Genetic Analysis of LigA, LipL32, Loa22, and OmpL1 Antigens from Leptospira spp. Sejroe Serogroup: How Close We Are To a Vaccine Against Bovine Leptospirosis?

Bovine leptospirosis has as main causative agents Leptospira spp. from Sejroe serogroup. Vaccination is a crucial step to control this infection. The use of conserved proteins among Leptospira spp. is of great importance for a protective immune response. The aim of the present study is to genetically analyze antigens of Leptospira spp. from Sejroe serogroup strains isolated from cattle for a preliminary evaluation of vaccine candidates. Genes associated with antigenicity-LigA, LipL32, Loa22, and OmpL1-were analyzed through bioinformatic and immunoinformatic tools. Despite high diversity observed in strains, on an amino acid level, highly conserved regions were observed (> 90%), particularly in LipL32 gene. Moreover, highly conserved amino acid regions (> 30 aa) were observed in all genes, regardless of species, geographical origin or biological source of isolation. Superposed structures of protein fragments including all the predicted MHC-II and B-Cell epitopes were demonstrated. Results presented herein are preliminary, but a fundamental step towards the development of an efficient vaccine against bovine leptospirosis, a silent but enormously concerning disease.

Molecular Epidemiology of Pathogenic Leptospira spp. Infecting Dogs in Latin America.

Canine leptospirosis is a bacterial disease caused by spirochetes of the genus Leptospira. Infections can vary from asymptomatic and chronic infections to clinical acute diseases. The disease is endemic in tropical areas, such as Latin American countries, but a broad understanding of the dynamics of circulation of strains, based on molecular data, has not yet been performed. Based on in silico analyses, the present study aims to analyze the genetic diversity and circulation patterns of haplotypes from pathogenic leptospires infecting dogs in Latin America. DNA sequences were obtained from GenBank platform, curated, and aligned. Genetic distances were calculated, and a maximum likelihood tree and haplotype network were constructed. According to the inclusion criteria adopted, a total of 148 sequences were identified. Most of the records were from Brazil, including sequences from L. interrogans serogroup Icterohaemorrhagiae. Phylogenetic analysis showed a genetically closely related cluster, consisting of a larger haplogroup that includes the reference strain Fiocruz L1-130, known to be the major circulating strain in humans. Moreover, no genetic variations were observed according to clinical history and/or geographical localization. We described the molecular epidemiology of leptospires circulating among dogs in Latin America and demonstrated a very genetically homogeneous group, elucidating its ubiquitous circulation pattern and drawing attention to the important role of dogs in the One Health transmission dynamics of leptospirosis.

Pinnipeds carriers of pathogenic Leptospira: New data based on molecular characterization.

Leptospirosis is a bacterial disease caused by the infection of pathogenic strains of the genus Leptospira, endemic in tropical and subtropical regions. Although well documented in terrestrial animals and humans, little information is available on its distribution and impact on marine animals. Despite clinical manifestations that may occur, the occurrence of carriers was suggested in some species. Nevertheless, there are few studies regarding the infection by Leptospira sp. in marine mammals. In this context, and considering the One Health approach, the present aimed to investigate pinnipeds' role as Leptospira sp. carriers. Kidneys of 47 pinnipeds of two species, Arctocephalus australis (n = 40) and Arctocephalus tropicalis (n = 7) were collected. DNA was extracted and the diagnosis was performed through LipL32-PCR and genetic characterization based on secY gene sequencing. Phylogenetic analysis and haplotype networks were constructed. Pathogenic Leptospira sp. DNA was detected in 31.9% (15/47) of the tested pinnipeds. It was possible to amplify and sequence eight strains (6 for A. australis, 2 for A. tropicalis), all identified as L. interrogans, with high similarity with sequences from Icterohaemorrhagiae serogroup. Phylogenetic analysis revealed sequences from the present study grouped in species-specific unique clusters, but very close to others from humans, wild animals, and domestic animals. We demonstrate that pinnipeds could act as carriers, and play an important role in leptospirosis dynamics.

Leptospira spp. strains associated with Bovine Genital Leptospirosis (BGL).

Bovine Genital Leptospirosis (BGL) is an important syndrome that leads to reproductive failures. The present study aimed to perform a molecular analysis of Leptospira spp. identified from genital and urine samples from in vivo naturally infected cows with poor reproductive performance. A total of 48 cows destined for culling due to low reproductive efficiency were selected and submitted to sampling. Uterine fragments, cervicovaginal mucus (CVM), and urine were collected from all of the cows and processed for culturing and PCR. One isolate was recovered from the uterus of one cow. Other 25 animals were PCR-positive, totaling 26 positive cows. Of them, 18 animals were positive in lipL32-PCR to genital samples, while only seven animals were positive in urine. From those, sequencing of secY gene was performed. Of the 21 good sequences obtained, 16 were L. interrogans, two were L. noguchii, two were L. santarosai and one was L. borgpetersenii. In order to evaluate the genetic similarity of sequences found herein and other sequences from bovines worldwide, a phylogenetic analysis and haplotype networks were performed. Cows with reproductive failures had a significant association (p < 0.05) with positive PCR of genital samples when compared to PCR of urine. None of the animals were positive for genital samples and urine simultaneously. A high diversity of leptospiral strains were found, even in animals of the same epidemiological region. Haplotype networks of L. interrogans showed clusters of sequences from the uterus and CVM with high similarity to other genital sequences originating from previous studies. L. borgpetersenii haplotype networks presented two major clusters with high similarity, even from worldwide sequences, while L. santarosai showed clusters with high genetic distances, even with all the sequences being from Brazil. This study reinforces the theory that BGL and renal infection are distinct diseases, as well as, genital samples are crucial for the diagnosis of cows with reproductive failures caused by leptospires. In addition, haplotype networks confirmed a high genetic similarity between sequences from the present study and Sejroe strains, reinforcing Sejroe strains as the main BGL agents.