Mucosal Immunity and Protective Efficacy of Intranasal Inactivated Influenza Vaccine Is Improved by Chitosan Nanoparticle Delivery in Pigs

Dhakal, Santosh; Sankar, Raman; Ghimire, Shristi; Lakshmanappa, Yashavanth Shaan; Hogshead, Bradley T.; Feliciano-Ruiz, Ninoshkaly; Lu, Fangjia; HogenEsch, Harm; Krakowka, Steven; Lee, Chang Won; Renukaradhya, Gourapura J.

doi:10.3389/fimmu.2018.00934

Cited by 120 publications

(88 citation statements)

References 71 publications

(108 reference statements)

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“…This observation correlated closely with the reduced lung pathology and the substantial clearance of the virus from the animal lungs. Other polymeric nanoparticles, such as chitosan, a natural polymer composed of randomly distributed β-(1-4)-linked d-glucosamine and N-acetyl-d-glucosamine, and N-(2-hydroxypropyl)methacrylamide/N-isopropylacrylamide (HPMA/NIPAM), were also investigated as intranasal vaccines against respiratory viruses (85)(86)(87)(88)(89)(90)(115)(116)(117)(118)(119)(120)(121). Overall, polymeric nanoparticles have many advantages, including biocompatibility (122), antigen encapsulation and stabilization (123,124), controlled release of antigens and intracellular persistence in APCs (125,126), pathogen-like characteristics, and suitability for intranasal administration (126,127).…”

Section: Polymeric Nanoparticlesmentioning

confidence: 99%

Nanoparticle-Based Vaccines Against Respiratory Viruses

et al. 2019

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The respiratory mucosa is the primary portal of entry for numerous viruses such as the respiratory syncytial virus, the influenza virus and the parainfluenza virus. These pathogens initially infect the upper respiratory tract and then reach the lower respiratory tract, leading to diseases. Vaccination is an affordable way to control the pathogenicity of viruses and constitutes the strategy of choice to fight against infections, including those leading to pulmonary diseases. Conventional vaccines based on live-attenuated pathogens present a risk of reversion to pathogenic virulence while inactivated pathogen vaccines often lead to a weak immune response. Subunit vaccines were developed to overcome these issues. However, these vaccines may suffer from a limited immunogenicity and, in most cases, the protection induced is only partial. A new generation of vaccines based on nanoparticles has shown great potential to address most of the limitations of conventional and subunit vaccines. This is due to recent advances in chemical and biological engineering, which allow the design of nanoparticles with a precise control over the size, shape, functionality and surface properties, leading to enhanced antigen presentation and strong immunogenicity. This short review provides an overview of the advantages associated with the use of nanoparticles as vaccine delivery platforms to immunize against respiratory viruses and highlights relevant examples demonstrating their potential as safe, effective and affordable vaccines.

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Section: Polymeric Nanoparticlesmentioning

confidence: 99%

Nanoparticle-Based Vaccines Against Respiratory Viruses

et al. 2019

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“…It appears that porcine tonsils are richer in B cells than in T cells (Yang and Parkhouse, 1996). Importantly, nasal vaccination of pigs results in local and systemic IgA and IgG specific antibodies (Li et al, 2015;Dhakal et al, 2018), highlighting the value of this vaccination route and the commonalities between the antibody responses of pigs and other species such as chickens, mice and human.…”

Section: Pigs As Models Of Nasal Immunitymentioning

confidence: 99%

Comparative models for human nasal infections and immunity

Casadei

Salinas

2019

Developmental & Comparative Immunology

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“…developed mucoadhesive chitosan nanoparticles-delivered inactivated swine influenza virus vaccine using tripolyphosphate by ionotropic gelation technique. This chitosan-based nano vaccine administered through intranasal route elicited robust mucosal secretary (IgA) antibody response and virus-specific cell-mediated immunity in pigs resulting 100 times lower virus load in the respiratory tract of pigs compared to pigs vaccinated with inactivated soluble antigens [35]. This technology has been patented and being considered by the Ohio State University based startup company Nanicula for potential commercialization in swine industry [36].…”

Section: Chitosan Nanoparticles-delivered Inactivated Influenza Virusmentioning

confidence: 99%

The status of development of nanoparticle-based swine influenza vaccines: A review

Poudel¹,

Pantha²,

Kaphle³

2019

J. Biomed. Sci.

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Background Swine are the most important meat animal, famous for white meat, which are prepared as ham, bacon, gammon, sausages and pork. Swine are valuable animals and they are physiologically, immunologically and anatomically similar to humans and their organ can be transplanted to the humans. Due to modernization, the cultural food restriction has lost in the people of urban communities and among the younger generations in Nepal. Gradually changing feeding habit of Nepalese has proven pork to be a useful addition to the food menu. Not only 8.7 lakhs swine in Nepal but the global pig population which occupy 769.05 million are suffering every day from new challenges and threats from very harmful pathogens and diseases like swine dysentery, coccidiosis, swine influenza, etc. Swine influenza is highly contagious rapidly spreading zoonotic viral disease of pigs characterized by febrile respiratory disease often complicated with secondary bacterial infections. Vaccines are only tool for prophylactic measures. There is big challenge for vaccine researchers, manufacturers and scientists for development of effective vaccine regarding swine influenza. Currently available flu vaccines are capable of homologous protection of virus but fail to induce cross protection against frequently evolving heterologous viruses. In this review, we discuss the status of novel nanoparticle-based approach of swine influenza virus vaccine development contributed significantly by Nepalese scientist and the future directions to control this economically important swine disease.

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Mucosal Immunity and Protective Efficacy of Intranasal Inactivated Influenza Vaccine Is Improved by Chitosan Nanoparticle Delivery in Pigs

Cited by 120 publications

References 71 publications

Nanoparticle-Based Vaccines Against Respiratory Viruses

Nanoparticle-Based Vaccines Against Respiratory Viruses

Comparative models for human nasal infections and immunity

The status of development of nanoparticle-based swine influenza vaccines: A review

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