Involvement of mouse mammary tumor virus in spontaneous and hormone-induced mammary tumors in low-mammary-tumor mouse strains.

The involvement of the mouse mammary tumor virus (MTV) in spontaneous and hormone-induced mammary tumors in low-mammary-tumor mouse strains was studied by comparing the amounts of MTV RNA and MTV DNA sequences in mammary tumors and other tissues of mice with an without hormonal treatments. The following results were obtained. (i) Mammary tumors which appeared in C3H mice as a result of an infection with MTV contained more MTV DNA compared with noninfected organs; these mammary tumors also contained more MTV RNA than was present in lactating mammary gland cells. (ii) Hormonal stimulation by administration of excessive amounts of prolactin via hypophyseal isografts in C3Hf and O20 mice resulted in an increased expression of MTV RNA in the mammary glands. This elevated level of MTV RNA expression was, however, not maintained in the hormone-induced mammary tumors. (iii) Spontaneous mammary tumors in BALB/c mice contained similar levels of MTV DNA and MTV RNA sequences as were found in other cells of these animals.     

MuMTV antigen expression and mammary tumor incidence in non-inbred dd mice

The expression of mammary tumor virus (MTV) antigen in the milk and various organs of three non-inbred dd mouse stocks (ddO, ddN and ddY) was examined by the immunodiffusion (ID) and micro-immunodiffusion (micro-ID) tests. The rate of MTV antigen expression in the milk was 100% at the first lactation in ddO (6/6) and ddN mice (10/10), and 23% in ddY mice (3/13). Mammary tumor incidence was 13% (mean tumor age: 12.0 months), 32% (9.6 months) and 10% (11.5 months) in ddO, ddN and ddY mice, respectively, In F1 hybrids between MTV-free BALB/c females and dd males, a high level of MTV antigen was detected by the ID test in the milk of (BALB/c X ddO) F1, however, the levels in (BALB/c X ddN) F1 and (BALB/c X ddY) F1 mice were low at the first lactation and elevated with the advance of lactation number. Mammary tumor incidence had a trend to be higher and earlier in these F1 hybrids than in non-inbred dd stocks. The development of mammary tumors and detection of MTV antigen in F1 hybrids indicate the extrachromosomal transmission of MTV by male dd mice. The micro-ID test has shown that the mammary tumors, mammary glands, male genital organs except for the testis and the salivary gland expressed MTV antigen, with a high frequency of suggesting that secondary male genital organs may play an important role in MTV infection in mice.     

Relationship Between Organization of Mammary Tumors and the Ability of Tumor Cells to Replicate Mammary Tumor Virus and to Recognize Growth-Inhibitory Contact Signals In Vitro

Mammary tumor virus (MTV) replication was confined primarily to cells organized as acini in intact mouse mammary glands. Primary mammary tumors maintained a high degree of acinar organization and cells therein continued to replicate MTV vegetatively. Nonacinar mammary cells, derived by serial transplantation of acinar tumor cells, no longer actively replicated MTV. This suggests that phenotypic differences exist among mammary epithelial cells in their ability to support virus replication, that a fundamental relationship exists between the organization of epithelium for secretion and active virus replication, and that this relationship is not altered as a primary consequence of neoplastic transformation. Mammary epithelial cells from pregnant, non-tumor-bearing, MTV-infected BALB/cfC3H mice or from acinar mammary tumors from a number of mouse strains were grown in primary monolayer cultures. Such cell cultures under the influence of insulin and cortisol exhibited the ability to organize into discrete three-dimensional structures called "domes." MTV replication in such cultures took place primarily in cells within the organized domes. Cells cultured from nonacinar tumors did not exhibit any propensity to organize into domes, nor did they replicate MTV in primary culture. This suggests that the cell organizational requirement for MTV replication observed in vivo is conserved in primary culture. Dome formation is not an effect of virus replication, as cells from uninfected BALB/c animals organized into domes in culture without concomitant MTV replication. Growth-regulating signals, exerted between contiguous cells in cultures of non-MTV-infected mammary epithelium, were not modified by the occurrence of active virus replication nor as a direct consequence of neoplastic transformation. Cells derived from nontumor BALB/cfC3H glands and from spontaneous tumors exhibited cell growth kinetics, saturation densities, and deoxyribonucleic acid synthesis kinetics nearly identical to those of noninfected normal mammary epithelium in primary culture. Cell to cell growth regulatory signals were modified in cultures of nonalveolar tumor cells wherein evidence of overgrowth is documented.     

Endogenous MMTV in the normal mammary gland and in dimethylanthracene-induced mammary cancer in BALB/c mice

Immunization of DMBA-treated mice by the glycoprotein fraction from mammary glands of mice BALB/c did not decrease the frequencies of induction of mammary tumors. This is in contrast to the results obtained during immunization by the formaldehyde treated preparation of Mouse Mammary Tumor Virus (MMTV). EcoRI and HindIII cleaved DNA from the DMBA-induced mammary tumors did not contain the additional virus specific fragments. In mammary tumors the expression of p27 MMTV was registered in contrast to normal mammary glands and mammary epithelium cultures in which the proteins of MMTV are not expressed even after induction.     

Isolation of a pathogenic clone of mouse mammary tumor virus.

Exogenous mouse mammary tumor virus (MMTV) was cloned from a GR mammary tumor. Clone lambda GRT39 contained a full-length integrated MMTV(GR) provirus and both 5' and 3' host flanking DNA. The lambda GRT39 provirus had no apparent structural changes associated with cloning and retained the exogenous MMTV gag gene poison sequence. When introduced into rat mammary adenocarcinoma LA7 cells, the lambda GRT39 provirus was fully expressed. lambda GRT39-transfected LA7 cells made MMTV RNA, had gp52 SU protein on the cell surface, and produced B-type retrovirus particles characteristic of MMTV. Mammary tumors developed in hormone-stimulated BALB/c females injected with MMTV from lambda GRT39-transfected LA7 cells [MMTV (lambda GRT39)]. The tumors had new, clonally integrated copies of the MMTV(lambda GRT39) provirus and were expressing MMTV antigen. These data indicate that the lambda GRT39 provirus is biologically active and pathogenic.     

Horizontal transmission of the mouse mammary tumor virus in cage mates of the same and opposite sex of low and high mammary cancer strain mice

Horizontal transmission of mouse mammary tumor virus (MTV) was investigated in cage mates of the same and opposite sex of low (BALB/c) and high mammary cancer strains (DD/Tbr, SHN and GR). By MTVp27 and MTVgp52 radioimmunoassay, MTV antigen expression was found in the salivary glands, mammary glands and secondary male genital organs of the MTV-free BALB/c strain. Infectivity and oncogenicity were also found in DDf or BALB/c mice by inoculating extracts of salivary gland and/or seminal vesicle in high mammary cancer strains. It is suggested that the primary source of the infectious agent in cases of caged animals of the same sex is saliva, while the primary source in cases of caged animals of the opposite sex is the seminal fluid, although additional infection through saliva cannot be ruled out in the latter case.     

Regulation of endogenous murine mammary tumor virus expression in C57BL mouse lactating mammary glands: transcription of functional mRNA with a block at the translational level

Expression of endogenous murine mammary tumor viruses (MuMTVs) in various mouse strains is regulated in different ways, and in the absence of exogenous MuMTV, this regulation influences the incidence of spontaneous mammary tumors. Two mouse strains with low mammary tumor incidence, BALB/c and C57BL, control endogenous MuMTV expression at different stages. Neither of the strains had any detectable MuMTV polypeptides in its lactating mammary glands (LMG). However, in C57BL LMG, substantial amounts of MuMTV RNA were present, whereas very little viral RNA was detected in BALB/c LMG. By determining MuMTV RNA levels in LMG of hybrids and backcrosses of BALB/c and C57BL mice, we found that there are three unlinked, independently segregating genetic loci in C57BL mice that are responsible for the presence of moderately high amounts of MuMTV RNA in LMG. The viral RNA in C57BL LMG was processed and transported to the cytoplasm where it was found to cosediment with EDTA-sensitive polysomes. No viral proteins were detected in run-off reactions that permit completion of nascent polypeptide synthesis with polysomes from C57BL LMG, and sensitive radioimmunoassays failed to detect any MuMTV proteins in these tissues. In contrast, MuMTV mRNA purified from C57BL LMG did direct the synthesis of both gag and env MuMTV polypeptides when added to a heterologous rabbit reticulocyte lysate cell-free translation system. We propose that MuMTV mRNA in C57BL LMG, for unknown reasons, is blocked at the translational level.     

Murine Mammary Tumor Virus Expression During Mammary Tumorigenesis in BALB/c Mice

Steady-state levels of murine mammary tumor virus (MuMTV) RNA were quantitated during mammary tumorigenesis in BALB/c mice by molecular hybridization with a representative MuMTV complementary DNA (cDNA) probe. Hyperplastic alveolar nodule (HAN) lines are preneoplastic mammary lesions that were induced in BALB/c mice by hormones alone or in combination with 7,12-dimethylbenz(a)anthracene and give rise to mammary tumors. The hormone-induced HAN lines D1 and D2 contained detectable amounts of hybridizable MuMTV sequences. MuMTV RNA sequences were also observed in five of the six transplanted BALB/c mammary tumors that were examined. Similar levels of hybridizable MuMTV RNA were observed between the D1 or D2 HAN line and mammary tumors derived from each HAN line. The D2 HAN line as well as D2, C4, and CD8 mammary tumors accumulated RNA that was apparently homologous to most of the MuMTV genome. Thermal denaturation of hybrids indicated extensive sequence homology between the MuMTV cDNA and hybridizable RNA in the BALB/c HAN lines and mammary tumors. A low level of type C viral RNA was observed in the BALB/c HAN lines and most mammary tumors by molecular hybridization with a cDNA to Moloney murine leukemia virus. These data demonstrate that MuMTV sequences are frequently expressed in hormone-induced BALB/c HAN lines and mammary tumors derived from HAN lines or ductal hyperplasias induced in BALB/c mice by hormones and/or a chemical carcinogen. The transition from the preneoplastic to the neoplastic state in BALB/c mice does not appear to be due to a change in the steady-state levels of MuMTV RNA since the hormone-induced HAN lines and mammary tumors had similar levels of hybridizable MuMTV RNA.     

Immunohistochemical detection of mammary tumor virus antigens in sweat and sebaceous glands of mice

Mammary tumor virus (MTV) antigens in both sexes of GRS/A, SHN and C3H mice were examined in the sweat and sebaceous glands by immunoperoxidase technique using antiserum against gp52, envelope protein, or p27, core protein. Balb/c mice were used for reciprocal foster nursing with these inbreds to discriminate the expression of endogenous MTV from that of exogenous MTV. Both antigens were first detected around the age of 4 months in the sweat glands of mice with endogenous GR- or SHN- MTV. A linear staining of gp52 was seen along the luminal borders of glandular cells, and the reaction products for gp52 were demonstrated on the apical cell membranes, where no virion could be seen ultrastructurally. A diffuse staining of p27 was found in the cytoplasm of some glandular cells, where MTV particles could not be detected. In the sebaceous gland of the same mice, however, only p27 was first detected at the age of 60 days. A dot-like staining of p27 was found in the perinuclear region of some glandular cells, where an aggregation of intracytoplasmic A particles could be seen under an electron microscope. These positive stainings were unrelated to sex. In such skin appendages of all examined C3H mice and Balb/c mice with GR- or SHN- MTV, no antigen expression could be seen up to the age of 500 days. Therefore, some genes might be able to regulate the expression of endogenous MTV antigens in the skin appendages, while their glandular cells would have no receptor for exogenous MTV, namely the so-called "milk factor".     

Identification of the mammary tumor virus envelope glycoprotein (gp52) on mouse mammary epithelial cell surface.

Lactoperoxidase radioiodination of mammary epithelial cells cultured in monolayers followed by SDS-PAGE analysis revealed only a few distinct peaks. One of these, identified as major envelope glycoptrotein (gp 52) of MTV, is present on the surface of mammary epithelial cells (both tumor and normal) from chronically infected BALB/cfC3H mice but not on the surface of normal mammary epithelial cells from virus-free $\text{sol}\text{BALB}\text{c}$ mice. Its presence on the cell surface is influenced by both hormones and cell density, the same factors which greatly control the production and release of intact MTV virions into culture media. This suggests a correlation between abundance of radioiodinatable gp 52 on the cell surface and MTV found in culture media.     

Hormonal regulation of murine mammary tumor virus RNA expression during mammary tumorigenesis in BALB/c mice.

The effects of glucocorticoids and prolactin on murine mammary tumor virus (MuMTV) RNA expression in preneoplastic outgrowth lines and mammary tumors in BALB/c mice were investigated. Hyperplastic alveolar nodules (HAN) and a ductal hyperplasia (DH) are induced in virgin BALB/c mice by prolonged hormonal stimulation or treatment with 7,12-dimethylbenz(a)anthracene or both. Mice bearing HAN or DH outgrowth lines and mammary tumors that arose from the outgrowth lines were treated with glucocorticoids or prolactin. MuMTV RNA was quantitated by hybridization with a representative complementary DNA probe specific for MuMTV RNA. Prolactin treatment did not increase MuMTV RNA in the BALB/c HAN or DH outgrowth lines or tumors. MuMTV RNA increased after glucocorticoid treatment in the C3, C4, and C5 HAN outgrowth lines and in tumors that arose from the D1, D2, C4, and C5 HAN and CD8 DH outgrowth lines. No increase in MuMTV RNA with glucocorticoid treatment was observed in the D1 or D2 HAN outgrowth line, in the CD8 DH outgrowth lines, and in tumors that arose from the C3 HAN outgrowth line. The ability of glucocorticoids to stimulate MuMTV expression was specific since the response was dose dependent and specific for glucocorticoid hormones. Glucocorticoid treatment did not increase the level of type C viral RNA in the majority of hormone- or 7,12-dimethylbenz(a)anthracene-induced HAN outgrowth lines or tumors. These observations suggested that glucocorticoids may influence MuMTV expression during mammary tumorigenesis in BALB/c mice.     

Complexity of factors in sera of different mice that affect MTV-induced mammary tumor cells.

Specific spleen cell activity in microcytotoxicity assay can be altered by pretreatment of target mammary tumor virus (MTV)-induced mammary tumor cells with serum. Serum from both BALB/cfC3H females neonatally infected with MTV and BALB/c females horizontally exposed to MTV antigens will block specific spleen cell activity against isologous mammary tumor cells. On fractionation of sera, blocking factors are localized in the 7s fraction. The 19s fraction contains recruiting factors that are not detectable in the unfractionated serum; these factors are active against isologous tumors and are thus distinct from the tumor-specific recruiting factors previously described in the sera of tumor-bearing females, which are active only against the autologous tumor. Antibodies mediating complement-dependent cell lysis are also detectable after serum fractionation.     

Blocking of spleen cell activity against target mammary tumor cells by viral antigens.

Spleen cells from BALB/c females exposed to or neonatally infected with mammary tumor virus (MTV) are cytotoxic to MTV-induced mammary tumor cells in microcytotoxocity assay. This activity can be partially or completely blocked by pretreatment of spleen cells with MTV purified from milk. Murine leukemia virus (MuLV) has no effect. T cell responses of virgin and multiparous BALB/cfC3H females are effectively blocked. Non-T cell responses of multiparous BALB/cfC3H females or of virgin BALB/c females are blocked by some but not all of the MTV antigen preparations. MuLV, but not MTV, can block activity of spleen cells from MuLV-sensitized donors against target MuLV-producing tumor cells.     

Analysis of mammary tumors for cytochemical evidence of endogenous mammary peroxidase.

The purpose of this study was to determine whether or not endogenous mammary peroxidase can serve as a cytochemical marker to distinguish ovarian hormone-dependent from ovarian hormone independent mammary tumors. Spontaneous mammary tumors arising in virgin C3H and GR mice (hormone independent tumors) and hormone-dependent mammary tumors arising during pregnancy in GR mice were examined. None of these tumors contained mammary peroxidase. Mammary tumors induced in Sprague-Dawley rats with methylnitrousourea (MNU) and dimethylbenzanthracene (DMBA) were also examined. These tumors included hormone-dependent and hormone independent ones. Several of the DMBA-induced hormone-dependent tumors contained a few peroxidase-positive cells, but the hormone independent tumors were negative. All of the MNU-induced tumors examined were negative for mammary peroxidase. Twenty human breast tumors (malignant and non-malignant) removed from women at surgery, were also negative for mammary peroxidase. Our results indicate that endogenous mammary peroxidase cannot be used to distinguish hormone-dependent from hormone independent mammary tumors.     

Immunoelectron microscopic localization of mammary tumor virus (MTV) antigens in normal and cancerous mammary glands of mice

Peroxidase-labeled Fab' fragments of rabbit antisera against gp52 (major envelope protein) and A-particles of mammary tumor virus (MTV) were prepared and used for investigation by immunoelectron microscopy of the replication cycle of MTV-specific envelope and core antigens in normal and malignant mammary gland cells of female mice. The specificity of the antisera was proven by absorption tests and lack of reactivity to MTV-free mammary tissues. Periodate-lysine-paraformaldehyde (PLP) fixation sufficiently preserved the antigenicity of gp52, while Zamboni's fixative was useful to preserve the core antigen. Saponin pretreatment was necessary to reveal the intracellular antigen of A particles but had no influence on gp52. In addition to its presence at the envelope of D particles, gp52 was clearly associated with the biomembrane system, including the nuclear membrane, endoplasmic reticulum, Golgi apparatus and plasma membrane independent of the presence of virus particles. In mammary tumors, a significant level of gp52 antigen was often expressed on the entire cell surface membrane. In contrast, it was localized only to the apical plasma membrane in normal mammary gland cells. A particle antigens were confined to the intracytoplasmic A particles, usually visible as clusters, and to the inner part of B particles. These ultrastructural findings support the available biochemical data on the morphogenesis of MTV particles.     

Metabolism of the chemopreventive retinoid N-(4-hydroxyphenyl)retinamide by mammary gland in organ culture.

N-(4-Hydroxyphenyl)retinamide (4-HPR) is considered to be the most effective chemopreventive retinoid for chemically induced mammary carcinogenesis in rats. However, the mechanism of 4-HPR action in mammary cells is poorly understood. In the present study we examined the metabolism of 4-HPR in the mouse mammary gland in organ culture. Mammary glands excised from BALB/c mice were incubated with 4-HPR in the presence of insulin, prolactin and steroid hormones for 6 days. The glands were extracted with chloroform/methanol (2:1, v/v), and the metabolites were separated on a reversed-phase h.p.l.c. column. Three metabolites were separated in addition to 4-HPR; one of the metabolites, M2, was co-eluted with 13-cis-4-HPR, M3 was co-eluted with N-(4-methoxyphenyl)retinamide (4-MPR) and M1 remains unidentified. There appeared to be some hormonal regulation in the distribution of metabolites in the glands. Increased levels of 4-MPR and M1 were observed in insulin-plus-prolactin-treated glands as compared with the glands incubated with steroid hormones. Furthermore, it was observed that M1 isolated from the livers of 4-HPR-treated rats competed for the cellular retinoic acid-binding protein (CRABP) sites; however, 4-HPR did not bind to CRABP. These results indicate that mouse mammary gland can metabolize 4-HPR and that the metabolites which compete for CRABP sites may have physiological significance in the retinoid inhibition of mammary carcinogenesis.     

Detection of Mouse Mammary Tumor Virus RNA in BALB/c Tumor Cell Lines of Nonviral Etiologies

A complementary DNA (cDNA) probe to mouse mammary tumor virus (MMTV) RNA was synthesized using calf thymus DNA oligonucleotides as a random primer. This probe was then used to study the expression of MMTV RNA in cell lines from BALB/c tumors induced in vivo either spontaneously or in response to viral, chemical, or hormonal stimuli. The cDNA had a length of approximately 400 to 500 nucleotides and specifically hybridized to MMTV RNA and BALB/c lactating mammary gland RNA, but not to Moloney leukemia virus RNA. Calf thymus DNA-primed cDNA could protect 50% of iodinated MMTV RNA from S1 nuclease digestion at cDNA-RNA ratios of 1:1 and 90% of labeled viral RNA at ratios of 10:1. Thermal denaturation of MMTV RNA-cDNA hybrids yielded a T(m) of 88.5 degrees C, indicative of a well-base-paired duplex. Screening of mouse mammary tumor cells for MMTV sequences revealed that three out of five lines of BALB/c origin had undetectable levels of viral RNA (相似文献   

Production of the mouse mammary tumor virus in cultures of BALB/cfC3H strain

The mouse mammary tumor virus (MTV) reproduces by a budding mechanism at the cell membrane of mouse mammary epithelial cells. In tissue culture, the tumor cells release their virions in the culture supernatant from which they can be removed by high speed centrifugation. Mammary tumor cells from the RIII, GR, and A strains of mice generally produce yields of virus which decrease after a few months. Cells derived from a spontaneous mammary tumor in a BALB/cfC3H mouse have shown the capability to shed relatively large amounts of virus continuously. A quantitative estimation by membrane immunofluorescence of the number of virus producing cells in one-year-old cultures revealed the presence of viral antigen on 80 to 90% of the cells; by comparison, cultures from other mouse strains had a ratio of only 10 to 15% virus producing cells. High speed centrifugation pellets obtained from 50 ml culture supernatant provided large amounts of mature virus particles which have been characterized by electron microscopy.