Immunomodulatory effects of bacteriocinogenic and non-bacteriocinogenic Lactococcus cremoris of aquatic origin on rainbow trout (Oncorhynchus mykiss, Walbaum).

Lactic Acid Bacteria (LAB) are a group of bacteria frequently proposed as probiotics in aquaculture, as their administration has shown to confer positive effects on the growth, survival rate to pathogens and immunological status of the fish. In this respect, the production of antimicrobial peptides (referred to as bacteriocins) by LAB is a common trait thoroughly documented, being regarded as a key probiotic antimicrobial strategy. Although some studies have pointed to the direct immunomodulatory effects of these bacteriocins in mammals, this has been largely unexplored in fish. To this aim, in the current study, we have investigated the immunomodulatory effects of bacteriocins, by comparing the effects of a wild type nisin Z-expressing Lactococcus cremoris strain of aquatic origin to those exerted by a non-bacteriocinogenic isogenic mutant and a recombinant nisin Z, garvicin A and Q-producer multi-bacteriocinogenic strain. The transcriptional response elicited by the different strains in the rainbow trout intestinal epithelial cell line (RTgutGC) and in splenic leukocytes showed significant differences. Yet the adherence capacity to RTgutGC was similar for all strains. In splenocyte cultures, we also determined the effects of the different strains on the proliferation and survival of IgM+ B cells. Finally, while the different LAB elicited respiratory burst activity similarly, the bacteriocinogenic strains showed an increased ability to induce the production of nitric oxide (NO). The results obtained reveal a superior capacity of the bacteriocinogenic strains to modulate different immune functions, pointing to a direct immunomodulatory role of the bacteriocins, mainly nisin Z.

Search for effective oral adjuvants for rainbow trout (Oncorhynchus mykiss).

Disease prevention by vaccination is, on economic, environmental and ethical grounds the most appropriate method for pathogen control currently available to the aquaculture sector. However, vaccine administration in aquatic animals faces obvious technical problems not encountered in other land animals. Thus, oral vaccines are highly demanded by the aquaculture sector that requests alternatives to the labor-intensive injectable vaccines that require individual handling of fish, provoking stress-related immunosuppression and handling mortalities. Despite this, most previous attempts to obtain effective oral vaccines have failed both in fish and mammals. This could be a consequence of very restricted tolerance mechanisms in the intestine given the fact that this mucosa is at the frontline upon antigen encounter and has to balance the delicate equilibrium between tolerance and immunity in a microbe rich aquatic environment. In this context, the search for an optimal combination of antigen and adjuvant that can trigger an adequate immune response able to circumvent intestinal tolerance is needed for each pathogen. To this aim, we have explored potential of molecules such as ß-glucans, flagellin, CpG and bacterial lipopolysacharide (LPS) as oral adjuvants. For this, we have determined the effects of these adjuvants ex vivo in rainbow trout intestine tissue sections, and in vitro in leucocytes isolated from rainbow trout spleen and intestine. The effects were evaluated by analyzing the levels of transcription of different genes related to the innate and adaptive immune response, as well as evaluating the number of IgM-secreting cells. LPS seems to be the molecule with stronger immunostimulatory potential, and could safely be used as a mucosal adjuvant in rainbow trout. Moreover, the designed strategy provides a fast methodology to screen adjuvants that are suitable for oral vaccination, providing us with valuable information about how the intestinal mucosa is regulated in fish.

Bacillus subtilis Expressing the Infectious Pancreatic Necrosis Virus VP2 Protein Retains Its Immunostimulatory Properties and Induces a Specific Antibody Response.

Bacillus subtilis has been documented in the past years as an effective probiotic for different aquacultured species, with recognized beneficial effects on water quality, fish growth and immune status. Furthermore, its potential as a vaccine adjuvant has also been explored in different species. In the current work, we have used B. subtilis spores as delivery vehicles for the presentation of the VP2 protein from infectious pancreatic necrosis virus (IPNV). For this, the VP2 gene was amplified and translationally fused to the crust protein CotY. The successful expression of VP2 on the spores was confirmed by Western blot. We then compared the immunostimulatory potential of this VP2-expressing strain (CRS208) to that of the original B. subtilis strain (168) on rainbow trout (Oncorhynchus mykiss) leukocytes obtained from spleen, head kidney and the peritoneal cavity. Our results demonstrated that both strains significantly increased the percentage of IgM+ B cells and the number of IgM-secreting cells in all leukocyte cultures. Both strains also induced the transcription of a wide range of immune genes in these cultures, with small differences between them. Importantly, specific anti-IPNV antibodies were detected in fish intraperitoneally or orally vaccinated with the CRS208 strain. Altogether, our results demonstrate B. subtilis spores expressing foreign viral proteins retain their immunomodulatory potential while inducing a significant antibody response, thus constituting a promising vaccination strategy.

Mechanisms Used by Probiotics to Confer Pathogen Resistance to Teleost Fish.

Probiotics have been defined as live microorganisms that when administered in adequate amounts confer health benefits to the host. The use of probiotics in aquaculture is an attractive bio-friendly method to decrease the impact of infectious diseases, but is still not an extended practice. Although many studies have investigated the systemic and mucosal immunological effects of probiotics, not all of them have established whether they were actually capable of increasing resistance to different types of pathogens, being this the outmost desired goal. In this sense, in the current paper, we have summarized those experiments in which probiotics were shown to provide increased resistance against bacterial, viral or parasitic pathogens. Additionally, we have reviewed what is known for fish probiotics regarding the mechanisms through which they exert positive effects on pathogen resistance, including direct actions on the pathogen, as well as positive effects on the host.

High-Risk Sexual Practices Contribute to HIV-1 Double Infection Among Men Who Have Sex with Men in Madrid.

Data on the prevalence of double infection (DI) in HIV individuals are lacking in Spain. To fill this gap, we analyzed the prevalence of DI in a cohort of men who have sex with men (MSM) and examined factors contributing to DI. We selected 81 MSM attending Centro Sanitario Sandoval, a sexually transmitted diseases clinic in Madrid. We obtained by ultra-deep sequencing the proviral sequences in gag and env genes and performed a phylogenetic analysis for the identification of DI. Clinical, behavioral, host, and viral factors were studied for its association with DI. We detected six individuals with DI and one case of superinfection with a global prevalence of 8.6%. The genetic distance among the subtype B viruses in monoinfected individuals (24.4%) was lower than the distance between the two viruses in subtype B DI individuals (29.5%). Individuals with a high number of sexual contacts (>25 partners/year) had an 8.66 times higher risk of DI (p = .017). In this MSM cohort the prevalence of HIV DI was estimated at 8.6%. DI was strongly associated with the number of sexual partners. Because of the pathogenic consequences of HIV DI, this high prevalence should promote public health programs targeted at high-risk population such as MSM for the control of HIV infection and DI. HIV DI should be considered for a better clinical management of these individuals.

Characterizing the antiviral effect of an ATR inhibitor on human immunodeficiency virus type 1 replication.

In the search for new antiviral therapies against human immunodeficiency virus type 1 (HIV-1), several cellular targets are being investigated. Ataxia telangiectasia and Rad3-related protein (ATR) has been implicated in HIV-1 replication, namely during retroviral DNA integration. We studied the effect of the ATR inhibitor ETP-46464 on HIV-1 replication in peripheral blood mononuclear cells (PBMCs) and in the persistently HIV-1-infected cell line H61-D. After treatment with ETP-46464, a significant decrease in virus production was observed in both cell systems. Quantification of viral DNA forms in the acutely infected PBMCs suggests that inhibition could take place in the early phase of the viral life cycle before viral DNA integration. Moreover, after treatment of H61-D cells with 3'-azido-3'-deoxythymidine (AZT), which blocks new reverse transcription events, ETP-46464 decreased viral production, suggesting that inhibition of viral replication occurred in the late phase of the life cycle after viral DNA integration. A decrease in virus production after transfection of 293T cells with an HIV-1 infectious molecular clone also suggested that the effect of ETP-46464 is exerted at a post-integration step. We propose that ETP-46464 produces its inhibitory effect on HIV-1 replication by acting in both the early and late phases of the retroviral replication cycle. Thus, ATR could represent a new target for inhibition of HIV-1 replication.