Moderate sensitivity of mouse mammary tumour virus to inhibition by human APOBEC3G.

Infectivity of the mouse mammary tumour virus (MMTV) is inhibited by mouse APOBEC3 (mA3) which is efficiently packaged into virions. As the inhibition is only partial, the virus can replicate in tissues expressing mA3 and complete its replication cycle. Here, we have examined the sensitivity of MMTV to inhibition by a human orthologue of mA3, A3G. We report that the virus containing A3G is only moderately susceptible to inhibition by the human factor. Whereas the vif-deficient HIV-1 vector produced in human epithelial cells expressing endogenous levels of A3G was efficiently inhibited, an MMTV vector remained fully infectious. Greater A3G expression levels were necessary to restrict infectivity of MMTV, but only when the factor retained its deaminase activity. Furthermore, the spreading kinetic of a replication competent MMTV was only moderately accelerated in cells with downmodulated A3G expression. These data suggest that MMTV has evolved a mechanism to neutralize antiviral activity of APOBEC3 proteins.

AKT capture by feline leukemia virus.

Oncogene-containing retroviruses are generated by recombination events between viral and cellular sequences, a phenomenon called "oncogene capture". The captured cellular genes, referred to as "v-onc" genes, then acquire new oncogenic properties. We report a novel feline leukemia virus (FeLV), designated "FeLV-AKT", that has captured feline c-AKT1 in feline lymphoma. FeLV-AKT contains a gag-AKT fusion gene that encodes the myristoylated Gag matrix protein and the kinase domain of feline c-AKT1, but not its pleckstrin homology domain. Therefore, it differs structurally from the v-Akt gene of murine retrovirus AKT8. AKT may be involved in the mechanisms underlying malignant diseases in cats.

Incorporation of mouse APOBEC3 into murine leukemia virus virions decreases the activity and fidelity of reverse transcriptase.

APOBEC3 proteins are restriction factors that induce G→A hypermutation in retroviruses during replication as a result of cytidine deamination of minus-strand DNA transcripts. However, the mechanism of APOBEC inhibition of murine leukemia viruses (MuLVs) does not appear to be G→A hypermutation and is unclear. In this report, the incorporation of mA3 in virions resulted in a loss in virion reverse transcriptase (RT) activity and RT fidelity that correlated with the loss of virion-specific infectivity.

ROCK1 and LIM kinase modulate retrovirus particle release and cell-cell transmission events.

UNLABELLED: The assembly and release of retroviruses from the host cells require dynamic interactions between viral structural proteins and a variety of cellular factors. It has been long speculated that the actin cytoskeleton is involved in retrovirus production, and actin and actin-related proteins are enriched in HIV-1 virions. However, the specific role of actin in retrovirus assembly and release remains unknown. Here we identified LIM kinase 1 (LIMK1) as a cellular factor regulating HIV-1 and Mason-Pfizer monkey virus (M-PMV) particle release. Depletion of LIMK1 reduced not only particle output but also virus cell-cell transmission and was rescued by LIMK1 replenishment. Depletion of the upstream LIMK1 regulator ROCK1 inhibited particle release, as did a competitive peptide inhibitor of LIMK1 activity that prevented cofilin phosphorylation. Disruption of either ROCK1 or LIMK1 led to enhanced particle accumulation on the plasma membrane as revealed by total internal reflection fluorescence microscopy (TIRFM). Electron microscopy demonstrated a block to particle release, with clusters of fully mature particles on the surface of the cells. Our studies support a model in which ROCK1- and LIMK1-regulated phosphorylation of cofilin and subsequent local disruption of dynamic actin turnover play a role in retrovirus release from host cells and in cell-cell transmission events. IMPORTANCE: Viruses often interact with the cellular cytoskeletal machinery in order to deliver their components to the site of assembly and budding. This study indicates that a key regulator of actin dynamics at the plasma membrane, LIM kinase, is important for the release of viral particles for HIV as well as for particle release by a distantly related retrovirus, Mason-Pfizer monkey virus. Moreover, disruption of LIM kinase greatly diminished the spread of HIV from cell to cell. These findings suggest that LIM kinase and its dynamic modulation of the actin cytoskeleton in the cell may be an important host factor for the production, release, and transmission of retroviruses.

Differential sensitivity of porcine endogenous retrovirus to APOBEC3-mediated inhibition.

Pigs are considered to be suitable xenotransplantation organ donors. However, the risk of pathogen transmission from pigs to humans is a major concern in the transplantation of porcine tissues. The porcine endogenous retroviruses (PERVs) PERV-A, PERV-A/C, and PERV-B can infect human cells, but PERV-C is an ecotropic virus infecting only pig cells. Thus, several strategies have been proposed to reduce PERV transmission in xenograft recipients. Human APOBEC3G (huA3G) is a single-strand DNA cytosine deaminase, which inactivates the coding capacity of the virus by deamination of cDNA cytosines to uracils. This reaction occurs within the (-) DNA strand during reverse transcription, resulting in a G-to-A mutation in the (+) strand. While recent data have shown that PERV-B is severely inhibited by huA3G and porcine A3Z2-Z3 (poA3F) in a pseudotype assay, little is known about PERV-C. Here, we compare the antiretroviral activities of huA3G, huA3F and poA3Z2-Z3 against PERV-C. Our data show that APOBEC3 was packaged into PERV-C particles and inhibited PERV-C replication in a dose-dependent manner. PERV-C infectivity was strongly inhibited by poA3Z2-Z3, but it did not markedly reduce PERV-B infectivity. This suggests that PERV-C Gag interacts efficiently with poA3Z2-Z3. In addition, we constructed stably huA3G- and poA3Z2-Z3-expressing 293-PERV-PK-CIRCE cells (human 293 cells infected with PK15-derived PERVs) to examine whether PERV is resistant to poA3Z2-Z3 in a virus-spreading assay. The stably expressed huA3G and poA3Z2-Z3 were more packaging-competent than transiently expressed APOBEC3 proteins. These results suggest that poA3Z2-Z3 can inhibit PERV replication in a pseudotype assay as well as in a virus-spreading assay.

APOBEC3 inhibition of mouse mammary tumor virus infection: the role of cytidine deamination versus inhibition of reverse transcription.

The apolipoprotein B editing complex 3 (APOBEC3) family of proteins is a group of intrinsic antiviral factors active against a number of retroviral pathogens, including HIV in humans and mouse mammary tumor virus (MMTV) in mice. APOBEC3 restricts its viral targets through cytidine deamination of viral DNA during reverse transcription or via deaminase-independent means. Here, we used virions from the mammary tissue of MMTV-infected inbred wild-type mice with different allelic APOBEC3 variants (APOBEC3(BALB) and APOBEC3(BL/6)) and knockout mice to determine whether cytidine deamination was important for APOBEC3's anti-MMTV activity. First, using anti-murine APOBEC3 antiserum, we showed that both APOBEC3 allelic variants are packaged into the cores of milk-borne virions produced in vivo. Next, using an in vitro deamination assay, we determined that virion-packaged APOBEC3 retains its deamination activity and that allelic differences in APOBEC3 affect the sequence specificity. In spite of this in vitro activity, cytidine deamination by virion-packaged APOBEC3 of MMTV early reverse transcription DNA occurred only at low levels. Instead, the major means by which in vivo virion-packaged APOBEC3 restricted virus was through inhibition of early reverse transcription in both cell-free virions and in vitro infection assays. Moreover, the different wild-type alleles varied in their ability to inhibit this step. Our data suggest that while APOBEC3-mediated cytidine deamination of MMTV may occur, it is not the major means by which APOBEC3 restricts MMTV infection in vivo. This may reflect the long-term coexistence of MMTV and APOBEC3 in mice.

Retroviral cyclin enhances cyclin-dependent kinase-8 activity.

Alterations in the functional levels of cyclin-dependent kinase-8 (CDK8) or its partner, cyclin C, have been clearly associated with cancers, including colon cancer, melanoma, and osteosarcoma. Walleye dermal sarcoma virus encodes a retroviral cyclin (RV-cyclin) that localizes to interchromatin granule clusters and binds CDK8. It also binds to the Aα subunit (PR65) of protein phosphatase 2A (PP2A). Binding to the Aα subunit excludes the regulatory B subunit, but not the catalytic C subunit, in a manner similar to that of T antigens of the small DNA tumor viruses. The expression of the RV-cyclin enhances the activity of immune affinity-purified CDK8 in vitro for RNA polymerase II carboxy-terminal domain (CTD) and histone H3 substrates. PP2A also enhances CDK8 kinase activity in vitro for the CTD but not for histone H3. The PP2A enhancement of CDK8 is independent of RV-cyclin expression and likely plays a role in the normal regulation of CDK8. The manipulation of endogenous PP2A activity by inhibition, amendment, or depletion confirmed its role in CDK8 activation by triggering CDK8 autophosphorylation. Although RV-cyclin and PP2A both enhance CDK8 activity, their actions are uncoupled and additive in kinase reactions. PP2A may be recruited to CDK8 in the Mediator complex by a specific PP2A B subunit or additionally by the RV-cyclin in infected cells, but the RV-cyclin appears to activate CDK8 directly and in a manner independent of its physical association with PP2A.

The absence of IDO upregulates type I IFN production, resulting in suppression of viral replication in the retrovirus-infected mouse.

Indoleamine 2,3-dioxygenase, the L-tryptophan-degrading enzyme, plays a key role in the powerful immunomodulatory effects on several different types of cells. Because modulation of IDO activities after viral infection may have great impact on disease progression, we investigated the role of IDO following infection with LP-BM5 murine leukemia virus. We found suppressed BM5 provirus copies and increased type I IFNs in the spleen from IDO knockout (IDO(-/-)) and 1-methyl-D-L-tryptophan-treated mice compared with those from wild-type (WT) mice. Additionally, the number of plasmacytoid dendritic cells in IDO(-/-) mice was higher in the former than in the WT mice. In addition, neutralization of type I IFNs in IDO(-/-) mice resulted in an increase in LP-BM5 viral replication. Moreover, the survival rate of IDO(-/-) mice or 1-methyl-D-L-tryptophan-treated mice infected with LP-BM5 alone or with both Toxoplasma gondii and LP-BM5 was clearly greater than the survival rate of WT mice. To our knowledge, the present study is the first report to observe suppressed virus replication with upregulated type I IFN in IDO(-/-) mice, suggesting that modulation of the IDO pathway may be an effective strategy for treatment of virus infection.

Small-Angle X-ray Scattering Models of APOBEC3B Catalytic Domain in a Complex with a Single-Stranded DNA Inhibitor.

In normal cells APOBEC3 (A3A-A3H) enzymes as part of the innate immune system deaminate cytosine to uracil on single-stranded DNA (ssDNA) to scramble DNA in order to give protection against a range of exogenous retroviruses, DNA-based parasites, and endogenous retroelements. However, some viruses and cancer cells use these enzymes, especially A3A and A3B, to escape the adaptive immune response and thereby lead to the evolution of drug resistance. We have synthesized first-in-class inhibitors featuring modified ssDNA. We present models based on small-angle X-ray scattering (SAXS) data that (1) confirm that the mode of binding of inhibitor to an active A3B C-terminal domain construct in the solution state is the same as the mode of binding substrate to inactive mutants of A3A and A3B revealed in X-ray crystal structures and (2) give insight into the disulfide-linked inactive dimer formed under the oxidizing conditions of purification.

Fibrils of prostatic acid phosphatase fragments boost infections with XMRV (xenotropic murine leukemia virus-related virus), a human retrovirus associated with prostate cancer.

The xenotropic murine leukemia virus-related virus (XMRV) has recently been detected in prostate cancer tissues and may play a role in tumorigenesis. It is currently unclear how this virus is transmitted and which factors promote its spread in the prostate. We show that amyloidogenic fragments known as semen-derived enhancer of virus infection (SEVI) originating from prostatic acid phosphatase greatly increase XMRV infections of primary prostatic epithelial and stromal cells. Hybrid simian/human immunodeficiency chimeric virus particles pseudotyped with XMRV envelope protein were used to demonstrate that the enhancing effect of SEVI, or of human semen itself, was at the level of viral attachment and entry. SEVI enhanced XMRV infectivity but did not bypass the requirement for the xenotropic and polytropic retrovirus receptor 1. Furthermore, XMRV RNA was detected in prostatic secretions of some men with prostate cancer. The fact that the precursor of SEVI is produced in abundance by the prostate indicates that XMRV replication occurs in an environment that provides a natural enhancer of viral infection, and this may play a role in the spread of this virus in the human population.

DDX41 Recognizes RNA/DNA Retroviral Reverse Transcripts and Is Critical for In Vivo Control of Murine Leukemia Virus Infection.

Host recognition of viral nucleic acids generated during infection leads to the activation of innate immune responses essential for early control of virus. Retrovirus reverse transcription creates numerous potential ligands for cytosolic host sensors that recognize foreign nucleic acids, including single-stranded RNA (ssRNA), RNA/DNA hybrids, and double-stranded DNA (dsDNA). We and others recently showed that the sensors cyclic GMP-AMP synthase (cGAS), DEAD-box helicase 41 (DDX41), and members of the Aim2-like receptor (ALR) family participate in the recognition of retroviral reverse transcripts. However, why multiple sensors might be required and their relative importance in in vivo control of retroviral infection are not known. Here, we show that DDX41 primarily senses the DNA/RNA hybrid generated at the first step of reverse transcription, while cGAS recognizes dsDNA generated at the next step. We also show that both DDX41 and cGAS are needed for the antiretroviral innate immune response to murine leukemia virus (MLV) and HIV in primary mouse macrophages and dendritic cells (DCs). Using mice with cell type-specific knockout of the Ddx41 gene, we show that DDX41 sensing in DCs but not macrophages was critical for controlling in vivo MLV infection. This suggests that DCs are essential in vivo targets for infection, as well as for initiating the antiviral response. Our work demonstrates that the innate immune response to retrovirus infection depends on multiple host nucleic acid sensors that recognize different reverse transcription intermediates.IMPORTANCE Viruses are detected by many different host sensors of nucleic acid, which in turn trigger innate immune responses, such as type I interferon (IFN) production, required to control infection. We show here that at least two sensors are needed to initiate a highly effective innate immune response to retroviruses-DDX41, which preferentially senses the RNA/DNA hybrid generated at the first step of retrovirus replication, and cGAS, which recognizes double-stranded DNA generated at the second step. Importantly, we demonstrate using mice lacking DDX41 or cGAS that both sensors are needed for the full antiviral response needed to control in vivo MLV infection. These findings underscore the need for multiple host factors to counteract retroviral infection.

The thioredoxin system in retroviral infection and apoptosis.

Human thioredoxin (TRX) was first identified in human T-cell leukemia virus type I (HTLV-I)-positive T-cell lines and is associated with the pathophysiology of retroviral infections. TRX is a vital component of the thiol-reducing system and regulates various cellular function (redox regulation). Members of the TRX system regulate apoptosis through a wide variety of mechanisms. A family of thioredoxin-dependent peroxidases (peroxiredoxins) protects against apoptosis by scavenging hydrogen peroxide. Thioredoxin 2 is a critical regulator of cytochrome c release and mitochondrial apoptosis; transmembrane thioredoxin-related molecule (TMX) has a protective role in endoplasmic reticulum (ER) stress-induced apoptosis. TRX interacts with apoptosis signal-regulating kinase 1 (ASK1) and is a sensor of oxidative stress. Thioredoxin binding protein-2/vitamin D(3) upregulated protein 1 is a growth suppressor and its expression is suppressed in HTLV-I-transformed cells. Studies of these molecules of the TRX system provide novel insights into the apoptosis associated with retroviral diseases.

Mutation of the Lyn tyrosine kinase delays the progression of Friend virus induced erythroleukemia without affecting susceptibility.

During the initial phase of Friend virus (FV) induced erythroleukemia, the interaction between the viral envelope glycoprotein gp55, the Erythropoietin receptor (EpoR) and the naturally occurring truncated version of the Mst1r receptor tyrosine kinase, called Sf-Stk, drives the polyclonal expansion of infected progenitors in an erythropoietin independent manner. Sf-Stk provides signals that cooperate with EpoR signals to effect expansion of erythroid progenitors. The latter phase of disease is characterized by a clonal expansion of transformed leukemic cells causing an acute erythroleukemia in mice. Signaling by Sf-Stk and EpoR mediated by gp55 renders erythroid progenitors Epo independent through the activation of the EpoR downstream pathways such as PI3K, MAPK and JAK/STAT. Previous work has shown that Src family kinases also play an important role in erythropoiesis. In particular, mutation of Src and Lyn can affect erythropoiesis. In this report we analyze the role of the Lyn tyrosine kinase in the pathogenesis of Friend virus. We demonstrate that during FV infection of primary erythroblasts, Lyn is not required for expansion of viral targets. Lyn deficient bone marrow and spleen cells are able to form Epo independent FV colonies in vitro. In vivo infection of Lyn deficient animals also results in a massive splenomegaly characteristic of the virus. However, we observe differences in the pathogenesis of Friend erythroleukemia in Lyn-/- mice. Lyn-/- mice infected with the polycythemia inducing strain of FV, FVP, do not develop polycythemia suggesting that Lyn-/- infected erythroblasts have a defect in terminal differentiation. Furthermore, the expansion of transformed cells in the spleen is reduced in Lyn-/- mice. Our data show that Lyn signals are not required for susceptibility to Friend erythroleukemia, but Lyn plays a role in later events, the terminal differentiation of infected cells and the expansion of transformed cells.

Effects of ribonuclease and deoxyribonuclease on a murine leukemia virus (Rauscher).

Plasma pellets and femoral bone marrow from BALB/cJ mice infected with the Rauscher leukemia virus were fixed, embedded, and sectioned. The thin sections were incubated in ribonuclease and deoxyribonuclease solutions, stained, and examined in the electron microscope. Specific attention was paid to the action of the nucleases on characteristic virus particles in the plasma preparations and on viruses being produced by the "budding" phenomenon in the femoral bone marrow. Ribonuclease solutions digested the nucleoids of the virus particles in the plasma preparations from mice infected with Rauscher leukemia virus. The nucleoid portion of the "budding" virus particles in bone marrow, and the connecting cytoplasm of the stalks were also digested by ribonuclease solutions. In addition, the outer coat of the "budding" particles was affected in a nonspecific manner. The centers of the "budding" particles in the bone marrow and the nucleoids of viruses in plasma preparations were not digested by deoxyribonuclease solutions. Influenza virus, a known ribonucleic acid (RNA) virus, was used as a control for nuclease activity. The nucleoids of influenza virus particles were digested by ribonuclease but not by deoxyribonuclease solutions. After coriphosphine staining of the plasma virus preparations, the fluorescence was quenched in preparations treated with ribonuclease, but did not appear to be diminished in those treated with deoxyribonuclease. This study suggests that infection of mice with Rauscher leukemia virus produces virus particles in plasma and "budding" particles in bone marrow, both of which contain RNA.

Ini1/hSNF5 is dispensable for retrovirus-induced cytoplasmic accumulation of PML and does not interfere with integration.

Retroviral infection triggers the cytoplasmic translocation of two Crm1-dependent shuttle factors, namely the Ini1 (integrase interactor 1, hSNF5) and the promyelocytic leukemia (PML) protein. Blocking nuclear export of shuttle factors by leptomycin B increases the efficiency of retroviral integration, suggesting that some may mediate antiviral activity. While PML was shown to counteract proviral establishment, it remained unclear whether Ini1, a protein implicated in various processes during human immunodeficiency virus replication, has the same potential. Employing RNA interference-mediated knock-down of Ini1, we show here that the simultaneous accumulation of both proteins in the cytoplasm likely reflects two non-interdependent phenomena. Furthermore, Ini1 does not interfere with retroviral integration, as cells lacking Ini1 show no increased infection susceptibility.

Humoral response to SIV/SMM infection in macaque and mangabey monkeys.

Natural infection of sooty mangabey monkeys with simian immunodeficiency virus, designated SIV/SMM, results in long-term persistent infections with little or no disease. In contrast, experimental infection of macaques with isolates of SIV/SMM induces chronic and progressive disease that terminates in an AIDS-like illness and death in most animals. To determine whether antibodies might be important in preventing the development of disease in mangabeys or progression of disease in macaques, humoral immune responses to SIV/SMM were compared in 13 macaques infected for up to 43 months and in infected and uninfected mangabeys selected at random from among a breeding colony. Total SIV/SMM-specific antibody titers, profiles of antibodies to specific viral proteins, neutralizing antibodies that inhibited infectivity of cell-free virus or syncytia formation, antibodies that inhibited reverse transcriptase activity, and antibodies to lymphocyte cell-surface antigens were assessed. The results indicated that in macaques the magnitude of the SIV/SMM-specific antibody response and progression of disease were functions of virus load. Surprisingly, asymptomatic mangabeys also had high virus loads with, on average, lower antibody titers than macaques. In both species, the presence of neutralizing antibodies or antibodies that inhibited SIV/SMM reverse transcriptase activity did not correlate with protection from clinical disease. A correlation was observed, however, between the development of disease and the presence of antibodies to an 18-kDa protein that is found on the surface of activated lymphocytes and appears to be related to histone H2B. A similar correlation has been observed in association with HIV infection in humans, suggesting that some manifestations of both human and simian AIDS may result from autoimmune reactions.

Are retroviruses involved in the aetiology of human breast cancer?

To further investigate the possibility for retroviral involvement in the etiology of human breast cancer we processed peripheral blood monocytes and malignant breast tissue biopsies from 10 patients with breast cancer (infiltrating ductal carcinoma or infiltrating lobular carcinoma; ages 40-80 years) and 20 normal healthy women (with no evidence or family history of breast cancer. 10 age-matched controls and 10 women age 22-27 years) for the assay of the retroviral enzyme, reverse transcriptase, using an ELISA and for election microscopy examination for the detection of retroviral-like particles. Reverse transcriptase activity was detected in 5 out of 10 samples of monocyte culture medium and in 1 out of 10 of malignant tissue biopsies from the patients with breast cancer. In contrast, reverse transcriptase was not detected in the culture medium of the monocytes from any of the control subjects. Electron microscopy did not reveal the presence of any retroviral-like particles in any sample of monocyte culture medium or in any of the malignant or normal breast tissue biopsies. Despite evidence for the presence of reverse transcriptase in a subsample of the monocyte culture medium and breast tissue biopsies from the cohort of breast cancer patients who participated in this study, the role of retroviruses in human breast cancer remains unclear.

Regional changes in constitutive, but not inducible NOS expression in the brains of mice infected with the LP-BM5 leukemia virus.

Potential neurotoxins such as nitric oxide have been implicated in the pathogenesis of acquired immunodeficiency syndrome (AIDS) dementia complex. The LP-BM5 murine leukemia-infected mice, which develop immunological and cognitive deficits reminiscent of human HIV-1 infection, were employed to investigate the changes in brain constitutive nitric oxide synthase (cNOS) and inducible nitric oxide synthase (iNOS) expression. Cerebellar and striatal cNOS enzymatic activity increased approximately 70% as early as 2 weeks after infection, declining to control levels by 12-16 weeks. In contrast, cNOS protein expression in the striatum and cerebellum was decreased 30% at 4 weeks, declining to 50% of control levels by 16 weeks post-infection. Staining intensity for cNOS, but not neuron number was reduced in the cerebral cortex, striatum, ventromedial hypothalamic nucleus and amygdala. Although iNOS protein expression was elevated in splenic monocytes, neither iNOS activity, mRNA nor protein was detected in the brains of mice 12 weeks after infection. These results indicate that neurons decrease cNOS protein expression to compensate for chronic cNOS activation, probably resulting from glutamatergic stimulation. The cNOS activation is contemporaneous with microglial activation in LP-BM5-infected mice, and precedes the development of cognitive deficits. Moreover, the lack of iNOS induction in either infected macrophages or glial elements suggests that iNOS is not necessary for the development of these cognitive deficits.

Further evidence for a retrovirus as the aetiological agent of sheep pulmonary adenomatosis (jaagsiekte).

The infective agent of jaagsiekte was shown to be present in the fluid which accumulates in the respiratory tract of sheep during the terminal stages of the disease. The fluid also contained reverse transcriptase (RT) activity which showed a clear preference for a ribonucleic acid synthetic template over the corresponding deoxyribonucleic acid template and which utilised the RT specific template/primer poly (2'-0-methylcytidylate) oligodeoxyguanylate. This enzyme activity was associated with a particle which had typical retroviral buoyant densities in a range of gradient media.

Retroviral transduction of human periodontal cells with a temperature-sensitive SV40 large T antigen.

The periodontal ligament (PDL) is considered to contain subpopulations of cells responsible for the development, repair and regeneration of the periodontium. Cell cultures have been used as model systems in order to understand the complex cellular and biochemical events underlying these processes. In order to obtain long-term cultures of these cells that can be cloned and characterized, primary cultures of PDL and gingival cells were infected with an amphotropic retroviral construct encoding a temperature-sensitive SV40 large T antigen (tsT). After selection for drug resistance, the cells expressed the T antigen and proliferated at 34 degrees C for more than 40 passages. However, when the T antigen was inactivated by incubation at 39 degrees C, the cultures became growth-arrested and the granularity of the cells increased, possibly as a result of differentiation. Reverse transcribed-polymerase chain reaction and flow cytometry showed that the tsT-transduced cells expressed a number of soft and hard connective-tissue antigens, including osteocalcin, osteonectin, osteopontin, collagen type I and alkaline phosphatase. Moreover, incubation of the transduced PDL cells at 39 degrees C was found to upregulate the expression of osteocalcin, osteopontin and collagen type I, but downregulate osteonectin. At this temperature, the presence of the dexamethasone downregulated type I collagen, while vitamin D3 had no effect on the expression of any of the antigens examined. Under all culture conditions, antigen expression was far higher in the transduced PDL cells than the gingival cells. The findings thus show that growth of the tsT-transduced PDL and gingival cells is temperature-dependent and that the presence of the T antigen increases their lifespan but does not ablate the expression of certain of their characteristic phenotypic and functional features.