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There is a need to develop new effective immunoadjuvants for prophylactic or therapeutic vaccines against intracellular pathogens. The activation of Rho GTPases by bacterial cytotoxic necrotizing factor 1 (CNF1) elicits humoral protective responses against protein antigens. Here, we set out to investigate whether CNF1 activity initiates humoral immunity against co-administered parasite antigens and anti-microbial immune signaling. We report that co-administration of wild-type (WT) CNF1 with Leishmania (L.) promastigote antigens at the nasal mucosa triggered prophylactic and curative vaccine responses against this parasite. Vaccination of the mucosa with promastigote lysate antigens combined with WT CNF1 conferred protection against high inoculum L. infantum infection, which reached 82% in the spleen. Immune parameter analysis by antigen recall indicated robust T-helper (Th)1 polarization of immune memory cells, with high IL-2 and IFN-γ production combined with decreased IL-4 production. Additionally, we explored the curative effect of WT CNF1 on previously infected animals. We observed that PL combined with WT CNF1, but not the inactive C866S mutant CNF1 (mCNF1), induced a 58% decrease in the parasite burden in the spleen.

The surface of Leishmania spp. presents glycoprotein 63 (GP63), a metalloprotease that acts as one of the parasite's major antigens. A vaccine against leishmaniasis has not yet been developed and stationary phase promastigotes have utmost importance in transmitting Leishmania spp. from phlebotomine sand fly to humans or reservoirs. Therefore, this study aimed to analyze GP63 protein in three different Leishmania spp. to determine new vaccine candidate antigen against leishmaniasis using sequencing data of locally detected Leishmania strains and in silico approaches. The GP63 protein sequences of the stationary phase/amastigote form of L. infantum, L. major, and L. tropica were identified and then the gene encoding GP63 protein in Leishmania positive samples (n:59) was amplified and sequenced for variation analysis. According to the results, 4, 6, 19 GP63 variants were found within L. infantum, L. major, and L. tropica isolates, respectively. The most prevalent variants within each species were selected for further analysis using in silico approaches. Accordingly, all selected GP63 proteins were antigenic and the amount of B and T cell epitopes were 23 for L. infantum, 10 for L. major, and 9 for L. tropica. The analysis of each epitope showed that all of them were non-toxic, non-allergen, and soluble but had different antigenicity values. Among these epitopes, EMEDQGSAGSAGS associated with L. major, STHDSGSTTC and AEDILTDEKRDILRK epitopes associated with L. infantum had the highest antigenicity values for B cell, MHC-I, and MHC-II epitopes, respectively. Moreover, conserved epitopes were detected among two or three Leishmania species. This study detected many epitopes that could be used in vaccine studies and the development of serological diagnostic assays.

The detection of Leishmania tarentolae in sympatric areas where Leishmania infantum is endemic raised questions regarding the protective effect exerted in dogs by L. tarentolae when in coinfection. This study aimed monitoring the in vitro gene expression of pro- (IFN- γ; TNF-α; IL-12) and anti-inflammatory (IL-4; IL-6; IL-10) cytokines in primary canine macrophages infected by L. tarentolae and L. infantum in single and in co-infections. Macrophages differentiated from dog blood mononuclear cells were infected with the L. tarentolae field-isolated (RI-325) and laboratory (LEM-124) strains, with L. infantum laboratory strain (IPT1), or both. Infection and the number of amastigotes per infected cell were evaluated microscopically by counting a total of 200 cells between 4 and 96 h. Cytokine gene expression was analyzed by real-time PCR from infected macrophages mRNA. Single infections presented higher expression of the cytokines IL-4 and IL-6, and lower of IL-12. Co-infections induced a lower gene expression of IL-4 and IL-6, and a higher gene expression of IL-12, correlating with the low amastigote burden despite the slight increase of infected cells. Data highlight the potential protective effect of L. tarentolae against L. infantum in co-infection by the reduced anti-inflammatory and increased pro-inflammatory cytokines gene expression, opening new perspectives for a canine vaccine development exploiting the non-pathogenic L. tarentolae .

L. donovani and L. infantum infections are associated with a broad clinical spectrum, ranging from asymptomatic cases to visceral leishmaniasis (VL) with high mortality rates. Clinical manifestations such as post-kala-azar dermal leishmaniasis (PKDL) and visceral leishmaniasis-associated hemophagocytic lymphohistiocytosis-mimic (VL-associated HLH-mimic) further contribute to the diversity of clinical manifestations. These clinical variations are intricately influenced by the complex interplay between the host’s immune response and the parasite’s escape mechanisms. This narrative review aims to elucidate the underlying immunological mechanisms associated with each clinical manifestation, drawing from published literature within the last 5 years. Specific attention is directed toward viscerotropic Leishmania sinfection in patients with inborn errors of immunity and acquired immunodeficiencies. In VL, parasites exploit various immune evasion mechanisms, including immune checkpoints, leading to a predominantly anti-inflammatory environment that favors parasite survival. Conversely, nearly 70% of individuals are capable of mounting an effective pro-inflammatory immune response, forming granulomas that contain the parasites. Despite this, some patients may experience reactivation of the disease upon immunosuppression, challenging current understandings of parasite eradication. Individuals living with HIV and those with inborn errors of immunity present a more severe course of infection, often with higher relapse rates. Therefore, it is crucial to exclude both primary and acquired immune deficiencies in patients presenting disease relapse and VL-associated HLH-mimic. The distinction between VL and HLH can be challenging due to clinical similarities, suggesting that the nosological entity known as VL-associated HLH may represent a severe presentation of symptomatic VL and it should be considered more accurate referring to this condition as VL-associated HLH-mimic. Consequently, excluding VL in patients presenting with HLH is essential, as appropriate antimicrobial therapy can reverse immune dysregulation. A comprehensive understanding of the immune-host interaction underlying Leishmania infection is crucial for formulating effective treatment and preventive strategies to mitigate the disease burden.

The aim of this study was to determine the efficacy of a Leishmania candidate vaccine administered to dogs kept in an open-kennel under controlled conditions and naturally exposed to the sand fly vector, Phlebotomus spp. during three sand fly seasons. One hundred, male (n = 47) and female (n = 53) healthy and fully vaccinated with all mandatory vaccines Beagle dogs, aged 6 to 10 months old, were enrolled and randomly allocated to two treatment groups: (i) vaccinated (n = 50) and (ii) control (n = 50). Vaccination consisted of three primary vaccinations (days 0, 21 and 42), during which dogs remained at a Biosafety Level 2 (BL-2) facility protected from the sand flies, followed by two annual boosters during the exposure phase. General health of the animals was observed daily, while bone marrow aspirates, whole blood and serum samples were collected every 3 months. Molecular, serological testing for Leishmania infection detection, as well as complete blood counts were routinely performed. Levels of γ-IFN were measured prior to and after annual boosters. At the end of the study the dogs were euthanized, and necropsies performed. Six (12 %) vaccinated and 18 (36 %) control dogs were characterized as “diseased” (i.e., qPCR/parasitology positive + ≥1 clinical/laboratory sign of leishmaniosis) at the end of the study (Odds Ratio (OR): 0.240 [0.084–0.686]; p = 0.0084). Parasitic load was up to 825 copies in 1 mL of bone marrow of vaccinated dogs, while up to 4,407 copies in the controls. Antibodies against the parasite were detected in both groups, while also gross lesions were recorded during necropsies. Overall, the candidate vaccine was safe and demonstrated comparable potential in preventing the development of clinical leishmaniosis in dogs. •Leishmania candidate vaccine reduced parasitic load and disease progression.•12 % of vaccinated and 38 % of control dogs were “diseased” at the end of the study.•Vaccine proved safe and effective, compared to other licensed Leishmania vaccines.

Leishmaniasis are zoonosis widely spread in Brazil, caused by the protozoan of the genus Leishmania, which includes several species. The disease manifests itself in the visceral or tegumentary form, and the main reservoir is the dogs. Manaus is the largest city in the Brazilian Amazon region, and despite the importance of the municipality, practically nothing is known about leishmaniosis in humans and animals. The objective of this study was to evaluate the occurrence and risk factors associated with the presence of Leishmania infantum in domiciliated dogs from Manaus. Molecular (polymerase chain reaction) and serological (immunofluorescent antibody test) methods were used as an indication of the circulation of the parasite. Blood samples for 154 domiciled dogs were obtained, and prevalence ratio and analysis of the variables were performed. Serum antibodies anti-Leishmania spp. were detected in 20.8% (95% CI: 14.4%–27.2%). Access to the street and zone of residence (P < 0.01) were associated with higher seropositivity. Molecular diagnosis for L. infantum detected positivity in 60 (39%) of the 154 (95% CI: 31.3%–46.7%) animals, and the variables street access, contact with dogs, and zone of residence were associated with higher frequencies of positivity (P < 0.05). Both serology and molecular diagnosis detected positive dogs in the municipality. This is the first description of the circulation of L. infantum infecting dogs in Manaus. As the municipality is classified as nonendemic, studies of isolation and characterization of the isolate must be done urgently.

Because domestic dogs are reservoir hosts for visceral leishmaniasis (VL) in Brazil, one of the approaches used to reduce human disease incidence is to cull infected dogs. However, the results of controlled intervention trials based on serological screening of dogs and killing of seropositive animals are equivocal. A prophylactic vaccine to protect dogs from being infectious to the sand fly vector could be an effective strategy to provide sustained control. Here, we investigated whether a currently licensed commercial subunit rA2 protein-saponin vaccine (Leish-tec®) had an additional effect to dog culling on reducing the canine infectious populations. This prospective study was conducted in an L. infantum highly endemic area of southeast Brazil. At the onset of the intervention, all of the eligible dogs received through subcutaneous route a three-dose vaccine course at 21-day intervals and a booster on month 12. For the purpose of comparison, newly recruited healthy dogs were included as the exposed control group. To ascertain vaccine-induced protection, dogs were screened on clinical and serological criteria every 6 months for a 2-year follow-up period. Antibody-based tests and histopathological examination of post-mortem tissue specimens from euthanized animals were used as a marker of infection. The standardized vaccine regime, apart from being safe, was immunogenic as immunized animals responded with a pronounced production of anti-A2-specific IgG antibodies. It should be noted the mean seroconversion time for infection obtained among immunized exposed dogs (~ 18 months), which was twice as high as that for unvaccinated ones (~ 9 months). After two transmission cycles completed, the cumulative incidence of infection did differ significantly (P = 0.016) between the vaccinated (27%) and unvaccinated (42%) dogs. However, the expected efficacy for the vaccine in inducing clinical protection was not evident since 43% of vaccine recipients developed disease over time. Our estimates also indicated that immunoprophylaxis by Leish-tec® vaccine in addition to dog culling might not have an impact on bringing down the incidence of canine infection with L. infantum in areas of high transmission rates. Leish-tec® as a prophylactic vaccine showed promise but needs to be further optimized to be effective in dogs under field conditions, and thereby positively impacts human incidence.

Canine leishmaniosis (CanL) is caused by the parasite Leishmania infantum and is a systemic disease, which can present with variable clinical signs, and clinicopathological abnormalities. Clinical manifestations can range from subclinical infection to very severe systemic disease. Leishmaniosis is categorized as a neglected tropical disease and the complex immune responses associated with Leishmania species makes therapeutic treatments and vaccine development challenging for both dogs and humans. In this review, we summarize innate and adaptive immune responses associated with L. infantum infection in dogs, and we discuss the problems associated with the disease as well as potential solutions and the future direction of required research to help control the parasite.

Background Leishmaniosis caused by Leishmania infantum , L. major and L. tropica is endemic in Morocco. Growing evidence of both human and canine Leishmania infections in urban centres has been reported. Since many forms of the disease are zoonotic, veterinarians play an important role in leishmaniosis control by intervening at the parasite host level. This study aimed to bring together One Health principles to connect canine and feline leishmaniosis epidemiology within urban centres of Morocco (Rabat and Fez) and assess the level of awareness of Moroccan veterinarians about facing this threat. Methods A molecular survey was conducted for Leishmania DNA detection in canine ( n =  155) and feline ( n  = 32) whole-blood samples. Three conventional polymerase chain reaction (PCR) protocols were implemented. The first PCR aimed at identifying infected animals by targeting Leishmania spp. kinetoplast minicircle DNA (kDNA). The second and third PCR targeted the Leishmania internal transcribed spacer region (ITS-1) and the Leishmania small subunit ribosomal RNA (SSUrRNA) gene, respectively, aiming at identification of the infecting species after Sanger sequencing-positive amplicons. Total immunoglobulin G (IgG) against Leishmania spp. was evaluated in 125 dogs by enzyme-linked immunosorbent assays (ELISA) using an in-house protocol, including three Leishmania -specific antigens (SPLA, rKDDR and LicTXNPx). Sera from 25 cats were screened for total IgG to Leishmania spp. by an indirect immunofluorescence antibody test (IFAT). An online questionnaire was presented to Moroccan veterinarians addressing their knowledge and practices towards animal leishmaniosis. Results Overall, 19.4% of the dogs tested positive for Leishmania kDNA and ITS-1 and sequencing revealed infection with L. infantum among PCR-positive dogs. These animals presented a wide range of ELISA seropositivity results (16.7%, 34.9% and 51.6%) according to the tested antigens (rKDDR, SPLA and LicTXNPx, respectively). Use of kDNA-PCR revealed 12.5% cats positive to Leishmania spp. otherwise found to be seronegative by IFAT. Conclusions A considerable prevalence of infection was identified in dogs from urban centres of Morocco. Additionally, this is the first report of feline infection with Leishmania spp. in this country and in urban settings. Moroccan veterinarians are aware that animal leishmaniosis is endemic in Morocco, representing a public health threat, and are knowledgeable about canine leishmaniosis diagnosis and treatment. Graphical Abstract

Interleukin 17 (IL-17) is an inflammatory cytokine that plays a protective role against intracellular parasites. The role of IL-17 during Leishmania infection remains controversial and poorly defined. We evaluated whether IL-17 participates in the host immune response to Leishmania infantum. IL-17A is present in sera from patients with visceral leishmaniasis and decreases after successful treatment. In C57BL/6 infected mice, higher production of IL-17A coincided with the peak of parasitism. II17ra-/- mice were more susceptible to infection and also exhibited reduced inflammatory infiltration and interferon γ (IFN-γ)-expressing CD4⁺ T-cell frequencies than wild-type mice. The frequencies of FoxP3⁺ CD4⁺ T cells and interleukin 10 (IL-10)-expressing CD4⁺ T cells were increased in II17ra-/- mice. We also demonstrated that IL-17A acts synergistically with IFN-γ to potentiate NO production and leishmanicidal activity in infected macrophages. Therefore, our results indicate that L. infantum induces IL-17A production, which promotes the control of parasite replication by strengthening T-helper type 1 responses and NO production and prevents regulatory T-cell and IL-10-expressing T-cell expansion.