Stability of bovine leukemia virus antigens.

Stability of bovine leukemia virus glycoprotein 51 and nonglycosylated protein 24 antigens was examined under various conditions. The glycoprotein antigen was unstable at 56 degrees C and 37 degrees C and at acidic and basic pH. The specificity of the glycoprotein 51 antigen was reduced to half by the first treatment with ethyl ether, but was not decreased further by repeated treatments. This antigen was not inactivated with triton X-100 and was resistant to lyophilization as well as to freezing and thawing. The protein 24 antigen was generally very stable under all conditions tested.     

Evidence for transmission of bovine leukemia virus by rectal palpation in a commercial dairy herd

The risk of Bovine Leukemia Virus (BLV) transmission by rectal examination was determined over 22 months in a commercial dairy herd. All 167 BLV seronegative cattle, of breeding age or greater, were divided randomly into two groups and identified by neck-chain color. In the treatment group, routine rectal palpation occurred after a BLV infected animal and without a change of sleeve, while in the other group, palpation occurred in a similar manner with the exception that sleeves were changed between animals. When BLV seronegative cattle in either group were palpated after BLV infected cattle, the event and identification of the cattle involved were recorded. Serologic testing was performed eight times during the 22 month study to determine the number of animals that became infected following a palpation (an event). Thirty-one animals seroconverted during the study; 24 in the treatment (no sleeve change) group and seven in the sleeve change group. Sixteen of the animals in the treatment group that seroconverted had been palpated prior to their seroconversion. A hazard ratio (relative risk) for BLV seroconversion was determined between the two groups. Cows palpated with no sleeve change had a 2.8-fold increase in risk (confidence interval 1.1–6.8) of BLV infection. The increased risk of BLV infection associated with rectal palpation may have been affected by the presence of some highly infectious cows in the herd. This study confirms that rectal palpation without a change of sleeve may be a significant risk factor in some herds, and if efforts are made to decrease the spread of BLV in a herd, the potential for rectal sleeve transmission must be considered.     

Inactivation of bovine leukemia virus-infected lymphocytes in milk

The survival of bovine leukemia virus (BLV)-infected lymphocytes in milk was studied to determine whether treatments similar to those on a dairy farm would inactivate BLV. Bovine leukemia virus was found in milk stored for 72 hours at 1.1 C (34 F); milk constituents, such as protein, total solids, minerals, fat, and somatic cell concentration did not affect the presence of BLV. Infectivity also was found in the cream layer of milk. Pasteurization at 63 C for 30 minutes did inactivate BLV-infected lymphocytes.     

Vertical transmission of bovine leukemia virus and bovine immunodeficiency virus in dairy cattle herds.

Vertical transmission of bovine leukemia virus (BLV) and bovine immunodeficiency virus (BIV) was investigated in five dairy cattle herds in Hokkaido, where 36.1 and 17.0% of cattle were BLV and BIV seropositive, respectively, and 9.9% of dams were co-infected with both BIV and BLV. Twenty six cases of offspring born from dams infected with only BLV (17 cases) or with both BIV and BLV (9 cases) were examined for the presence of BLV and BIV before and after colostrum feeding by polymerase chain reaction (PCR) and syncytium assay. After birth, all calves were separated immediately from their dams. The offspring born from BLV-positive dams were BLV-negative before colostrum feeding, suggesting that no transplacental transmission had occurred. Thereafter, these offspring were fed colostrum or milk from their dams, but still remained BLV-negative. The other offspring born from BLV-positive dams were fed with BLV-negative colostrum, or with pasteurized BLV-positive colostrum. All these calves remained negative for BLV infection, suggesting that in utero transmission of BLV is negligible. In the case of offspring born from dams co-infected with BLV and BIV, calves were BIV-positive before colostrum feeding at 1 day after the birth, indicating in utero transmission of BIV. After colostrum feeding from their dams, newborn calves became BLV-positive. In addition, one calf was BLV-positive even before colostrum feeding. These results suggest that BIV can be transmitted to offspring in utero, and that BLV can be transmitted through colostrum or milk if dams are infected with both BIV and BLV.     

Seroprevalence of bovine immunodeficiency-like virus and bovine leukemia virus in a dairy cattle herd.

To determine the prevalence of single vs. dual infection with bovine immunodeficiency virus (BIV) and bovine leukemia virus (BLV), sera (n = 95) from a dairy cattle herd were analyzed for anti-BIV and anti-BLV antibodies by an enzyme linked immunosorbent assay. Twenty-one percent (20/95) of samples were BIV-seropositive, while 52% (49/95) of the same samples were BLV-seropositive. A significantly greater percentage of BIV-seronegative samples were BLV-seropositive, 57% (43/75), than were BIV-seropositive samples, 30% (6/20). There was no significant correlation between data ranked from least to greatest amount of anti-viral antibody. Five cattle had persistent lymphocytosis (PL); all five were BLV-seropositive and two were BIV-positive. The mean anti-BLV titer was significantly greater in PL cattle, as compared at non-PL cattle, whereas there was no significant difference between the mean anti-BIV titer in PL cattle, as compared with non-PL cattle. These results provide additional information on the seroprevalence of naturally occurring BIV infection, and indicate that BIV can exist independent of other common infectious agents, such as BLV. Further, the results suggest that infection with BIV is not associated with an increased rate of infection with other infectious agents such as BLV.     

Enumeration of T and B lymphocytes in bovine leukemia virus-infected cattle, using monoclonal antibodies

Monoclonal antibodies and microfluorimetry were used to determine the absolute number of B and T lymphocytes in the blood of bovine leukemia virus (BLV)-infected cows. The blood lymphocyte populations from BLV-infected cows were significantly higher than those from BLV-negative cows. The increase in the lymphocyte population in 3 BLV-infected nonlymphocytotic cows was attributed to a significant increase in the number of T lymphocytes; in 3 BLV-infected persistently lymphocytotic cows, the increase was attributed to a significant increase in the number of B and T lymphocytes. One persistently lymphocytotic cow had a high lymphocyte count, and lymphocytes from this cow contained cells that appeared to stain with markers specific for bovine B and T lymphocytes. We concluded that infection of cattle with the B-cell lymphotropic retrovirus, BLV, not only affected B cells, but also T cells.     

Detection of bovine leukemia virus by syncytium assay.

When various indicator cells, including virus transformed and nontransformed cells, were cocultivated with bovine leukemia virus-producing cells, strong positive syncytia formation was found in transformed cells one day after cocultivation. The results of comparison of bovine leukemia virus antibody titers and the detection of bovine leukemia by the syncytium assay showed 89% of serologically positive cows were positive for bovine leukemia virus, whereas no reactors were found in serologically negative cows. However, the frequency of bovine leukemia virus detection differed according to the difference of incubation periods in the syncytium assay. Therefore, it is important to choose the appropriate indicator cell and culture conditions for the detection of bovine leukemia virus in the syncytium assay.     

Ki-67 antigen expression in lymphocytes of cattle infected with bovine leukemia virus (BLV).

The Ki-67 monoclonal antibody, which recognizes an antigen present on the nuclear membrane surface of mammalian cells in the replication phase, has been used for the determination of the cellular cycle of peripheral blood lymphocytes on a group of cattle positive for bovine leukemia virus (BLV) and with blood values showing a persistent lymphocytosis. The results obtained have shown that: 1. Both of the techniques used (immunofluorescence and immunoperoxidase) are easily applicable and give uniform results; 2. Cattle with a persistent lymphocytosis show an absolute number of cells in cycle significantly more elevated compared with cattle positive for BLV with normal blood values.     

A microculture syncytia assay for bovine leukemia virus

A microculture syncytia assay for the detection of bovine leukemia virus (BLV) has been described and compared with the conventional macroculture assay. The microculture assay required fewer indicator cells, was as sensitive as the macroculture assay and provided a reproducible test for the detection and titration of BLV.     

Seroprevalence of bovine immunodeficiency virus and bovine leukemia virus in draught animals in Cambodia

Since bovine immunodeficiency virus (BIV), known as bovine lentivirus, has been detected in dairy and beef cattle in various countries around the world, a prevalence study of antibodies to BIV and bovine leukemia virus (BLV) was conducted in draught animals in five provinces in Cambodia, where protozoan parasite infections were suspected in some animals. To clarify the status of draught animals including Haryana, Brahman, mixed-breed, local breed cattle and muscle water buffaloes, a total of 544 cattle and 42 buffaloes were tested, and 26.3 and 16.7%, respectively, were found positive for anti-BIV p26 antibodies determined by Western blotting. There were 5.3% positive for anti-BLV antibodies detected by immunodiffusion test among the cattle, but no reactors among buffaloes and no dual infection for both BIV and BLV was determined in this study. Peripheral blood mononuclear cells from BIV-seropositive cattle were found to have BIV-provirus DNA, as detected by polymerase chain reaction and subsequent Southern blot hybridization. This is the first evidence for the presence of BIV and BLV infections in draught animals in tropical countries such as Cambodia. This wide distribution of BIV suggests its association with problems in animal health as reported worldwide, and that a primary BIV infection can predispose death of affected animals by other aggressive pathogens or stresses.     

Serological diagnosis of infection with the putative bovine leukemia virus.

We report on an accurate, rapid and inexpensive test for the identification of animals infected with the Bovine C-type virus (BLV). The test involves the detection of serum antibodies to BLV using the immunofluorescent (IF) technique on acetone-fixed, infected cells. The specificity of the test was demonstrated by the fact that virus was found by electron microscopy in 90% of cattle showing positive reactions. In contrast, virus was not found despite extensive examination in antibody negative animals. Thus, the presence of IF antibody is an accurate indicator of current rather than past BLV infection. In order for the IF test to be specific it is of critical importance that the target cells used are infected only with BLV. BLV antibodies can also be detected by the immunoprecipitation (Ouchterlony) technique. However, a significant proportion of BLV infected animals showing positive reactions in the IF test failed to show precipitin antibodies to the virus. Likewise, BLV infection was demonstrated by both the IF test and electron microscopy in many animals with persistently normal levels of blood lymphocytes. Thus, neither the precipitin test nor the blood lymphocyte count (Bendixen's key) can be used to rule out BLV infection.     

S-phase evaluation with bromodeoxyuridine in lymphocytes from cattle infected with bovine leukemia virus (BLV)

Bromodeoxyuridine (BrdUrd), an analogue of thymidine, can be detected by means of monoclonal antibodies and utilized as a marker of the S-phase. In this paper a determination of the S-phase in BLV+ cattle with lymphocytosis has been performed by incorporating bromodeoxyuridine in the DNA. This evaluation was compared to the DNA content, demonstrating that i) bromodeoxyuridine incorporation is a reliable marker of S-phase in BLV+ cattle with lymphocytosis and ii) cytofluorimetry is the method of choice, together with immunocytochemistry, to demonstrate bromodeoxyuridine incorporation.     

The role of virus dose in experimental bovine leukemia virus infection in sheep.

Twenty-four, six month old lambs were assembled into four groups of five animals each and one group of four animals. All groups were inoculated with lymphocytes from a single donor lamb infected with bovine leukemia virus. The inoculum varied from 250 to 250,000 lymphocytes, in tenfold increments. Animals were exposed by intradermal injection in the neck region immediately anterior to the left shoulder joint. All groups were monitored at 0, 3, 7 and 12 weeks after inoculation using the following procedures: a. Syncytia induction assay for detection of bovine leukemia virus in peripheral blood lymphocytes. b. Agar gel immunodiffusion against the gp51 antigen of bovine leukemia virus for the detection of antibovine leukemia virus gp51 antibody. c. Lymphocyte stimulation test for the assessment of cell-mediated immunity using mitogen, nonfractionated bovine leukemia virus antigen, and partially purified bovine lymphoma tumor-associated antigen for the in vitro activation of lymphocytes from bovine leukemia virus-inoculated and sham-inoculated, control animals. d. Routine hematological techniques for the assessment of total leukocyte and lymphocyte counts. The median infectious dose for lymphocytes from the single bovine leukemia virus-infected donor used in this study was determined to be 2000 cells. The syncytia induction assay detected more infected individuals (13/23) at an earlier time than did the agar gel immunodiffusion assay (10/23). Using either serological or virus isolation techniques, infected animals were first detected at three weeks postinoculation in the group receiving the high-dose inoculum and at seven weeks postinoculation in groups receiving low- or medium-dose inocula.(ABSTRACT TRUNCATED AT 250 WORDS)     

An immunoblotting procedure for detection of antibodies against bovine leukemia virus in cattle.

A sensitive protein immunoblotting (Western blot) procedure has been developed for detecting anti-BLV antibodies in cattle sera. The antibodies against most of the major viral proteins could be detected. This procedure does not give any non-specific background staining and there is absence of any erroneous results due to utilisation of purified viral preparations. The procedure has been applied for detection of antibodies to BLV in a set of 74 sera samples and it has been compared with other commonly used serological tests like ELISA and agar gel immunodiffusion test.