A small animal model for mother-to-fetus transmission of ts1, a murine retrovirus

Effects of antibiotic treatment on microbiota, viral transmission and viral pathogenesis of MoMuLV ts1 infected BALB/c mice

The effects of normal and altered intestinal microbiota on murine retroviral transmission via the gastrointestinal tract (GIT) are diverse. The role of orally administered antibiotic treatment (ABX) on viral transmission, GIT microbial dysbiosis and subsequent pathogenesis of Moloney Murine Leukemia virus–temperature sensitive 1 (ts1) on BALB/c mice were studied. BALB/c mice were divided into four groups:

ABXts1 and ABX groups showed a significant phylogenetic shift (ANOSIM p-value = 0.001) in alpha and beta diversity comparisons for microbial community composition compared to Ctrl group. Mice in the ABXts1 and ABX groups showed megacolon compared to ts1 and Ctrl groups; ABXts1 and ts1 groups showed hepatosplenomegaly, thymus enlargement, and mesenteric lymphadenopathy compared to ABX and Ctrl groups. Ctrl group had no abnormal manifestations. ABX treatment and ts1 infection uniquely affect microbial community when compared to control: ABXts1 and ABX groups significantly reduce microbiome diversity by over 80% and ts1 group by over 30%. ABXts1 and ts1 groups’ viral load and clinical manifestations of infection were comparable; antibiotic treatment did not notably affect ts1 infection. Transmission and pathophysiology of ts1 infection were not significantly altered by the microbial composition of the GI tract, but ts1 viral infection did result in microbial dysbiosis independent of antibiotic treatment.

Mother-to-Child Transmission of HTLV-1 Epidemiological Aspects, Mechanisms and Determinants of Mother-to-Child Transmission

Human T-cell Lymphotropic Virus type 1 (HTLV-1) is a human retrovirus that infects at least 5-10 million people worldwide, and is the etiological agent of a lymphoproliferative malignancy; Adult T-cell Leukemia/Lymphoma (ATLL); and a chronic neuromyelopathy, HTLV-1 Associated Myelopathy/Tropical Spastic Paraparesis (HAM/TSP), as well as other inflammatory diseases such as infective dermatitis and uveitis. Besides sexual intercourse and intravenous transmission, HTLV-1 can also be transmitted from infected mother to child during prolonged breastfeeding. Some characteristics that are linked to mother-to-child transmission (MTCT) of HTLV-1, such as the role of proviral load, antibody titer of the infected mother, and duration of breastfeeding, have been elucidated; however, most of the mechanisms underlying HTLV-1 transmission during breast feeding remain largely unknown, such as the sites of infection and cellular targets as well as the role of milk factors. The present review focuses on the latest findings and current opinions and perspectives on MTCT of HTLV-1.

Hematopoietic stem and progenitor cell populations in MoMuLV-ts-1 induced lymphoma in a murine model

During self-renewal of the hematopoietic stem cells there is a potential for these new cells to develop into abnormal malignant cells due to environmental, chemical or microbial challenges. This may lead to blood malignancies, including leukemia and lymphoma. Our laboratory was the first to develop a mouse model to study the development of lymphoma among pups of retrovirus infected mothers. We have established that if the newborn pups suckle breast milk from the mothers infected with a temperature sensitive Moloney Murine Leukemia Virus (MoMuLV-ts1), they develop lymphoma. Stem and progenitor cell populations were determined from blood, spleen, and thymus samples in infected mice with and without lymphoma using flow cytometry and specific protein markers, including CD117+/CD34+; CD117+/Sca-1+; CD135+/Sca-1+; Ter119+/CD71+ and CD117+/CD45+. Some stem cell populations were increased in infected mice with lymphoma. These stem cells appear to be involved in the development of lymphoma in our mouse model.

Retrovirus-induced lymphomagenesis: a correlation between disease pathogenesis and flow cytometric analysis

Perinatal infection with a temperature-sensitive mutant (ts-1) of Moloney murine leukemia virus (MoMuLV) results in massive splenomegaly and thymomegaly in mice and development of lymphoma in >55 % of infected pups. Previous flow cytometry studies showed a decrease in CD4(+) cells in perinatally infected pups, but cell population changes in infected animals with lymphoma compared with infected animals without lymphoma has not yet been reported. In the current study, BALB/c mice were infected with ts-1 through breast milk transmission and observed until development of clinical signs and symptoms of lymphoma and/or symptomatic ts-1 infection. Flow cytometry studies were performed on blood, spleen and thymus samples and correlated with gross morphology and histological changes, resulting from the development of lymphoma. Infected animals with lymphoma had significant decreases in CD4(+) and CD8(+) cell counts in blood and spleen compared with controls. The spleens of infected animals without lymphoma showed a decrease in CD4(+) and CD8(+) cell counts, but this was not significant compared with controls. In the thymus, CD4(+) and CD8(+) cell counts also decreased, but this was not significant in infected animals with and without lymphoma compared with controls. Markers of myeloid cell dysfunction increased in the thymus of animals with infection with and without lymphoma compared with controls. Thus, immunosuppression and CD4(+)/CD8(+) cell decreases in the spleen and thymus are associated with malignant transformation and development of lymphoma in this animal model.

MoMuLV-ts-1: A Unique Mouse Model of Retrovirus-Induced Lymphoma Transmitted by Breast Milk

Our laboratory has developed a murine model of lymphoma via breast milk transmission of MoMuLV-ts-1 (Moloney murine leukemia virus-temperature sensitive mutant-1). Uninfected offspring suckled from infected surrogate mothers become infected and develop lymphoma. Multiple gene integration sites of ts-1 into the infected mouse genome including tacc3, aurka, ndel1, tpx2, p53, and rhamm were identified, and mRNA expressions were quantitated. These genes produce centrosomal proteins, which may be involved in abnormal chromosomal segregation leading to aneuploidy or multiploidy, thus causing lymphoma. Since there is no report to date on this retroviral model leading to centrosomal abnormality, and causing lymphoma development, this is a valuable and unique model to study the centrosomal involvement in lymphomagenesis.

The drug monosodium luminol (GVT) preserves thymic epithelial cell cytoarchitecture and allows thymocyte survival in mice infected with the T cell-tropic, cytopathic retrovirus ts1

A mutant of MoMuLV, called ts1, causes an AIDS-like syndrome in susceptible strains of mice. In mice infected at birth, thymic atrophy, CD4+ T cell loss, body wasting, and death occur by approximately 30-40 days postinfection (dpi). We have shown previously that the death of ts1-infected cells is not caused by viral replication per se, but by oxidative stress and apoptosis following their accumulation the ts1 viral envelope precursor protein, gPr80(env). In infected mice treated with the antioxidant monosodium alpha-luminol (GVT), T cell loss and thymic atrophy are delayed for many weeks, and body wasting and death do not occur until long after infected, untreated control mice have died. We show here that GVT treatment of ts1-infected mice maintains the thymic epithelial cell (TEC) cytoarchitecture and cytokeratin gradients required for thymocyte differentiation. It also suppresses thymocyte reactive oxygen species (ROS) levels, upregulates and stabilizes levels of the antioxidant-regulating transcription factor Nrf2, and prevents accumulation of gPr80(env) in thymocytes. We conclude that GVT treatment can make ts1 a non-cytopathic virus for thymocytes, although it cannot prevent thymocyte infection. Since oxidative stress also contributes to the loss of T cells in HIV-AIDS, the antioxidant effects of GVT may make it a useful therapeutic adjunct to HAART treatment.

Retroviral gene insertion in breast milk mediated lymphomagenesis

We have demonstrated breast milk transmitted MoMuLV-ts1 retrovirus infection and subsequent lymphoma development in offspring of uninfected mothers suckled by infected surrogate mothers. Additionally, we have shown that the lymphoma development occurs as a result of viral gene integration into host genome. A total of 146 pups from Balb/C mice were divided into 5 groups; one control and 4 experimental. All offspring suckled from surrogate infected or control mothers, except one group of infected pups left with their biological mothers. Thirteen of 91 infected pups developed lymphoma. Inverse-PCR, DNA cloning, and quantitative real-time PCR (qRT-PCR) were used to study the virus integration sites (VIS) and alterations in gene expression. VIS were randomly distributed throughout the genome. The majority of insertion sites were found in chromosomes 10, 12 and 13. A total of 209 proviral genomic insertion sites were located with 52 intragenic and 157 intergenic sites. We have identified 29 target genes. Four genes including Tacc3, Aurka, Gfi1 and Ahi1 showed the maximum upregulation of mRNA expression. These four genes can be considered as candidate genes based on their association with cancer. Upregulation of these genes may be involved in this type of lymphoma development. This model provides an important opportunity to gain insight into the relationship of viral gene insertion into host genome and development of lymphoma via natural transmission route such as breast milk.

Transmission of Moloney murine leukemia virus (ts-1) by breast milk

A murine model has been developed to study maternal transmission of the temperature-sensitive Moloney murine leukemia virus (ts-1). The goal of this study was to confirm early and late mother-to-offspring transmission of the virus and demonstrate transmission via breast milk. A series of six experiments was performed using six groups of BALB/c mice. Group 1 consisted of pups born to ts-1-infected mothers removed at birth to suckle from surrogate uninfected mothers. Groups 2 and 5 consisted of pups born to ts-1-infected mothers that suckled from ts-1-infected mothers (surrogate and biological). Group 3 consisted of non-infected pups removed at birth to suckle from ts-1-infected mothers. Groups 4 and 6 consisted of non-infected pups suckled from non-infected mothers. The combined in utero, intrapartum and breast-milk infection rate was 100 % to the offspring (groups 2 and 5). The in utero to early post-partum group (group 1) had an infection rate of 78 %. Breast milk alone (group 3) resulted in a 97 % infection rate. Control groups (groups 4 and 6) had a 0 % infection rate. The relative frequency of maternal CD4(+) cells in peripheral blood mononuclear cells was consistently lower in infected mothers, whilst offspring did not show a significant decrease in CD4(+) frequency. Pups infected via breast milk had a lower CD4(+) frequency (group 3) than those infected by the uterine and/or intrapartum route (group 1). Breast milk from ts-1-infected mothers appears to be highly infectious for neonatal BALB/c mice.

Vertical Transmission of a Murine Retrovirus, ts1

Mechanism of maternal retroviral transmission remains an unsolved problem. The current investigation is a part of our ongoing research on vertical transmission of MoMuLV-TB ts1 in BALB/c mice. A total of 270 adult mice and 165 fetuses were used. Forty-four experimental mice were injected with 0.1 mL of 4.0 x 10(6) ffu/mL of ts1 virus at 72 h after birth; 24 controls were injected with DMEM. Almost half of the females went through two rounds of pregnancies. In the first round, 135 experimental and 57 control pups were produced. Forty-three experimental and 20 control pups were followed until they developed clinical symptoms. The second round of pregnancy produced a total of 46 mid-gestational and 119 full-term fetuses. PCR, and light and electron microscopy were performed to evaluate viral transmission. Overall, 99% vertical transmission occurred in pups of infected mothers. Twelve percent of mid-gestational and 39% full-term fetuses were PCR positive. We have established that, if mothers are infected with ts1 virus at 72 h after birth, then nearly 100% vertical transmission occurs, via in utero, intrapartum, or breast milk. Thirty-nine percent transmission occurred in utero alone. This is an excellent model to study the transplacental and post-gestational transmission of retroviruses, such as ts1.