Lack of association between amino acid sequences of the bovine leukemia virus envelope and varying stages of infection in dairy cattle

Phylogenetic analysis of the partial sequences of the env and tax BLV genes reveals the presence of genotypes 1 and 3 in dairy herds of Antioquia, Colombia

Bovine leukemia virus (BLV) is a retrovirus that primarily infects dairy cows. Although few studies have also used the tax gene, phylogenetic studies of BLV use mostly the env gene. The aim of this work was to establish the circulating genotypes of BLV in specialized dairy cattle from Antioquia, Colombia. Twenty blood samples from Holstein Friesian cows were collected, and their DNA was isolated. A PCR was performed for a partial region of the env and tax genes. A phylogenetic analysis was carried out using the maximum likelihood and Bayesian methods for both genes. Nineteen sequences were identified as genotype 1 by env and tax genes. Only one sequence was clustered with genotype 3 and had the highest proportion of different nucleotide sites compared to other strains. Four amino acid substitutions in the 134 amino acid residue fragment of the Env protein were identified in the Colombian sequences, and three new amino acid substitutions were reported in the 296 amino acid residue fragment of the Tax protein. R43K (Z finger), A185T (Activation domain), and L105F changes were identified in the genotype 3 sample. This genotype has been reported in the United States, Japan, Korea, and Mexico, but so far, not in Colombia. The country has a high rate of imported live animals, semen, and embryos, especially from the United States. Although it is necessary to evaluate samples from other regions of the country, the current results indicate the presence of two BLV genotypes in specialized dairy herds.

Study of the Genetic Expression of Antiretroviral Restriction Factors and Acute Phase Proteins in Cattle Infected with Bovine Leukemia Virus

The goal of this study was to analyze the genetic expression of antiretroviral restriction factors (ARF) and acute phase proteins (APP), as well as their correlation with proviral and viral loads in cattle with aleukemic (AL) and persistent lymphocytosis (PL). Complete blood samples were collected from a herd of dairy cows, and we extracted genetic material from peripheral blood leukocytes. Absolute quantification of the expression of ARF (APOBEC-Z1, Z2, and Z3; HEXIM-1, HEXIM-2, and BST2) and APP (haptoglobin (HP), and serum amyloid A (SAA)) was performed by qPCR. Statistical significance was observed in the expression of APOBEC-Z3 in BLV-infected animals. We only found positive correlations with a strong expression of the ARF genes in the AL group. The participation of APOBEC (Z1 and Z3), HEXIM-1, and HEXIM-2 was more frequently identified in BLV-infected animals. HEXIM-2 showed active gene expression in the AL group. Although the expression of ARF in early stages of infection (AL) maintains an important participation, in late stages (PL) it seems to have little relevance.

Genetic analysis of the pX region of bovine leukemia virus genotype 1 in Holstein Friesian cattle with different stages of infection

The pX genetic region of bovine leukemia virus (BLV) includes four genes with overlapping reading frames that code for the Tax, Rex, R3, and G4 proteins. These proteins are involved in the regulation of transcriptional and post-transcriptional viral expression, as well as having oncogenic potential. Our goal was to investigate the pathogenicity of the pX region of BLV genotype 1 in terms of lymphocytosis, lymphomas, and proviral DNA load. We screened 724 serological samples from mixed-age Holstein Friesian cattle from six states in Mexico. Peripheral blood leukocytes (PBLs) were isolated from whole blood with anticoagulant, and genomic DNA was extracted from the PBLs using a commercial kit. Then, a set of primers that hybridize in conserved regions of the BLV pX region were used, which allowed for PCR standardization to detect proviral DNA in infected cells. Positive amplicons were sequenced using the Sanger method, resulting in 1156-nucleotide-long final sequences that included the four pX region genes. The experimental group consisted of 30 animals. Twelve of these had lymphocytosis, six had lymphoma, and 12 were apparently healthy cattle without any signs of lymphocytosis or lymphoma. The presence of lymphoma was detected in six bovine tumor tissues using histopathology, and the presence of BLV was detected by in situ hybridization. Phylogenetic analysis demonstrated that the 30 sequences were associated with genotype 1, and the genetic distance between the sequences ranged from 0.2% to 2.09%. We identified two sequences in the G4 gene: one with a three-nucleotide deletion resulting in the loss of a leucine (AGU_7488L, in a cow with lymphocytosis), and one with a nine-nucleotide deletion resulting in the loss of leucine, proline, and leucine (AGU_18A, in a cow without lymphocytosis). Analysis of the PX region indicated that positive selection had occurred in the G4, rex, and R3 genes, and we found no difference in proviral DNA load between the studied groups. We were unable to establish an association between variations in the pX region and the development of lymphocytosis, lymphoma, asymptomatic status, or proviral DNA load in BLV-infected cattle.