Your search keyword '"Kale, Akanksha"' showing total 12 results

1. Gonococcal microparticle vaccine in dissolving microneedles induced immunity and enhanced bacterial clearance in infected mice

Author

Bagwe, Priyal, Bajaj, Lotika, Menon, Ipshita, Braz Gomes, Keegan, Kale, Akanksha, Patil, Smital, Vijayanand, Sharon, Gala, Rikhav, D'Souza, Martin J., and Zughaier, Susu M.

Published

2023

2. An Overview of Current Accomplishments and Gaps of COVID-19 Vaccine Platforms and Considerations for Next Generation Vaccines

Author

Kale, Akanksha, Gaur, Amitabh, Menon, Ipshita, Chirmule, Narendra, Bagwe, Priyal, Jawa, Rayan, Vijayanand, Sharon, Patil, Smital, Suresh, Surekha, and Jawa, Vibha

Published

2023

3. Subunit microparticulate vaccine delivery using microneedles trigger significant SARS-spike-specific humoral and cellular responses in a preclinical murine model

Author

Patil, Smital, Vijayanand, Sharon, Joshi, Devyani, Menon, Ipshita, Braz Gomes, Keegan, Kale, Akanksha, Bagwe, Priyal, Yacoub, Shadi, Uddin, Mohammad N., and D'Souza, Martin J.

Published

2023

4. Buccal Administration of a Zika Virus Vaccine Utilizing 3D-Printed Oral Dissolving Films in a Mouse Model.

Author

Shah, Sarthak, Patel, Parth, Ferguson, Amarae, Bagwe, Priyal, Kale, Akanksha, Adediran, Emmanuel, Singh, Revanth, Arte, Tanisha, Pasupuleti, Dedeepya, Uddin, Mohammad N., and D'Souza, Martin

Subjects

BOOSTER vaccines, BUCCAL administration, VIRAL vaccines, ZIKA virus, VACCINE development

Abstract

Over the years, research regarding the Zika virus has been steadily increasing. Early immunization for ZIKV is a priority for preventing complications such as microencephaly and Guillain–Barré syndrome (GBS). Unlike traditional vaccination approaches, oral dissolving films (ODFs) or mucoadhesive film technology is an emerging, exciting concept that can be used in the field of pharmaceuticals for vaccine design and formulation development. This attractive and novel method can help patients who suffer from dysphagia as a complication of a disease or syndrome. In this study, we investigated a microparticulate Zika vaccine administered via the buccal route with the help of thin films or oral dissolving films (ODFs) with a prime dose and two booster doses two weeks apart. In vitro, the ODFs displayed excellent physiochemical properties, indicating that the films were good carriers for vaccine microparticles and biocompatible with the buccal mucosa. In vivo results revealed robust humoral (IgG, subtypes IgG1 and IgG2a) and T-cell responses (CD4+/CD8+) for ZIKV-specific immunity. Both the Zika MP vaccine and the adjuvanted Zika MP vaccine affected memory (CD45R/CD27) and intracellular cytokine (TNF-α and IL-6) expression. In this study, ZIKV vaccination via the buccal route with the aid of ODFs demonstrated great promise for the development of pain-free vaccines for infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

5. Intranasal Immunization for Zika in a Pre-Clinical Model.

Author

Shah, Sarthak, Patel, Parth, Bagwe, Priyal, Kale, Akanksha, Ferguson, Amarae, Adediran, Emmanuel, Arte, Tanisha, Singh, Revanth, Uddin, Mohammad N., and D'Souza, Martin J.

Subjects

ANIMAL models in research, MEDICAL personnel, IMMUNOGLOBULINS, IMMUNIZATION, HUMORAL immunity, VACCINE effectiveness, IMMUNOGLOBULIN M, T cells

Abstract

Humans continue to be at risk from the Zika virus. Although there have been significant research advancements regarding Zika, the absence of a vaccine or approved treatment poses further challenges for healthcare providers. In this study, we developed a microparticulate Zika vaccine using an inactivated whole Zika virus as the antigen that can be administered pain-free via intranasal (IN) immunization. These microparticles (MP) were formulated using a double emulsion method developed by our lab. We explored a prime dose and two-booster-dose vaccination strategy using MPL-A® and Alhydrogel® as adjuvants to further stimulate the immune response. MPL-A® induces a Th1-mediated immune response and Alhydrogel® (alum) induces a Th2-mediated immune response. There was a high recovery yield of MPs, less than 5 µm in size, and particle charge of −19.42 ± 0.66 mV. IN immunization of Zika MP vaccine and the adjuvanted Zika MP vaccine showed a robust humoral response as indicated by several antibodies (IgA, IgM, and IgG) and several IgG subtypes (IgG1, IgG2a, and IgG3). Vaccine MP elicited a balance Th1- and Th2-mediated immune response. Immune organs, such as the spleen and lymph nodes, exhibited a significant increase in CD4+ helper and CD8+ cytotoxic T-cell cellular response in both vaccine groups. Zika MP vaccine and adjuvanted Zika MP vaccine displayed a robust memory response (CD27 and CD45R) in the spleen and lymph nodes. Adjuvanted vaccine-induced higher Zika-specific intracellular cytokines than the unadjuvanted vaccine. Our results suggest that more than one dose or multiple doses may be necessary to achieve necessary immunological responses. Compared to unvaccinated mice, the Zika vaccine MP and adjuvanted MP vaccine when administered via intranasal route demonstrated robust humoral, cellular, and memory responses. In this pre-clinical study, we established a pain-free microparticulate Zika vaccine that produced a significant immune response when administered intranasally. [ABSTRACT FROM AUTHOR]

Published

2024

6. Adjuvanted-SARS-CoV-2 Spike Protein-Based Microparticulate Vaccine Delivered by Dissolving Microneedles Induces Humoral, Mucosal, and Cellular Immune Responses in Mice.

Author

Patil, Smital, Vijayanand, Sharon, Menon, Ipshita, Gomes, Keegan Braz, Kale, Akanksha, Bagwe, Priyal, Yacoub, Shadi, Uddin, Mohammad N., and D'Souza, Martin J.

Subjects

IMMUNE response, IMMUNOGLOBULINS, COVID-19 vaccines, SARS-CoV-2, VACCINE hesitancy, VACCINES

Abstract

COVID-19 continues to cause an increase in the number of cases and deaths worldwide. Due to the ever-mutating nature of the virus, frequent vaccination against COVID-19 is anticipated. Most of the approved SARS-CoV-2 vaccines are administered using the conventional intramuscular route, causing vaccine hesitancy. Thus, there is a need for an effective, non-invasive vaccination strategy against COVID-19. This study evaluated the synergistic effects of a subunit microparticulate vaccine delivered using microneedles. The microparticles encapsulated a highly immunogenic subunit protein of the SARS-CoV-2 virus, such as the spike protein's receptor binding domain (RBD). Adjuvants were also incorporated to enhance the spike RBD-specific immune response. Our vaccination study reveals that a microneedle-based vaccine delivering these microparticles induced spike RBD-specific IgM, IgG, IgG1, IgG2a, and IgA antibodies. The vaccine also generated high levels of CD4+ and CD8a+ molecules in the secondary lymphoid organs. Overall, dissolving microneedles delivery spike RBD antigen in microparticulate form induced a robust immune response, paving the way for an alternative self-administrable, non-invasive vaccination strategy against COVID-19. [ABSTRACT FROM AUTHOR]

Published

2023

7. Vaccine-Induced Immunity Elicited by Microneedle Delivery of Influenza Ectodomain Matrix Protein 2 Virus-like Particle (M2e VLP)-Loaded PLGA Nanoparticles.

Author

Braz Gomes, Keegan, Vijayanand, Sharon, Bagwe, Priyal, Menon, Ipshita, Kale, Akanksha, Patil, Smital, Kang, Sang-Moo, Uddin, Mohammad N., and D'Souza, Martin J.

Subjects

VIRUS-like particles, INFLUENZA, ANTIGEN presentation, IMMUNITY, IMMUNE response, NANOMEDICINE, EXTRACELLULAR matrix proteins, IMMUNOGLOBULINS

Abstract

This study focused on developing an influenza vaccine delivered in polymeric nanoparticles (NPs) using dissolving microneedles. We first formulated an influenza extracellular matrix protein 2 virus-like particle (M2e VLP)-loaded with poly(lactic-co-glycolic) acid (PLGA) nanoparticles, yielding M2e5x VLP PLGA NPs. The vaccine particles were characterized for their physical properties and in vitro immunogenicity. Next, the M2e5x VLP PLGA NPs, along with the adjuvant Alhydrogel® and monophosphoryl lipid A® (MPL-A®) PLGA NPs, were loaded into fast-dissolving microneedles. The vaccine microneedle patches were then evaluated in vivo in a murine model. The results from this study demonstrated that the vaccine nanoparticles effectively stimulated antigen-presenting cells in vitro resulting in enhanced autophagy, nitric oxide, and antigen presentation. In mice, the vaccine elicited M2e-specific antibodies in both serum and lung supernatants (post-challenge) and induced significant expression of CD4+ and CD8+ populations in the lymph nodes and spleens of immunized mice. Hence, this study demonstrated that polymeric particulates for antigen and adjuvant encapsulation, delivered using fast-dissolving microneedles, significantly enhanced the immunogenicity of a conserved influenza antigen. [ABSTRACT FROM AUTHOR]

Published

2023

8. Dissolving Microneedles Loaded with Nanoparticle Formulation of Respiratory Syncytial Virus Fusion Protein Virus-like Particles (F-VLPs) Elicits Cellular and Humoral Immune Responses.

Author

Menon, Ipshita, Patil, Smital, Bagwe, Priyal, Vijayanand, Sharon, Kale, Akanksha, Braz Gomes, Keegan, Kang, Sang Moo, and D'Souza, Martin

Subjects

HUMORAL immunity, VIRUS-like particles, CHIMERIC proteins, VIRAL proteins, RESPIRATORY syncytial virus, NANOPARTICLES

Abstract

Respiratory syncytial virus (RSV) is one of the leading causes of bronchiolitis and pneumonia in children ages five years and below. Recent outbreaks of the virus have proven that RSV remains a severe burden on healthcare services. Thus, a vaccine for RSV is a need of the hour. Research on novel vaccine delivery systems for infectious diseases such as RSV can pave the road to more vaccine candidates. Among many novel vaccine delivery systems, a combined system with polymeric nanoparticles loaded in dissolving microneedles holds a lot of potential. In this study, the virus-like particles of the RSV fusion protein (F-VLP) were encapsulated in poly (D, L-lactide-co-glycolide) (PLGA) nanoparticles (NPs). These NPs were then loaded into dissolving microneedles (MNs) composed of hyaluronic acid and trehalose. To test the in vivo immunogenicity of the nanoparticle-loaded microneedles, Swiss Webster mice were immunized with the F-VLP NPs, both with and without adjuvant monophosphoryl lipid A (MPL) NPs loaded in the MN. The mice immunized with the F-VLP NP + MPL NP MN showed high immunoglobulin (IgG and IgG2a) levels both in the serum and lung homogenates. A subsequent analysis of lung homogenates post-RSV challenge revealed high IgA, indicating the generation of a mucosal immune response upon intradermal immunization. A flowcytometry analysis showed high CD8+ and CD4+ expression in the lymph nodes and spleens of the F-VLP NP + MPL NP MN-immunized mice. Thus, our vaccine elicited a robust humoral and cellular immune response in vivo. Therefore, PLGA nanoparticles loaded in dissolving microneedles could be a suitable novel delivery system for RSV vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

9. Zika Vaccine Microparticles (MPs)-Loaded Dissolving Microneedles (MNs) Elicit a Significant Immune Response in a Pre-Clinical Murine Model.

Author

Kale, Akanksha, Joshi, Devyani, Menon, Ipshita, Bagwe, Priyal, Patil, Smital, Vijayanand, Sharon, Braz Gomes, Keegan, Uddin, Mohammad N., and D'Souza, Martin J.

Subjects

VACCINE trials, IMMUNE response, ANIMAL models in research, INTRAMUSCULAR injections, VACCINE effectiveness

Abstract

Although the global Zika epidemic in 2015–16 fueled vaccine development efforts, there is no approved Zika vaccine or treatment available to date. Current vaccine platforms in clinical trials are administered via either subcutaneous or intramuscular injections, which are painful and decrease compliance. Therefore, in the present study, we explored Zika vaccine microparticles (MPs)-loaded dissolving microneedles (MNs) with adjuvant MPs encapsulating Alhydrogel® and MPL-A® administered via the transdermal route as a pain-free vaccine strategy. We characterized the MNs for needle length, pore formation, and dissolvability when applied to murine skin. Further, we evaluated the in vivo efficacy of vaccine MPs-loaded MNs with or without adjuvants by measuring the immune response after transdermal immunization. The vaccine MPs-loaded dissolving MNs with adjuvants induced significant IgG, IgG1, and IgG2a titers in immunized mice compared to the untreated control group. After the dosing regimen, the animals were challenged with Zika virus, monitored for seven days, and sacrificed to collect spleen and lymph nodes. The lymphocytes and splenocytes from the immunized mice showed significant expressions of helper (CD4) and cytotoxic (CD8a) cell surface markers compared to the control group. Thus, this study puts forth a 'proof-of-concept' for a pain-free transdermal vaccine strategy against Zika. [ABSTRACT FROM AUTHOR]

Published

2023

10. An Adjuvanted Inactivated SARS-CoV-2 Microparticulate Vaccine Delivered Using Microneedles Induces a Robust Immune Response in Vaccinated Mice.

Author

Vijayanand, Sharon, Patil, Smital, Menon, Ipshita, Braz Gomes, Keegan, Kale, Akanksha, Bagwe, Priyal, Uddin, Mohammad N., Zughaier, Susu M., and D'Souza, Martin J.

Subjects

COVID-19 vaccines, IMMUNE response, VACCINE effectiveness, VACCINATION, IMMUNOGLOBULINS, CHICKEN diseases, DENDRITIC cells

Abstract

SARS-CoV-2, the causal agent of COVID-19, is a contagious respiratory virus that frequently mutates, giving rise to variant strains and leading to reduced vaccine efficacy against the variants. Frequent vaccination against the emerging variants may be necessary; thus, an efficient vaccination system is needed. A microneedle (MN) vaccine delivery system is non-invasive, patient-friendly, and can be self-administered. Here, we tested the immune response produced by an adjuvanted inactivated SARS-CoV-2 microparticulate vaccine administered via the transdermal route using a dissolving MN. The inactivated SARS-CoV-2 vaccine antigen and adjuvants (Alhydrogel® and AddaVax™) were encapsulated in poly(lactic-co-glycolic acid) (PLGA) polymer matrices. The resulting MP were approximately 910 nm in size, with a high percentage yield and percent encapsulation efficiency of 90.4%. In vitro, the vaccine MP was non-cytotoxic and increased the immunostimulatory activity measured as nitric oxide release from dendritic cells. The adjuvant MP potentiated the immune response of the vaccine MP in vitro. In vivo, the adjuvanted SARS-CoV-2 MP vaccine induced high levels of IgM, IgG, IgA, IgG1, and IgG2a antibodies and CD4+ and CD8+ T-cell responses in immunized mice. In conclusion, the adjuvanted inactivated SARS-CoV-2 MP vaccine delivered using MN induced a robust immune response in vaccinated mice. [ABSTRACT FROM AUTHOR]

Published

2023

11. Microneedle Delivery of an Adjuvanted Microparticulate Vaccine Induces High Antibody Levels in Mice Vaccinated against Coronavirus.

Author

Vijayanand, Sharon, Patil, Smital, Joshi, Devyani, Menon, Ipshita, Braz Gomes, Keegan, Kale, Akanksha, Bagwe, Priyal, Yacoub, Shadi, Uddin, Mohammad N., and D'Souza, Martin J.

Subjects

BACTERIAL vaccines, ENZYME-linked immunosorbent assay, VACCINATION, VACCINE immunogenicity, SURFACE charges, DENDRITIC cells

Abstract

This 'proof-of-concept' study aimed to test the microparticulate vaccine delivery system and a transdermal vaccine administration strategy using dissolving microneedles (MN). For this purpose, we formulated poly(lactic-co-glycolic) acid (PLGA) microparticles (MP) encapsulating the inactivated canine coronavirus (iCCoV), as a model antigen, along with adjuvant MP encapsulating Alhydrogel® and AddaVax. We characterized the vaccine MP for size, surface charge, morphology, and encapsulation efficiency. Further, we evaluated the in vitro immunogenicity, cytotoxicity, and antigen-presentation of vaccine/adjuvant MP in murine dendritic cells (DCs). Additionally, we tested the in vivo immunogenicity of the MP vaccine in mice through MN administration. We evaluated the serum IgG, IgA, IgG1, and IgG2a responses using an enzyme-linked immunosorbent assay. The results indicate that the particulate form of the vaccine is more immunogenic than the antigen suspension in vitro. We found the vaccine/adjuvant MP to be non-cytotoxic to DCs. The expression of antigen-presenting molecules, MHC I/II, and their costimulatory molecules, CD80/40, increased with the addition of the adjuvants. Moreover, the results suggest that the MP vaccine is cross presented by the DCs. In vivo, the adjuvanted MP vaccine induced increased antibody levels in mice following vaccination and will further be assessed for its cell-mediated responses. [ABSTRACT FROM AUTHOR]

Published

2022

12. Novel microparticulate Zika vaccine induces a significant immune response in a preclinical murine model after intramuscular administration.

Author

Kale, Akanksha, Joshi, Devyani, Menon, Ipshita, Bagwe, Priyal, Patil, Smital, Vijayanand, Sharon, Braz Gomes, Keegan, and D'Souza, Martin

Subjects

*IMMUNE response, *ANIMAL models in research, *ZIKA virus infections, *VACCINE immunogenicity, *VACCINE effectiveness

Abstract

[Display omitted] Despite the detrimental effects associated with Zika infection, there are no approved treatments or vaccines available. To address the need for a safe and effective vaccine for Zika, we formulated poly(lactic-co-glycolic) acid (PLGA) polymeric vaccine microparticles (MP) encapsulating the inactivated Zika virus, along with adjuvant MP encapsulating Alhydrogel® and MPL-A®. We characterized the vaccine MP for size, surface charge, morphology, encapsulation efficiency, and antigen integrity. Further, we evaluated immunogenicity and cytotoxicity of vaccine MP in vitro in murine dendritic cells. Vaccine MP with adjuvants induced significantly higher production of nitric oxide, a marker of innate immunity, when compared to the untreated cells. In addition, vaccine MP with or without adjuvants induced increased autophagy in murine dendritic cells when compared to inactivated Zika virus, which is critical in antigen presentation. Next, we evaluated in vivo efficacy of vaccine MP with and without adjuvants in a preclinical murine model by measuring the immune response after intramuscular administration. Vaccine MP with adjuvants induced significant IgG, Ig2a, and IgG1 titers as compared to the control group of untreated mice. Thus, this study provided the 'proof-of-concept' for a microparticulate Zika vaccine. [ABSTRACT FROM AUTHOR]

Published

2022