Mucosal and systemic immune effects of Bacillus subtilis in rainbow trout (Oncorhynchus mykiss)

F Docando¹, N Nuñez-Ortiz², C R Serra³, P Arense², P Enes⁴, A Oliva-Teles⁴, P Díaz-Rosales⁵, C Tafalla⁶

Affiliations

¹ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain; Autonomous University of Madrid, Madrid, Spain.
² Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain.
³ Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), University of Porto, Terminal de Cruzeiros do Porto de Leixões, Av. General Norton de Matos, S/N, 4450-208, Matosinhos, Portugal.
⁴ Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), University of Porto, Terminal de Cruzeiros do Porto de Leixões, Av. General Norton de Matos, S/N, 4450-208, Matosinhos, Portugal; Department of Biology, Faculty of Sciences, University of Porto, Rua do Campo Alegre, Edifício FC4, 4169-007, Porto, Portugal.
⁵ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain. Electronic address: pdiazrosales@inia.es.
⁶ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain. Electronic address: tafalla@inia.es.

PMID: 35367376
DOI: 10.1016/j.fsi.2022.03.040

Free article

Mucosal and systemic immune effects of Bacillus subtilis in rainbow trout (Oncorhynchus mykiss)

F Docando et al. Fish Shellfish Immunol. 2022 May.

Free article

. 2022 May:124:142-155.

doi: 10.1016/j.fsi.2022.03.040. Epub 2022 Mar 31.

Authors

F Docando¹, N Nuñez-Ortiz², C R Serra³, P Arense², P Enes⁴, A Oliva-Teles⁴, P Díaz-Rosales⁵, C Tafalla⁶

Affiliations

¹ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain; Autonomous University of Madrid, Madrid, Spain.
² Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain.
³ Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), University of Porto, Terminal de Cruzeiros do Porto de Leixões, Av. General Norton de Matos, S/N, 4450-208, Matosinhos, Portugal.
⁴ Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), University of Porto, Terminal de Cruzeiros do Porto de Leixões, Av. General Norton de Matos, S/N, 4450-208, Matosinhos, Portugal; Department of Biology, Faculty of Sciences, University of Porto, Rua do Campo Alegre, Edifício FC4, 4169-007, Porto, Portugal.
⁵ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain. Electronic address: pdiazrosales@inia.es.
⁶ Fish Immunology and Pathology Group, Animal Health Research Centre (CISA-INIA-CSIC), 28130, Valdeolmos-Alalpardo, Madrid, Spain. Electronic address: tafalla@inia.es.

PMID: 35367376
DOI: 10.1016/j.fsi.2022.03.040

Abstract

Bacillus spp. are well known for their probiotic properties. Hence, the long-term feeding of Bacillus spp. strains to different fish species has been proved to confer beneficial effects regarding growth or pathogen resistance, among others. However, whether these strains could function as mucosal adjuvants, up-regulating immune responses after a single administration, has not yet been investigated in fish. Thus, in the current work, we have performed a series of experiments in rainbow trout (Oncorhynchus mykiss) aimed at establishing the potential of two Bacillus subtilis spore-forming strains, designated as ABP1 and ABP2, as oral adjuvants/immunostimulants. As an initial step, we evaluated their transcriptional effects on the rainbow trout intestinal epithelial cell line RTgutGC, and in gut tissue explants incubated ex vivo with the two strains. Their capacity to adhere to RTgutGC cells was also evaluated by flow cytometry. Although both strains had the capacity to modulate the transcription of several genes related to innate and adaptive immune responses, it was the ABP1 strain that led to stronger transcriptional effects, also exerting a higher binding capacity to intestinal epithelial cells. Consequently, we selected this strain to establish its effects on splenic B cells upon in vitro exposure as well as to determine the transcriptional effects exerted in the spleen, kidney, and gut after a single oral administration of the bacteria. Our results showed that B. subtilis ABP1 had the capacity to modulate the proliferation, IgM secreting capacity and MHC II surface expression of splenic B cells. Finally, we confirmed that this strain also induced the transcription of genes involved in inflammation, antimicrobial genes, and genes involved in T cell responses upon a single oral administration. Our results provide valuable information regarding how B. subtilis modulates the immune response of rainbow trout, pointing to the usefulness of the ABP1 strain to design novel oral vaccination strategies for aquaculture.

Keywords: Adjuvants; B cells; Bacillus subtilis; Inflammation; Oral vaccines; Probiotics; Rainbow trout.

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Mucosal and systemic immune effects of Bacillus subtilis in rainbow trout (Oncorhynchus mykiss)

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Mucosal and systemic immune effects of Bacillus subtilis in rainbow trout (Oncorhynchus mykiss)

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