Inhibition of in vitro lymphoproliferative responses by in vivo passaged rat 13762 mammary adenocarcinoma cells. I. Characteristics of inhibition and evidence for an infectious agent.

Small numbers of X-irradiated 13762 cells added as third-party cells to mitogen response assays or mixed lymphocyte cultures caused a significant reduction in viability of the cocultivated lymphocytes, and completely inhibited the expected lymphoproliferative responses. Results showed that the factor(s) responsible for the inhibitory effect was preserved after ultrasonic disruption of the tumor cells, could be sedimented by ultracentrifugation, and was sensitive to treatment with ultraviolet light. Further, cytopathic effects could be serially propagated using cell-free supernatants obtained from sonicated 13762 tumor cells. The results suggest that the 13762 adenocarcinoma line, as carried in vivo in this laboratory, harbors an infectious particle which can affect the proliferative responses of lymphocytes in vitro.     

A 6-thioguanine-resistant variant of the rat mammary adenocarcinoma 13762 that is more immunogenic

Summary A 6-thioguanine-resistant (TgR) variant of the metastatic mammary tumor 13762 was found to be very immunogenic. This TgR variant was nontumorigenic and nonmetastatic, whereas the parent 13762 cell line is very tumorigenic and metastatic in normal syngeneic animals. The TgR variant was tumorigenic in irradiated animals. The mechanism of the hosts' immune rejection of this TgR variant was investigated. A ⁵¹Cr-release cytotoxic cell assay was used to assess lymphocyte cell-mediated cytotoxicity (CMC) of tumor-draining lymph nodes and spleens from animals injected with tumor cells. In a secondary CMC response of splenic T cells from animals injected with TgR cells, there was a much stronger response as compared to animals injected with 13762 cells. This strong cytotoxic T cell response was short-term and correlated to the host rejection of TgR cells. Previously, we selected revertant cell lines (TgRrev, TgRrevM) from the TgR variant line that were more metastatic and tumorigenic. The revertant cell lines induced a lower CMC response than the TgR line, but a higher response compared to the parent 13762 line. The poor CMC response from 13762 tumorbearing animals was investigated and appeared to be due to a suppressor T cell response.     

Changes in expression of a major sialoglycoprotein associated with ascites forms of a mammary adenocarcinoma

Glycoproteins of a cultured form (MR) of the 13762 rat mammary adenocarcinoma and its variants have been studied by analyses for peanut agglutinin receptors, [³H]glucosamine labeling, lactoperoxidase labeling and CsCl density gradient centrifugation. The 13762 MR cells, derived from 13762 MAT-B ascites cells, do not contain detectable ASGP-1, the predominant cell surface sialoglycoprotein of the ascites forms of the 13762 tumor.Transplantation and continued passage as ascites cells of MR cells or clonal lines derived from MR results in abrupt expression of ASGP-1 at about passage 16; it is absent in early passages of the ascites tumor. When these ascites cells are transferred to culture, ASGP-1 is again lost. No ASGP-1 is found in solid tumors derived from subcutaneous transplantation of the 13762 MR cells. The results suggest modulation of ASGP-1 content of the 13762 tumor cells.     

DNA Polymerase Activity associated with Purified Kilham Rat Virus

RNA tumour viruses contain an enzyme which can transcribe DNA from an RNA template^1,2, an endonuclease and a DNA-dependent DNA polymerase activity^3,4. RNA polymerase has been reported in vaccinia virus^5,6, reovirus^7,8 and cytoplasmic polyhidrosis virus⁹. I wish to describe a DNA polymerase activity associated with a highly purified preparation of the parvovirus, Kilham rat virus (KRV), which is thus the first report of a DNA polymerase associated with a DNA virus. KRV, a small virus first isolated from a rat sarcoma¹⁰, is antigenically related to the H viruses isolated from human transplantable tumours¹¹. Those parvoviruses which have been characterized all contain single stranded DNA with molecular weights of 1.5 to 2.5 × 10⁶ (refs. 12,13 and 14).     

Cellular and molecular mechanism for Kilham rat virus-induced autoimmune diabetes in DR-BB rats

Kilham rat virus (KRV) causes autoimmune diabetes in diabetes-resistant BioBreeding (DR-BB) rats; however, the mechanism by which KRV induces autoimmune diabetes without the direct infection of beta cells is not well understood. We first asked whether molecular mimicry, such as a common epitope between a KRV-specific peptide and a beta cell autoantigen, is involved in the initiation of KRV-induced autoimmune diabetes in DR-BB rats. We found that KRV peptide-specific T cells generated in DR-BB rats infected with recombinant vaccinia virus expressing KRV-specific structural and nonstructural proteins could not induce diabetes, indicating that molecular mimicry is not the mechanism by which KRV induces autoimmune diabetes. Alternatively, we asked whether KRV infection of DR-BB rats could disrupt the finely tuned immune balance and activate autoreactive T cells that are cytotoxic to beta cells, resulting in T cell-mediated autoimmune diabetes. We found that both Th1-like CD45RC+CD4+ and cytotoxic CD8+ T cells were up-regulated, whereas Th2-like CD45RC-CD4+ T cells were down-regulated, and that isolated and activated CD45RC+CD4+ and CD8+ T cells from KRV-infected DR-BB rats induced autoimmune diabetes in young diabetes-prone BioBreeding (DP-BB) rats. We conclude that KRV-induced autoimmune diabetes in DR-BB rats is not due to molecular mimicry, but is due to a breakdown of the finely tuned immune balance of Th1-like CD45RC+CD4+ and Th2-like CD45RC-CD4+ T cells, resulting in the selective activation of beta cell-cytotoxic effector T cells.     

Secondary infection of rat lungs with Pasteurella pneumotropica after Kilham rat virus infection

Lung congestion was observed after an outbreak of Kilham rat virus infection (KRV) in a rat colony, previously free of all rat viruses. A high proportion of congested lungs contained Pasteurella pneumotropica suggesting that KRV might have caused primary damage to the alveoli (hitherto not recorded) which allowed the secondary bacterial colonization. Experimental infection of rats with KRV caused acute damage to the lung alveoli. Since KRV infection is very common in animal facilities it could therefore be a significant agent in the development of respiratory disease.     

Enhancement of natural and antibody-dependent lymphocyte cytotoxicity by drugs which inhibit prostaglandin production by tumor target cells

Our previous observations suggested that the production of prostaglandins by tumor cells exposed to lymphocytes might constitute a mechanism by which the tumor cells Could subvert the effects of a cellular immune response directed against them. The present experiments tested this hypothesis by determining whether inhibition of prostaglandin production permitted enhanced expression of natural and antibody-dependent lymphocyte cytotoxicity against the target cells. Cell lines T₂₄ and HCV₂₉ were labelled with ⁵¹Chromium and incubated with purified lymphocytes obtained from venous blood of normal donors. Antiserum to T₂₄ and varying concentrations of inhibitors of prostaglandin synthetase (indomethacin, fenclozic acid, acetylsalicylic acid, and 2,6-xylenol) were added at the onset of incubation and assay tubes were incubated for varying times at 37 °C. In some experiments, lymphocytes or labeled target cells were preincubated with inhibitors and then washed prior to their addition to the assay tubes. Cytotoxicity was determined by measuring ⁵¹Chromium release and assessing any differences that might reflect the presence of the various drugs. Each prostaglandin synthetase inhibitor significantly enhanced both natural and antibody-dependent lymphocyte cytotoxicity. Enhancement appeared to reflect an effect on the target cells, presumeably by an inhibition of prostaglandin production. No increase in spontaneous ⁵¹Chromium release was apparent. The inhibitors did not appear to activate lymphocytes. This evidence supports the suggestion of a mechanism in which tumor cells may prevent the effect of a cellular immune response by producing inhibitory levels of prostaglandins. These results also suggest that manipulation of this mechanism can enhance the effectiveness of the lymphocyte response and may be a consideration in assessing lymphocyte/tumor cell interaction in vitro and in vivo.     

Blockade of central beta-adrenergic receptors by tazolol (1-isopropylamino-3-(2-thiazoloxy)-2-propanol).

Tazolol, a β₁-adrenergic agonist in heart, had no intrinsic β-adrenergic agonist activity with respect to cyclic AMP-generating systems in rat cerebral cortical slices or with respect to firing of rat cerebellar Purkinje cells. Instead, tazolol proved to be a relatively potent and specific β-adrenergic antagonist. The IC₅₀ for (±) tazolol in antagonizing (-) isoproterenol-elicited accumulation of cyclic AMP in rat cortical slices was 7 × 10^?7M. The IC₅₀ in antagonizing [³H] dihydroalprenolol-binding in rat cortical homogenates was 2.9 × 10^?7 M. Tazolol was about 10 fold more potent in both cases than the β-antagonist, (±) sotalol. Tazolol antagonized the inhibitory, β-adrenergically mediated effects of iontophoretically applied norepinephrine on firing of cerebellar Purkinje cells. The inhibitory effects of γ-aminobutyric acid on firing of Purkinje cells were not altered by tazolol. Tazolol appeared to lack significant local anesthetic activity as evidenced by its lack of effect on spike height in spontaneous firing Purkinje cells.     

Regulation of purine metabolism adenylosuccinate synthetase from novikoff ascites tumor cells

Adenylosuccinate synthetase has been partially purified from Novikoff ascites tumor cells. The properties of the protein are quite different from the enzyme from rat liver in that the K_m for aspartate is higher and the K_I for the feedback inhibitor AMP is also higher. The antibiotic hadacidin has a preferential inhibitory effect on the tumor enzyme. These results suggest that the Novikoff ascites tumor enzyme is less sensitive to normal feedback controls but may be more sensitive to specific antitumor drugs.     

TLR9-signaling pathways are involved in Kilham rat virus-induced autoimmune diabetes in the biobreeding diabetes-resistant rat

Viral infections are associated epidemiologically with the expression of type 1 diabetes in humans, but the mechanisms underlying this putative association are unknown. To investigate the role of viruses in diabetes, we used a model of viral induction of autoimmune diabetes in genetically susceptible biobreeding diabetes-resistant (BBDR) rats. BBDR rats do not develop diabetes in viral-Ab-free environments, but approximately 25% of animals infected with the parvovirus Kilham rat virus (KRV) develop autoimmune diabetes via a mechanism that does not involve beta cell infection. Using this model, we recently documented that TLR agonists synergize with KRV infection and increase disease penetrance. We now report that KRV itself activates innate immunity through TLR ligation. We show that KRV infection strongly stimulates BBDR splenocytes to produce the proinflammatory cytokines IL-6 and IL-12p40 but not TNF-alpha. KRV infection induces high levels of IL-12p40 by splenic B cells and Flt-3-ligand-induced bone marrow-derived dendritic cells (DCs) but only low levels of IL-12p40 production by thioglycolate-elicited peritoneal macrophages or GM-CSF plus IL-4-induced bone marrow-derived DCs. KRV-induced cytokine production is blocked by pharmacological inhibitors of protein kinase R and NF-kappaB. Genomic KRV DNA also induces BBDR splenocytes and Flt-3L-induced DCs from wild-type but not TLR9-deficient mice to produce IL-12p40; KRV-induced up-regulation of B lymphocytes can be blocked by TLR9 antagonists including inhibitory CpG and chloroquine. Administration of chloroquine to virus-infected BBDR rats decreases the incidence of diabetes and decreases blood levels of IL-12p40. Our data implicate the TLR9-signaling pathway in KRV-induced innate immune activation and autoimmune diabetes in the BBDR rat.     

Mycoplasma contamination revisited: mesenchymal stromal cells harboring Mycoplasma hyorhinis potently inhibit lymphocyte proliferation in vitro

Background

Mesenchymal stromal cells (MSC) have important immunomodulatory effects that can be exploited in the clinical setting, e.g. in patients suffering from graft-versus-host disease after allogeneic stem cell transplantation. In an experimental animal model, cultures of rat T lymphocytes were stimulated in vitro either with the mitogen Concanavalin A or with irradiated allogeneic cells in mixed lymphocyte reactions, the latter to simulate allo-immunogenic activation of transplanted T cells in vivo. This study investigated the inhibitory effects of rat bone marrow-derived MSC subsequently found to be infected with a common mycoplasma species (Mycoplasma hyorhinis) on T cell activation in vitro and experimental graft-versus-host disease in vivo.

Principal Findings

We found that M. hyorhinis infection increased the anti-proliferative effect of MSC dramatically, as measured by both radiometric and fluorimetric methods. Inhibition could not be explained solely by the well-known ability of mycoplasmas to degrade tritiated thymidine, but likely was the result of rapid dissemination of M. hyorhinis in the lymphocyte culture.

Conclusions

This study demonstrates the potent inhibitory effect exerted by M. hyorhinis in standard lymphocyte proliferation assays in vitro. MSC are efficient vectors of mycoplasma infection, emphasizing the importance of monitoring cell cultures for contamination.     

Distinct T-cell proliferative responses to 13762A rat mammary adenocarcinoma and derived clones

We examined the in vitro responses of immune lymphocytes to the tumor antigens of the syngeneic rat mammary adenocarcinoma 13762A. This tumor readily metastasizes to lymph node and lungs and is poorly immunogenic. Rats were immunized with a highly immunogenic clone (18A) which was isolated as a spontaneous variant from the parental 13762A tumor. Clone 18A grew progressively in irradiated rats but regressed completely in normal rats. Animals immune to 18A tumor were also immune to parental 13762A. Lymphocytes obtained from the spleen and peritoneum of immune rats were tested for specific proliferation to parental 13762A tumor and clone 18A to determine whether similar cross-reactivity to these tumors occurred in vitro. We found an anatomical difference in localization of immune lymphocytes which reacted to the two tumor cell lines. Immune peritoneal exudate cells (PEC) responded strongly to clone 18A but poorly to 13762A, while immune spleen cells from the same animals responded predominantly to 13762A tumor. After 7 days culture, PEC proliferating in response to clone 18A contained 84-95% W3/25+ T-helper cells, and only 5-8% OX8+ cytotoxic/suppressor cells, while analogous cultures of spleen cells responding to parental 13762A tumor consisted of 60-80% W3/25+ cells and 20-23% OX8+ cells. Immune spleen cell cultures stimulated with 13762A tumor generated cytotoxic lymphocytes which specifically lysed both parental 13762A and clone 18A cells. We conclude that despite cross-reactivity in vivo and in vitro, antigens present on 13762A and 18A tumor cells stimulated different subsets of immune T cells.     

Aqueous Extract of Gracilaria tenuistipitata Suppresses LPS-Induced NF-κB and MAPK Activation in RAW 264.7 and Rat Peritoneal Macrophages and Exerts Hepatoprotective Effects on Carbon Tetrachloride-Treated Rat

In addition to the previous investigations of bioactivity of aqueous extract of the edible Gracilaria tenuistipitata (AEGT) against H₂O₂-induced DNA damage and hepatitis C virus replication, the purpose of this study is to evaluate the potential therapeutic properties of AEGT against inflammation and hepatotoxicity using lipopolysaccharide (LPS)-stimulated mouse RAW 264.7 cells, primary rat peritoneal macrophages and carbon tetrachloride (CCl₄)-induced acute hepatitis model in rats. AEGT concentration-dependently inhibited the elevated RNA and protein levels of inducible nitric oxide synthase and cyclooxygenase-2, thereby reducing nitric oxide and prostaglandin E2 levels, respectively. Moreover, AEGT significantly suppressed the production of LPS-induced proinflammatory cytokines, including interleukin (IL)-1β, IL-6 and tumor necrosis factor-α. These inhibitory effects were associated with the suppression of nuclear factor-kappa B activation and mitogen-activated protein kinase phosphorylation by AEGT in LPS-stimulated cells. In addition, we highlighted the hepatoprotective and curative effects of AEGT in a rat model of CCl₄-intoxicated acute liver injury, which was evident from reduction in the elevated serum aspartate aminotransferase and alanine aminotransferase levels as well as amelioration of histological damage by pre-treatment or post-treatment of AEGT. In conclusion, the results demonstrate that AEGT may serve as a potential supplement in the prevention or amelioration of inflammatory diseases.     

Inability of gestational hormones to account for the inhibitory effects of pregnancy plasmas on lymphocyte responses in vitro.

Plasma from pregnant women has a marked inhibitory effect on lymphocyte responses in vitro. While much evidence suggests that this is due to an immunologic mechanism, an apparent lack of specificity and the known suppressive effects of several hormones on immune function has led to speculation that the inhibitory effects could be due to increased concentrations of gestational hormones. We have investigated the effects of a wide range of concentrations of estrone, estradiol, estriol, progesterone, human chorionic gonadotropin (HCG), and hydrocortisone on lymphocyte responses to mitogens and allogeneic cells. None of these hormones were capable of inhibiting lymphocyte DNA synthesis even at concentrations several times the maximum physiologic plasma levels occurring during pregnancy. Very high, supraphysiologic concentrations were found to be inhibitory. In investigating the mechanism of the hormonal inhibition we found that if they were removed from the media at various times after initiation of culture, the estradiol, HCG, and to a lesser extent the hydrocortisone effects were all reversible. Estradiol and HCG differed from hydrocortisone in that the former were inhibitory only when added at the initiation of culture, whereas hydrocortisone was inhibitory even when added 24 hr later. In summary, while extremely high concentrations of gestational hormones are inhibitory, the quantities which occur physiologically in gestational plasmas are not able to suppress lymphocyte responses and thus cannot account for their inhibitory effects.     

Adrenal cells in tissue culture. The effect of papaverine and amytal on steroidogenesis, respiration and replication

The smooth-muscle relaxant papaverine has been shown to be a potent inhibitor of cyclic AMP phosphodiesterase activity (Kukovetz, W. R., and Poch, G. (1970) Naunyn Schmiedebergs Arch. Pharmakol.267, 189). Because of this, papaverine was tested in monolayer cultures of functional mouse adrenal cortex tumor cells for possible stimulatory effects on Steroidogenesis. At 10^?5m, papaverine was found to inhibit ACTH-stimulated steroidogenesis 50% and at 10^?4m, > 95%. This was associated with a > 10-fold increase in [¹⁴C]lactate production from [¹⁴C]glucose and a 50% reduction in ³²P_i, incorporation into macromolecules. These findings were similar to those observed with the barbiturate amytal, an inhibitor of the mitochondrial electron-transport chain at the level of oxidation of NADH (Site I). Papaverine was 100 times more effective than amytal in inhibiting steroidogenesis and 1000 times more effective in initiating an increase in glycolysis. In intact tumor cells and mitochondria isolated from normal rat adrenals, papaverine (10^?4m) completely inhibits oxygen uptake supported by malate or α-ketoglutarate. Oxygen uptake is restored by the addition of succinate, suggesting that, like amytal, papaverine inhibits respiration at Site I.Papaverine does not inhibit NADPH-supported cholesterol side-chain cleavage in bovine adrenal acetone powders or 11β-hydroxylation in normal rat adrenal cortex mitochondria. By contrast, amytal inhibits both these activities at concentrations comparable to that effective in intact adrenal cells, suggesting a direct interaction of amytal with cytochrome P-450. Both papaverine and amytal inhibit incorporation of thymidine into nuclear DNA to an extent far greater than that observed with either maximally stimulating levels of cyclic AMP or high concentrations of ACTH. Succinate does not reverse the inhibitory effects of either papaverine or amytal on thymidine incorporation into DNA. Papaverine increases intracellular cyclic AMP in both resting and ACTH-treated cells. However, the effects of papaverine on steroidogenesis, glycolysis, ATP-P_i exchange, and DNA synthesis in adrenocortical cells are not directly attributable to this action.     

Modulation of the immunosuppressive effects of splenic macrophages in Fischer rats bearing adenocarcinoma 13762

Summary The nature of spleen cells in Fischer rats bearing a large size (>1 cm diameter) mammary adenocarcinoma 13762A (MAC) which block the immunostimulating capacities of MTP² (a synthetic immunomodulator) and suppress proliferation in vitro of splenic T and B lymphocytes by their respective mitogens was investigated. Splenic macrophages were recognized as the suppressor cells by (a) restoration of mitogenic responses by depletion of macrophages from spleen cell suspensions and (b) continued suppressor activity in spleen cell suspensions of tumor bearers devoid of viable T lymphocytes. Macrophage contact with T lymphocytes was required for the inhibition of T lymphocyte proliferation by concanavalin A as shown by (a) the absence of suppressor activity in supernatants derived from cultured suppressor macrophages, (b) lowering of the suppressor activity of intact macrophages after treatment with neuraminidase, (c) lowering of the suppressor activity of macrophages by addition of red cells to spleen cultures of tumor bearers indicating red cell interference with macrophage-T cell interaction and (d) lack of inhibiting action of suppressor macrophages on allogenic T lymphocyte proliferation showing macrophage T cell recognition for suppression.Animals bearing a large size tumor exhibited spleen hypertrophy and an increase in macrophage:lymphocyte ratio and a decrease in red cell:lymphocyte ratio. Splenic macrophages did not appear to be implicated in blocking antitumor immunity induction since (a) suppressor macrophages were absent in spleens during the inductive phase of the immune response and (b) MAC implanted in allogenic Wistar rats grew to about 2 cm diameter, induced splenic suppressor macrophages but the tumor was later rejected by the animals. Collectively the results suggest that suppressor macrophages are the result of increasing tumor volume rather than its cause.This study was supported by a grant from the National Cancer Institute of Canada Abbreviations used: Con A, Concanavalin A; LPS, lipopolysaccharide; PHA, phytohemagglutinin; MTP, maltose tetrapalmitate; MAC, mammary adenocarcinoma 13762; RPMI, Roswell Park Memorial Institute; TBR, tumor bearing rat; RBC, red blood cell     

Suppressor factor from tumor-allosensitized spleen cells--its effect on in vitro proliferation of tumor cells and in vivo skin allograft survival

C57BL/6 mice are sensitized ip with allogeneic P-815 mastocytoma cells. Fifteen days later the spleen cells of the sensitized mice are used in the production of suppressor factor or treated with mitomycin and used as suppressor cells. Sensitized spleen cells incubated with the specific alloantigen (DBA/2 m-treated spleen cells) release suppressor factor (SF)² which inhibits cell proliferation in mixed lymphocyte culture (MLC) as well as the in vitro generation of cytotoxic cells (CML). SF is most effective when added eary during MLC. SF also inhibits mitogen responsiveness of normal spleen cells. In addition to inhibiting lymphocyte function in vitro, suppressor cells as well as SF inhibit the in vitro proliferation of tumor cells. This inhibition is specific for the tumor to which the suppressor cells are induced. The inhibition of tumor cell proliferation is not due to the presence of cytotoxic cells in the spleen of the tumor-allosensitized mice. Suppressor cells from neonatal mice do not inhibit the in vitro proliferation of tumor cells. SF injected iv into C57BL/6 mice decreases the mixed lymphocyte reactivity of the host spleen cells and decreases the ability of the host to reject skin allografts. We interpret these data to suggest that tumor-allosensitized spleen cells, and the SF they produce, not only affect lymphocyte function but also inhibit tumor cell proliferation. This dual effect of suppressor cells could be an important part of the immune surveillance against tumors.     

In Vivo Rescue of a Silent tax-Deficient Bovine Leukemia Virus from a Tumor-Derived Ovine B-Cell Line by Recombination with a Retrovirally Transduced Wild-Type tax Gene

The lack of bovine leukemia virus (BLV) expression is a consistent finding in freshly isolated ovine tumor cells and in the B-cell lines derived from these tumors. In order to gain further insight into the mechanisms of BLV silencing in these tumors, we have used the YR2 B-cell line, which was derived from the leukemic cells of a BLV-infected sheep. This cell line contains a single, monoclonally integrated, silent provirus, which cannot be reactivated either by stimulation in vitro or by in vivo injection of the tumor cells or cloned proviral DNA in sheep. Sequence analysis of the tax gene from the YR2 cell line identified two G-to-A transitions (G₇₉₂₄ to A₇₉₂₄ and G₈₁₄₉ to A₈₁₄₉) that result in E-to-K amino acid changes at positions 228 and 303 in the Tax protein. Following retroviral vector-mediated transfer of a wild-type tax gene into YR2 cells, we showed that BLV mRNA, viral proteins, and virions were produced, demonstrating that the cellular factors required for virus expression were present in the original YR2 cell line. Injection of this transduced YR2 cell line in sheep led to the rescue of replication-competent BLV proviruses. The integrated competent proviruses exhibited unique chimeric tax genes, which arose from homologous recombination between the transduced wild-type tax and the YR2-derived tax sequences. Furthermore, in one of these functional recombinant proviruses, only the A₈₁₄₉-to-G₈₁₄₉ reversion was present, providing clear evidence that the defect underlying the silent phenotype in YR2 cells results from a single C-terminal E₃₀₃-to-K₃₀₃ amino acid substitution in the BLV Tax protein. Our observations suggest that a single strategically located mutation in tax provides a mechanism for BLV inactivation in B-cell tumors.     

Characterization of the Kilham Rat Virus

Kilham rat virus (KRV) was found to grow in a rat nephroma cell line and to form plaques on secondary rat embryo monolayers. The virus was purified by enzymatic treatment and isopycnic cesium chloride sedimentation. KRV bands at a density of 1.41 g/cm(3) in cesium chloride. It contains about 26.5% deoxyribonucleic acid (DNA). The sedimentation coefficient S(20,w) in sucrose gradients was 122 corresponding to a molecular weight of 6.6 x 10(6) daltons. The reaction of formaldehyde with the KRV virion suggests that the DNA in situ is single-stranded. DNA extracted from KRV had a buoyant density of 1.715 g/cm(3) in cesium chloride. The S(20,w) was determined in sucrose gradients to be 16, and the molecular weight was calculated to be approximately 1.7 x 10(6) daltons. The base composition of the DNA is 26.7% adenine, 30.8% thymine, 20.0% guanine, and 22.5% cytosine. On the basis of its noncomplementary nucleotide ratio, melting curve, and the reaction with formaldehyde, the DNA of KRV is believed to be single-stranded.