Sublingual Immunization of Trivalent Human Papillomavirus DNA Vaccine in Baculovirus Nanovector for Protection against Vaginal Challenge

Lee, Hee-Jung; Cho, Hansam; Kim, Mi‐Gyeong; Heo, Yoonki; Cho, Yeondong; Gwon, Yong-Dae; Park, Ki Hoon; Jin, Hongzhe; Kim, Jin‐Young; Oh, Yu‐Kyoung; Kim, Young Bong

doi:10.1371/journal.pone.0119408

Cited by 12 publications

(15 citation statements)

References 37 publications

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“…The oral cavity is easily accessible, minimally invasive, contains rich lymphoid tissue, and it has a pH that is more favorable for biologics compared to the gastrointestinal tract. Additionally, evidence suggests that oral mucosal vaccine delivery elicits systemic humoral and cellular immune responses comparable to intramuscular vaccination, and enhances levels of mucosal antibody responses locally and at distal sites such as the nasal cavity and female reproductive tract . However, vaccine delivery to the oral cavity has been limited by a lack of appropriate dosage forms to address physical barriers such as salivary flow and barriers to immune activation such as the predisposition for oral mucosal immune cells to be tolerogenic.…”

Section: The Oral Mucosa Is a Promising And Underutilized Route Of Vamentioning

confidence: 99%

“…Vaccine delivery to the sublingual and buccal mucosa can generate mucosal immune responses at distal sites including the urogenital tract, the respiratory tract, and the intestinal tract . A wide variety of systemic and mucosal immune responses have been induced by vaccine delivery to these sites (Table ).…”

Section: The Oral Mucosa Is a Promising And Underutilized Route Of Vamentioning

confidence: 99%

“…Sublingual delivery resulted in tenfold lower serum IgG and IgA responses compared to intranasal delivery and insignificant mucosal IgA titers in the vaginal mucosa. In another study, plasmid DNA was incorporated into a nonreplicating baculovirus nanovector for sublingual delivery . This delivery strategy generated comparable serum IgG titers, CD4+ and CD8+ T cell responses to intramuscular delivery.…”

Section: Microneedles Have Broad Capabilities That Could Improve Oralmentioning

confidence: 99%

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Microneedle‐Mediated Vaccine Delivery to the Oral Mucosa

Creighton

Woodrow

2018

Adv Healthcare Materials

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The oral mucosa is a minimally invasive and immunologically rich site that is underutilized for vaccination due to physiological and immunological barriers. To develop effective oral mucosal vaccines, key questions regarding vaccine residence time, uptake, adjuvant formulation, dose, and delivery location must be answered. However, currently available dosage forms are insufficient to address all these questions. An ideal oral mucosal vaccine delivery system would improve both residence time and epithelial permeation while enabling efficient delivery of physicochemically diverse vaccine formulations. Microneedles have demonstrated these capabilities for dermal vaccine delivery. Additionally, microneedles enable precise control over delivery properties like depth, uniformity, and dosing, making them an ideal tool to study oral mucosal vaccination. Select studies have demonstrated the feasibility of microneedle‐mediated oral mucosal vaccination, but they have only begun to explore the broad functionality of microneedles. This review describes the physiological and immunological challenges related to oral mucosal vaccine delivery and provides specific examples of how microneedles can be used to address these challenges. It summarizes and compares the few existing oral mucosal microneedle vaccine studies and offers a perspective for the future of the field.

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Section: The Oral Mucosa Is a Promising And Underutilized Route Of Vamentioning

confidence: 99%

Section: The Oral Mucosa Is a Promising And Underutilized Route Of Vamentioning

confidence: 99%

Section: Microneedles Have Broad Capabilities That Could Improve Oralmentioning

confidence: 99%

See 1 more Smart Citation

Microneedle‐Mediated Vaccine Delivery to the Oral Mucosa

Creighton

Woodrow

2018

Adv Healthcare Materials

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“…576 To overcome the inherent mucosal tolerance for antigens, a variety of mucosal adjuvants have been studied. 576,[591][592][593][594] For example, mice sublingually immunized with influenza vaccine (hemagglutinin split vaccine) with a lipopolysaccharide adjuvant demonstrated both hemagglutinin-specific IgG (systemic) and IgA (mucosal) antibody responses, which led to a significant increase in survival rate against lethal influenza virus challenge compared with SC vaccination. 591 Two mucosal adjuvants-αgalactosylceramide, a potent stimulator of natural killer T cells, and cytosine phosphate guanine-oligodeoxynucleotide a Tolllike receptor-9 agonist-effectively increased gp140-specific serum IgG and vaginal IgA levels following SL vaccination in mice.…”

Section: Challenges For Mucosal Delivery Of Vaccinesmentioning

confidence: 99%

Technologies to Improve Immunization

Papania¹,

Zehrung²,

Jarrahian³

2018

Plotkin's Vaccines

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“…Many laboratories have documented the efficacy of sublingual immunization in inducing adequate immune response in experimental animal systems using a variety of antigens, including soluble proteins, inert particulate antigens (killed viruses, virus-like particles, bacterial extracts) as well as live-attenuated viruses [20]. Researchers have successfully demonstrated protection against H. pylori [21], HPV16, HPV18, and HPV58 pseudoviruses [22] by sublingual vaccination in animals. The sublingual mucosa is a promising vaccine delivery route for other respiratory pathogens including influenza virus, Respiratory Syncytial virus (RSV) and Severe Acute Respiratory Syndrome (SARS) virus [23].…”

Section: Oral Vaccinesmentioning

confidence: 99%

Advances Towards Painless Vaccination and Newer Modes of Vaccine Delivery

Garg

Aggarwal

2017

Indian J Pediatr

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Vaccines have been successful in reducing the mortality and morbidity, but most of them are delivered by intramuscular or intravenous route. They are associated with pain to the baby and bring lot of anxiety for the parents. There has been a marked increase in the number of injections required in first two years of life for completing the vaccination schedule. Hence, there is a need to have a painless vaccine delivery system. Numerous new routes of vaccination like, oral, nasal and transdermal routes are being tried. Oral polio and intranasal influenza have already been a success. Other newer approaches like edible vaccines, nasal sprays, dry powder preparations, jet injectors, microneedles and nanopatches are promising in delivering painless vaccines. Many of them are under clinical trials. These vaccine delivery systems will not only be painless but also cost effective, safe and easy to administer in mass population. They may be devoid of the need of cold chain. Painless delivery system will ensure better compliance to vaccination schedule.

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Sublingual Immunization of Trivalent Human Papillomavirus DNA Vaccine in Baculovirus Nanovector for Protection against Vaginal Challenge

Cited by 12 publications

References 37 publications

Microneedle‐Mediated Vaccine Delivery to the Oral Mucosa

Microneedle‐Mediated Vaccine Delivery to the Oral Mucosa

Technologies to Improve Immunization

Advances Towards Painless Vaccination and Newer Modes of Vaccine Delivery

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