EpoR, strong mitogenic signalling did not ensue. Our results indicate that the SFFV and BB6 env glycoproteins specifically activate EpoR; they help to define the glycoprotein properties important for its functions; and they strongly suggest that the Fv-2 leukemia control gene encodes an EpoR-associated regulatory factor.     

小鼠生态条件对Friend小鼠白血病病毒感染的影响

本文探讨了Ｆ１小鼠生态条件（鼠龄和免疫状态）对Ｆｒｉｅｎｄ小鼠白血病病毒（Ｆｒ．ＭｕＬＶ）感染的影响。利用对Ｆｒ．ＭｕＬＶ抗性的Ｆｖ４小鼠（含Ｆｖ４抗性基因纯合子的ＢＡＬＢ／Ｃ小鼠）与对Ｆｒ．ＭｕＬＶ敏感的ＢＡＬＢ／Ｃ小鼠交配，获得含Ｆｖ４抗性基因杂合子的Ｆ１小鼠（ＢＡＬＢ／Ｃ×Ｆｖ４）。然后经小鼠腹腔接种Ｆｒ．ＭｕＬＶ病毒液进行攻击，并检查不同鼠龄和免疫状态下的Ｆ１小鼠对Ｆｒ．ＭｕＬＶ的敏感性，以阐明Ｆ１小鼠的鼠龄和免疫状态对Ｆｒ．ＭｕＬＶ感染的影响。结果表明，新生Ｆ１小鼠可发生Ｆｒ．ＭｕＬＶ感染，脾脏中有大量病毒增殖，并引起白血病；免疫抑制剂Ｆｋ５０６投与下的成年Ｆ１小鼠亦可发生Ｆｒ．ＭｕＬＶ的感染，脾脏中有病毒增殖，但不引起白血病；而新生或成年Ｆｖ４小鼠以及成年Ｆ１小鼠可抵抗Ｆｒ．ＭｕＬＶ的感染，脾脏中无病毒增殖，不发病。说明Ｆ１小鼠的鼠龄和免疫状态等生态条件可影响其对Ｆｒ．ＭｕＬＶ感染的敏感性，并且可影响Ｆｖ４基因抗病毒作用。     

Characterization of a molecularly cloned retroviral sequence associated with Fv-4 resistance.

The murine leukemia virus (MuLV) sequence associated with the resistance allele of the Fv-4 gene (Fv-4r) was molecularly cloned from genomic DNA of uninfected mice carrying this allele. The 5.2-kilobase cloned EcoRI DNA fragment (pFv4) was shown by nucleotide sequencing to contain 3.4 kilobases of a colinear MuLV-related proviral sequence which began in the C-terminal end of the pol region and extended through the env region and the 3' long terminal repeat. Cellular sequences flanked the 3' as well as the 5' ends of the truncated MuLV sequence. Alignment of the N-terminal half of the pFv4 env sequence with ecotropic, mink cell focus-forming, and xenotropic MuLV env sequences established the relatedness of pFv4 and ecotropic MuLV env sequences. A subcloned 700-base pair segment (pFv4env) from the 5' env region of pFv4 was used as an Fv-4-specific probe; it hybridized specifically to the Fv-4r-associated proviral sequence but not to endogenous ecotropic MuLV proviral DNA under high stringency. All Fv-4-resistant mice contained the same retroviral segment associated with the same flanking cellular DNA. Expression of Fv-4r-specific mRNA was demonstrated in the spleens of Fv-4r mice but not Fv-4s mice, supporting the previously proposed resistance model based on interference.     

Increased hematopoiesis in mice soon after infection by Friend murine leukemia virus.

Friend murine leukemia virus (F-MuLV), an erythroleukemogenic replication-competent retrovirus, induces leukemia in its host after a long latency. However, the early effects of infection may determine the pathway that eventually leads to malignant transformation. To determine how F-MuLV affects host cell proliferation soon after infection, BALB/c mice were inoculated with virus and then were assayed for susceptibility to appropriately pseudotyped spleen focus-forming virus (SFFV) as an indicator of erythropoietic activity. Twelve-week-old mice exposed to F-MuLV for 9 days were more susceptible (by a factor of 30) to superinfection by SFFV than were nonviremic mice. To test whether increased susceptibility was the result of increased hematopoietic activity, hematopoietic progenitors from the spleens of F-MuLV-infected mice were enumerated with a clonal culture assay. Nine days after inoculation with F-MuLV, the numbers of colony-forming progenitors increased by a factor of 4. Morphological analysis of the cultured colonies showed that erythroid, granulocytic, monocytic, and mixed granulocytic-monocytic progenitors all had increased. Thus, F-MuLV more rapidly induced a generalized increase in hematopoiesis than has previously been reported. The splenic hyperplasia induced by F-MuLV soon after infection may explain its ability to accelerate leukemogenesis in mice also infected by the polytropic Friend mink cell focus-forming virus.     

Acquisition of two endogenous ecotropic murine leukemia viruses in distinct Asian wild mouse populations.

Wild mouse DNAs were analyzed for two types of endogenous ecotropic murine leukemia viruses (MuLVs), Akv and Fv-4r-associated MuLV. Endogenous Akv viruses were found only in northern Chinese mice, Korean mice, and Japanese (Mus musculus molossinus) mice. The Fv-4r gene, which is a truncated endogenous MuLV with ecotropic interference properties, was carried by Southeast Asian (M. m. castaneus) mice, Korean mice, and M. m. molossinus. Sequences related to Fv-4r MuLV env were found only in M. m. castaneus. These findings suggest that endogenous Akv viruses were acquired by northern Chinese mice and that the Fv-4r gene or its related endogenous MuLVs were acquired independently by M. m. castaneus. The Fv-4r gene appears to have been generated hundreds of thousands of years ago, before the amplification of the Fv-4r-related endogenous MuLVs in M. m. castaneus. The coexistence of Akv viruses and the Fv-4r gene in M. m. molossinus may be explained by the hybrid origin of M. m. molossinus in crosses between northern Chinese mice and M. m. castaneus, as described in other articles. The absence of the Fv-4r-related endogenous MuLVs in M. m. molossinus may indicate that the ancestral mice of this subspecies either were an ancient type of M. m. castaneus that had acquired the Fv-4r gene but had not yet acquired the Fv-4r-related endogenous MuLVs or were a rare fraction of a mixed population of M. m. castaneus and northern Chinese mice.     

FK506 reduces abnormal prion protein through the activation of autolysosomal degradation and prolongs survival in prion-infected mice

Prion diseases are fatal neurodegenerative disorders and no effective treatment has been established to date. In this study, we evaluated the effect of FK506 (tacrolimus), a macrolide that is known to be a mild immunosuppressant, on prion infection, using cell culture and animal models. We found that FK506 markedly reduced the abnormal form of prion protein (PRNP^Sc) in the cell cultures (N2a58 and MG20) infected with Fukuoka-1 prion. The levels of autophagy-related molecules such as LC3-II, ATG12–ATG5 and ATG7 were significantly increased in the FK506-treated cells, and resulted in the increased formation of autolysosomes. Upregulation of the autophagy-related molecules was also seen in the brains of FK506-treated mice and the accumulation of PRNP^Sc was delayed. The survival periods in mice inoculated with Fukuoka-1 were significantly increased when FK506 was administered from day 20 post-inoculation. These findings provide evidence that FK506 could constitute a novel antiprion drug, capable of enhancing the degradation of PRNP^Sc in addition to attenuation of microgliosis and neuroprotection.