Your search keyword '"peptide vaccines"' showing total 830 results

201. Patent Issued for Method of compact peptide vaccines using residue optimization (USPTO 12091443).

Subjects

AMINO acid residues, PEPTIDES, PEPTIDE vaccines, BIOLOGICAL products, AMINO acid sequence, RECTAL cancer, BACTERIAL vaccines

Abstract

A patent has been issued to Think Therapeutics Inc. for a method of creating compact peptide vaccines using residue optimization. The goal of these vaccines is to train the immune system to recognize and respond to cancer cells or pathogens. The method involves selecting base peptides from a target protein, modifying them, and selecting a subset with a predicted vaccine performance. The invention also includes a system for selecting immunogenic peptide compositions and a computer-readable storage medium for determining these compositions. The patent provides potential advancements in cancer therapy and immunization. [Extracted from the article]

Published

2024

202. New Findings from H. Lee Moffitt Cancer Center and Research Institute Update Understanding of Peptide Vaccines (Vaccination With Folate Receptor-alpha Peptides In Patients With Ovarian Cancer Following Response To Platinum-based Therapy: a...).

Subjects

PEPTIDE vaccines, COMMUNICABLE disease control, BIOLOGICAL products, OVARIAN epithelial cancer, PROGRESSION-free survival, OVARIAN cancer

Abstract

A recent study conducted by the H. Lee Moffitt Cancer Center and Research Institute in Tampa, Florida explored the use of peptide vaccines in patients with ovarian cancer. The study focused on targeting the folate receptor alpha (FR alpha), which is overexpressed in the majority of high-grade epithelial ovarian cancers. The researchers conducted a randomized, double-blind, multicenter, phase II study to evaluate the safety and efficacy of a multi-epitope FR alpha peptide vaccine called TPIV200. The results showed that while the vaccine was well-tolerated, it did not significantly improve progression-free survival in patients. Further studies are needed to explore potential synergies using multiepitope vaccines targeting FR alpha. [Extracted from the article]

Published

2024

203. New Gliomas Data Has Been Reported by a Researcher at Sorbonne Universite (Advances in the treatment of IDH-mutant gliomas).

Subjects

PEPTIDE vaccines, ISOCITRATE dehydrogenase, REPORTERS & reporting, ASTROCYTOMAS, GLIOMAS

Abstract

A recent article from Sorbonne Universite discusses advances in the treatment of IDH-mutant gliomas, a type of brain tumor. The researchers review therapeutic approaches that specifically target these gliomas and summarize ongoing clinical trials in this population. The article highlights the efficacy of the IDH inhibitor vorasidenib in grade 2 IDH-mutated gliomas and explores various strategies, including small-molecule inhibitors, immunotherapies, peptide vaccines, and agents targeting metabolic and epigenomic vulnerabilities. The research concludes that targeting mutant-IDH holds promise in treating progressive or recurrent IDH-mutant gliomas and may influence future treatment guidelines. [Extracted from the article]

Published

2024

204. A multistage protein subunit vaccine as BCG-booster confers protection against Mycobacterium tuberculosis infection in murine models.

Author

Chen, Zhenyan, Zhang, Ying, Wu, Juan, Xu, Jinchuan, Hu, Zhidong, and Fan, Xiao-Yong

Subjects

*PEPTIDE vaccines, *LATENT tuberculosis, *BOOSTER vaccines, *BCG vaccines, *LATENT infection, *T cells

Abstract

• A recombinant protein subunit vaccine A986 expressing three latency antigens and one early secreted antigen Ag85A was constructed. • A986 adjuvanted with MPL/QS21 induced robust cellular and humoral immune responses in mice. • A986 adjuvanted with MPL/QS21 induced immune protection against Mtb infection in naïve and BCG-primed mice. The eradication of tuberculosis remains a global challenge. Despite being the only licensed vaccine, Bacillus Calmette-Guérin (BCG) confers limited protective efficacy in adults and individuals with latent tuberculosis infections (LTBI). There is an urgent need to develop novel vaccines that can enhance the protective effect of BCG. Protein subunit vaccines have garnered significant research interest due to their safety and plasticity. Based on previous studies, we selected three antigens associated with LTBI (Rv2028c, Rv2029c, Rv3126c) and fused them with an immunodominant antigen Ag85A, resulting in the construction of a multistage protein subunit vaccine named A986. We evaluated the protective effect of recombinant protein A986 adjuvanted with MPL/QS21 as a booster vaccine for BCG against Mycobacterium tuberculosis (Mtb) infection in mice. The A986 + MPL/QS21 induced the secretion of antigen-specific Th1 (IL-2+, IFN-γ+ and TNF-α+) and Th17 (IL-17A+) cytokines in CD4+ and CD8+ T cells within the lung and spleen of mice, while also increased the frequency of central memory and effector memory T cells. Additionally, it also induced the enhanced production of IgG antibodies. Compared to BCG alone, A986 + MPL/QS21 boosting significantly augmented the proliferation of antigen-specific multifunctional T cells and effectively reduced bacterial load in infected mice. Taken together, A986 + MPL/QS21 formulation induced robust antigen-specific immune responses and provided enhanced protection against Mtb infection as a booster of BCG vaccine. [ABSTRACT FROM AUTHOR]

Published

2024

205. The social shaping of biotechnological innovation. The case of Covid-19 protein vaccine in Cuba and the US.

Author

Marciano, Claudio

Subjects

*PEPTIDE vaccines, *PHARMACEUTICAL biotechnology industry, *VALUE capture, *PROTEIN biotechnology, *COVID-19 pandemic

Abstract

Like other technologies, vaccines are socially shaped by socio-economic, political and organisational factors. Property rights, value capture strategies and public innovation policies guide research teams in the biochemical design of vaccines, with inevitable consequences for their price and accessibility. The Covid-19 pandemic provided an opportunity to analyse this institutional shaping process and its consequences for global public health from a political economy perspective. Indeed, the same type of invention, a recombinant protein vaccine, was simultaneously and originally developed in the US and Cuban biopharmaceutical industries and in the field of philanthropic Open Innovation. The article shows, through empirical research that collected direct testimony from scientists and privileged observers of the vaccine development fields, how certain norms and values characteristic of the US industry (financialization, assetization and de-risk) created a path dependency in the use of proprietary and experimental biotechnologies that made the US vaccine Nuvaxovid more expensive and complex to produce, but no more effective and safe than Abdala, Soberana 02 and Corbevax. In addition, the institutional constraints of the US biopharmaceutical industry on radical innovation, even within a mature biotechnology platform such as protein vaccines, would have resulted in a competitive disadvantage for Nuvaxovid, which was as expensive as an mRNA vaccine but less rapid to market and less reliable in delivery. The case of protein vaccines against Covid-19 thus shows how the institutional architectures of techno-scientific capitalism create not only inequalities but also inefficiencies, and that an innovation path with excellent results is possible even in competition where the market is not the dominant order of worth. [ABSTRACT FROM AUTHOR]

Published

2024

206. Efficacy and safety of Abdala COVID-19 subunit vaccine in children and adolescents: An open-label, single-arm, phase 2 trial (MEÑIQUE).

Author

Hernández-Bernal, Francisco, Noa-Romero, Enrique, Quintana-Guerra, Joel, Chávez-Chong, Cristina O., Martín-Bauta, Yenima, Alvaré-Alvaré, Laura, Salvato-Dueñas, Alena, Felipe-Mallea, Danusia, Porta-Díaz, Mairalys, Cruz-Sui, Otto, Urrutia-Pérez, Karen, Urrutia-Pérez, Klaudia, Rodríguez-Reinoso, José L., Alonso-Valdés, Marel, Cinza-Estévez, Zurina, Rodríguez-Triana, Aylin, Cruz-Gómez, Yolanda, Limonta-Fernández, Miladys, Rodríguez-Acosta, Mireida, and Ayala-Ávila, Marta

Subjects

*PEPTIDE vaccines, *SARS-CoV-2 Delta variant, *COVID-19, *AGE groups, *COVID-19 vaccines

Abstract

Objectives We evaluated the safety, immunogenicity and efficacy of Abdala, a protein subunit vaccine for 2019 coronavirus disease (COVID-19), in children and adolescents. Methods A phase 2, open-label, single-arm clinical trial was carried out. Subjects aged 3 to 18 years were eligible. Abdala vaccine was administered intramuscularly at 0–14-28 days. The main endpoints were safety and the immunobridging analysis with a non-inferiority design, to infer the efficacy of the vaccine in paediatric population based on the comparison of neutralizing antibodies (NAb) to SARS-CoV-2, with adults (19–21 years). The trial is registered with the Cuban Public Registry of Clinical Trials, RPCEC00000390. Results From September 13th to September 17th, 2021, 703 participants were included in the context of a predominantly SARS-CoV-2 Delta variant circulation. The number of individuals who experienced adverse reactions was 264/703 (37·6%). Adverse reactions were mostly mild and occurred at the injection site, which resolved within the first 24–48 h. There were no reports of severe adverse events. For the non-inferiority comparison of 297 children (3–11 years) with 297 adults, the geometric mean (GMT) ratio of SARS-CoV-2 NAb was 0·87 (95% CI 0·69–1·08) and 1·07 (0·82–1·39) in the same comparison for 203 adolescents (12–18 years) and 203 adults. For both age groups, the lower limit of GMT was higher than 0·67. The differences in seroresponse rates of Nab for children were 1% (−2%, 4%) and −3% (−7%, 1%) for adolescents, higher than −10% in both age groups. Conclusions The Abdala vaccine was safe and immunogenic in a paediatric population aged 3–18 years, with inferred efficacy based on non-inferior analysis. The vaccine is very suitable to fit into massive vaccination strategies, considering the advantages of using the same vaccine strength (RBD 50 μg) and schedule of administration for both adults and children, as well as the easy storage and handling conditions at 2–8 °C. • Abdala is a COVID-19 subunit vaccine based on RBD protein with demonstrated clinical efficacy and safety in adults. • Abdala is safe, well tolerated and induces neutralizing antibody titers against SARS-CoV-2 in children and adolescents. • The efficacy of Abdala in paediatric population was inferred from a non-inferiority immunobridging analysis with adults. • Abdala is very suitable to be included into massive vaccination strategies for children, adolescents and adults. [ABSTRACT FROM AUTHOR]

Published

2024

207. Vaccination of cattle with a virus vector vaccine against a major membrane protein of Mycobacterium avium subsp. paratuberculosis elicits CD8 cytotoxic T cells that kill intracellular bacteria.

Author

Mahmoud, Asmaa H., Abdellrazeq, Gaber S., Franceschi, Valentina, Schneider, David A., Bannantine, John P., Fry, Lindsay M., Hulubei, Victoria, De Matteis, Giovanna, Park, Kun Taek, Minesso, Sergio, Davis, William C., and Donofrio, Gaetano

Subjects

*CYTOTOXIC T cells, *MYCOBACTERIUM avium paratuberculosis, *PEPTIDE vaccines, *ANTIGEN presenting cells, *VIRAL vaccines, *PARATUBERCULOSIS

Abstract

Analysis of the recall response ex vivo in cattle vaccinated with a Mycobacterium a vium subsp. paratuberculosis (Map) rel deletion mutant revealed the immune response was directed toward a 35 kD major membrane protein (MMP) of Map. Antigen presenting cells (APC) primed with MMP elicited expansion of CD8 cytotoxic memory T cells (CTL) with ability to kill intracellular bacteria. Development of CTL was MHC-restricted. The gene MAP2121c, encoding MMP, was modified for expression of MMP (tPA-MMP-2mut) in a mammalian cell line to explore the potential of developing MMP as a vaccine. Ex vivo stimulation of PBMC, from Map free cattle, with APC primed with tPA-MMP-2mut expressed p35 elicited a primary CD8 CTL response comparable to the recall response elicited with PBMC from cattle vaccinated with either the Maprel deletion mutant or MMP. In the present study, the modified gene for MMP, now referred to as p35NN, was placed into a bovine herpes virus-4 (BoHV4) vector to determine the potential use of BoHV-4AΔTK-p35NN as a peptide-based vaccine. Subcutaneous vaccination of healthy cattle with BoHV-4AΔTK-p35NN elicited a CTL recall response, as detected ex vivo. The results show use of a virus vector is an effective way for delivery of MMP as a vaccine. The immunogenic activity of MMP was not lost when modified for expression in mammalian cells. The next step is to conduct a field trial to determine if presence of an immune response to MMP prevents Map from establishing an infection. • Mycobacterium avium subsp paratuberculosis killed by virus vectored peptide vaccine. • Vaccine elicits cytotoxic T cells that kill Mycobacterium. avium subsp. paratuberculosis. • Virus vectored peptide vaccine for Mycobacterium a. subsp. paratuberculosis. [ABSTRACT FROM AUTHOR]

Published

2024

208. Application of nervous necrosis virus capsid protein-based antigen-presenting particles for vaccine development.

Author

Wayha, Sajee, Koiwai, Keiichiro, Sano, Motohiko, Hirono, Ikuo, and Kondo, Hidehiro

Subjects

*PEPTIDE vaccines, *GREEN fluorescent protein, *DNA vaccines, *CYTOSKELETAL proteins, *RECOMBINANT proteins

Abstract

Nervous necrosis virus (NNV) capsid protein plays an important role in producing viral particles without any genetic elements. Thus, NNV is a promising candidate for vaccine development and is widely used for constructing vaccines, including DNA, recombinant proteins, and virus-like particles (VLPs). Our study aimed to investigate the potential of NNV capsid protein (NNV) and NNV capsid protein fused to enhanced green fluorescent protein (NNV-EGFP) through VLP formation and whether their application can induce specific antibody responses against certain antigens. We focused on producing DNA and recombinant protein vaccines consisting of the genes for NNV, EGFP, and NNV-EGFP. The approach using NNV-EGFP allowed NNV to act as a carrier or inducer while EGFP was incorporated as part of the capsid protein, thereby enhancing the immune response. In vitro studies demonstrated that all DNA vaccines expressed in HINAE cells resulted in varying protein expression levels, with particularly low levels observed for pNNV and pNNV-EGFP. Consequently, structural proteins derived from HINAE cells could not be observed using transmission electron microscopy (TEM). In contrast, recombinant proteins of NNV and NNV-EGFP were expressed through the Escherichia coli expression system. TEM revealed that rNNV was assembled into VLPs with an approximate size of 30 nm, whereas rNNV-EGFP presented particles ranging from 10 nm to 50 nm in size. For the vaccination test, DNA vaccination marginally induced specific antibody responses in Japanese flounder compared to unvaccinated fish. Meanwhile, NNV and NNV-EGFP recombinant vaccines enhanced a greater anti-NNV antibody response than the others, whereas antibody responses against EGFP were also marginal. These results indicate that NNV capsid protein-based antigens, presenting as particles, play an important role in eliciting a specific anti-NNV antibody response and have the potential to improve fish immune responses. • Using NNV capsid protein as a carrier to deliver EGFP and enhance immune responses. • The E. coli -derived rNNV and rNNV-EGFP emerged as virus-like structures. • Antigen-presenting particles elicited the anti-NNV antibody response. [ABSTRACT FROM AUTHOR]

Published

2024

209. Preparation and immunological activity evaluation of an intranasal protein subunit vaccine against ancestral and mutant SARS-CoV-2 with curdlan sulfate/O-linked quaternized chitosan nanoparticles as carrier and adjuvant.

Author

Chen, Yipan, Wang, Yan, Li, Zuyi, Jiang, Honglei, Pan, Wei, Liu, Minghui, Jiang, Wenjie, Zhang, Xinke, and Wang, Fengshan

Subjects

*PEPTIDE vaccines, *BOOSTER vaccines, *ANTIGEN presenting cells, *CELLULAR immunity, *POLYSACCHARIDES

Abstract

Chitosan and its derivatives are ideal nasal vaccine adjuvant to deliver antigens to immune cells. Previously, we successfully used a chitosan derivative, O -(2-Hydroxyl) propyl-3-trimethyl ammonium chitosan chloride (O -HTCC), and a β-glucan derivative, curdlan sulfate (CS), to prepare a nanoparticle adjuvant CS/ O -HTCC which could deliver ovalbumin to antigen presenting cells (APCs) through nasal inhalation. In this article, we used SARS-CoV-2 spike receptor binding domain (S-RBD) as the antigen and CS/ O -HTCC nanoparticles as the adjuvant to develop a nasal mucosal protein subunit vaccine, CS/S-RBD/ O -HTCC. The humoral immunity, cell-mediated immunity and mucosal immunity induced by vaccines were evaluated. The results showed that CS/S-RBD/ O -HTCC could induce desirable immunization with single or bivalent antigen through nasal inoculation, giving one booster vaccination with mutated S-RBD (beta) could bring about a broad cross reaction with ancestral and different mutated S-RBD, and vaccination of the BALB/c mice with CS/S-RBD/ O -HTCC containing S-RBD mix antigens (ancestral and omicron) could induce the production of binding and neutralizing antibodies against both of the two antigens. Our results indicate that CS/ O -HTCC is a promising nasal mucosal adjuvant to prepare protein subunit vaccine for both primary and booster immunization, and the adjuvant is suitable for loading more than one antigen for preparing multivalent vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

210. Updates in Glioblastoma Immunotherapy: An Overview of the Current Clinical and Translational Scenario

Author

Andrea Bianconi, Giuseppe Palmieri, Gelsomina Aruta, Matteo Monticelli, Pietro Zeppa, Fulvio Tartara, Antonio Melcarne, Diego Garbossa, and Fabio Cofano

Subjects

glioma, glioblastoma, immunotherapy, peptide vaccines, CAR-T therapy, oncolytic virus, Biology (General), QH301-705.5

Abstract

Glioblastoma (GBM) is the most common and aggressive central nervous system tumor, requiring multimodal management. Due to its malignant behavior and infiltrative growth pattern, GBM is one of the most difficult tumors to treat and gross total resection is still considered to be the first crucial step. The deep understanding of GBM microenvironment and the possibility of manipulating the patient’s innate and adaptive immune system to fight the neoplasm represent the base of immunotherapeutic strategies that currently express the future for the fight against GBM. Despite the immunotherapeutic approach having been successfully adopted in several solid and haematologic neoplasms, immune resistance and the immunosuppressive environment make the use of these strategies challenging in GBM treatment. We describe the most recent updates regarding new therapeutic strategies that target the immune system, immune checkpoint inhibitors, chimeric antigen receptor T cell therapy, peptide and oncolytic vaccines, and the relevant mechanism of immune resistance. However, no significant results have yet been obtained in studies targeting single molecules/pathways. The future direction of GBM therapy will include a combined approach that, in contrast to the inescapable current treatment modality of maximal resection followed by chemo- and radiotherapy, may combine a multifaceted immunotherapy treatment with the dual goals of directly killing tumor cells and activating the innate and adaptive immune response.

Published

2023

211. Enhanced effectiveness in preventing Nocardia seriolae infection utilizing heterologous prime-boost approach in orange-spotted grouper Epinephelus coioides.

Author

Nguyen, Phuong T.D., Giovanni, Andre, Maekawa, Shun, Wang, Pei-Chi, and Chen, Shih-Chu

Subjects

*NOCARDIOSIS, *PEPTIDE vaccines, *GROUPERS, *DNA vaccines, *EPINEPHELUS, *ORANGES, *NUCLEIC acids

Abstract

Persistent nocardiosis has prompted exploration of the effectiveness of heterologous approaches to prevent severe infections. We have previously reported the efficacy of a nucleic acid vaccine in protecting groupers from highly virulent Nocardia seriolae infections. Ongoing research has involved the supplementation of recombinant cholesterol oxidase (rCho) proteins through immunization with a DNA vaccine to enhance the protective capacity of orange-spotted groupers. Recombinant rCho protein exhibited a maturity and biological structure comparable to that expressed in N. seriolae , as confirmed by Western blot immunodetection assays. The immune responses observed in vaccinated groupers were significantly higher than those observed in single-type homologous vaccinations, DNA or recombinant proteins alone (pcD:Cho and rCho/rCho), especially cell-mediated immune and mucosal immune responses. Moreover, the reduction in N. seriolae occurrence in internal organs, such as the head, kidney, and spleen, was consistent with the vaccine's efficacy, which increased from approximately 71.4 % to an undetermined higher percentage through heterologous vaccination strategies of 85.7 %. This study underscores the potential of Cho as a novel vaccine candidate and a heterologous approach for combating chronic infections such as nocardiosis. • Utilizing a prime-boost heterologous vaccination strategy involving DNA and recombinant protein vaccines. • Novel antigen Cholesterol oxidase significantly protected orange-spotted grouper from Nocardia seriolae infection. • Enhances the RPS from 71.4 % to 85.7 % and diminishes the bacterial load in grouper organs. [ABSTRACT FROM AUTHOR]

Published

2024

212. Development of nanoparticle vaccines utilizing designed Fc-binding homo-oligomers and RBD-Fc of SARS-CoV-2.

Author

Liang, Yucai, Xiao, Weiling, Peng, Yuan, Zhang, Shengshuo, Dong, Jinhua, Zhao, Jun, Wang, Yuhui, Zhang, Mengtao, Liu, Zhijun, and Yu, Bowen

Subjects

*PEPTIDE vaccines, *VACCINE development, *SARS-CoV-2, *NANOPARTICLES, *COVID-19 vaccines, *OLIGOMERS

Abstract

The Fc-fused receptor binding domain (RBD-Fc) vaccine for SARS-CoV-2 has garnered significant attention for its capacity to provide effective and specific immune protection. However, its immunogenicity is limited, highlighting the need for improvement in clinical application. Nanoparticle delivery has been shown to be an effective method for enhancing antigen immunogenicity. In this study, we developed bivalent nanoparticle recombinant protein vaccines by assembling the RBD-Fc of SARS-CoV-2 and Fc-binding homo-oligomers o42.1 and i52.3 into octahedral and icosahedral nanoparticles. The formation of RBD-Fc nanoparticles was confirmed through structural characterization and cell binding experiments. Compared to RBD-Fc dimers, the nanoparticle vaccines induced more potent neutralizing antibodies (nAb) and stronger cellular immune responses. Therefore, using bivalent nanoparticle vaccines based on RBD-Fc presents a promising vaccination strategy against SARS-CoV-2 and offers a universal approach for enhancing the immunogenicity of Fc fusion protein vaccines. • RBD-Fc based nanoparticle vaccines are assembled using designed Fc-binding homo-oligomers. • RBD-Fc nanoparticle vaccines enhance the humoral and cellular immune response induced by RBD-Fc. • This study provides a feasible method for enhancing the immunogenicity of Fc fusion antigens. [ABSTRACT FROM AUTHOR]

Published

2024

213. Translational landscape of glioblastoma immunotherapy for physicians: guiding clinical practice with basic scientific evidence.

Author

Kreatsoulas, Daniel, Bolyard, Chelsea, Wu, Bill X., Cam, Hakan, Giglio, Pierre, and Li, Zihai

Subjects

*PHYSICIANS, *IMMUNE checkpoint inhibitors, *GLIOBLASTOMA multiforme, *IMMUNOTHERAPY, *CHIMERIC antigen receptors

Abstract

Despite recent advances in cancer therapeutics, glioblastoma (GBM) remains one of the most difficult cancers to treat in both the primary and recurrent settings. GBM presents a unique therapeutic challenge given the immune-privileged environment of the brain and the aggressive nature of the disease. Furthermore, it can change phenotypes throughout the course of disease—switching between mesenchymal, neural, and classic gene signatures, each with specific markers and mechanisms of resistance. Recent advancements in the field of immunotherapy—which utilizes strategies to reenergize or alter the immune system to target cancer—have shown striking results in patients with many types of malignancy. Immune checkpoint inhibitors, adoptive cellular therapy, cellular and peptide vaccines, and other technologies provide clinicians with a vast array of tools to design highly individualized treatment and potential for combination strategies. There are currently over 80 active clinical trials evaluating immunotherapies for GBM, often in combination with standard secondary treatment options including re-resection and anti-angiogenic agents, such as bevacizumab. This review will provide a clinically focused overview of the immune environment present in GBM, which is frequently immunosuppressive and characterized by M2 macrophages, T cell exhaustion, enhanced transforming growth factor-β signaling, and others. We will also outline existing immunotherapeutic strategies, with a special focus on immune checkpoint inhibitors, chimeric antigen receptor therapy, and dendritic cell vaccines. Finally, we will summarize key discoveries in the field and discuss currently active clinical trials, including combination strategies, burgeoning technology like nucleic acid and nanoparticle therapy, and novel anticancer vaccines. This review aims to provide the most updated summary of the field of immunotherapy for GBM and offer both historical perspective and future directions to help inform clinical practice. [ABSTRACT FROM AUTHOR]

Published

2022

214. Efficacy of an Experimental Gonococcal Lipooligosaccharide Mimitope Vaccine Requires Terminal Complement.

Author

Lewis, Lisa A, Gulati, Sunita, Zelek, Wioleta M, Morgan, B Paul, Song, Wen-Chao, Zheng, Bo, Nowak, Nancy, DeOliveira, Rosane B, Sanchez, Bryan, Silva, Leandro DeSouza, Schuurman, Janine, Beurskens, Frank, Ram, Sanjay, Rice, Peter A, and DeSouza Silva, Leandro

Subjects

*GONORRHEA prevention, *BIOLOGICAL models, *LIPOPOLYSACCHARIDES, *COMPLEMENT (Immunology), *PEPTIDE vaccines, *NEISSERIA, *RESEARCH funding, *MICE, *BACTERIAL vaccines, *ANIMALS

Abstract

A safe and effective vaccine against multidrug-resistant gonorrhea is urgently needed. An experimental peptide vaccine called TMCP2 that mimics an oligosaccharide epitope in gonococcal lipooligosaccharide, when adjuvanted with glucopyranosyl lipid adjuvant-stable emulsion, elicits bactericidal immunoglobulin G and hastens clearance of gonococci in the mouse vaginal colonization model. In this study, we show that efficacy of TMCP2 requires an intact terminal complement pathway, evidenced by loss of activity in C9-/- mice or when C7 function was blocked. In conclusion, TMCP2 vaccine efficacy in the mouse vagina requires membrane attack complex. Serum bactericidal activity may serve as a correlate of protection for TMCP2. [ABSTRACT FROM AUTHOR]

Published

2022

215. The E484K Substitution in a SARS-CoV-2 Spike Protein Subunit Vaccine Resulted in Limited Cross-Reactive Neutralizing Antibody Responses in Mice.

Author

Hu, Longbo, Xu, Yuhua, Wu, Liping, Feng, Jin, Zhang, Lu, Tang, Yongjie, Zhao, Xiang, Mai, Runming, Chen, Liyun, Mei, Lingling, Tan, Yuanzhen, Du, Yingying, Zhen, Yanping, Su, Wenhan, and Peng, Tao

Subjects

*PEPTIDE vaccines, *SARS-CoV-2, *ANTIBODY formation, *VACCINE trials, *MUTANT proteins

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), especially emerging variants, poses an increased threat to global public health. The significant reduction in neutralization activity against the variants such as B.1.351 in the serum of convalescent patients and vaccinated people calls for the design of new potent vaccines targeting the emerging variant. However, since most vaccines approved and in clinical trials are based on the sequence of the original SARS-CoV-2 strain, the immunogenicity and protective efficacy of vaccines based on the B.1.351 variant remain largely unknown. In this study, we evaluated the immunogenicity, induced neutralization activity, and protective efficacy of wild-type spike protein nanoparticle (S-2P) and mutant spike protein nanoparticle (S-4M-2P) carrying characteristic mutations of B.1.351 variant in mice. Although there was no significant difference in the induction of spike-specific IgG responses in S-2P- and S-4M-2P-immunized mice, neutralizing antibodies elicited by S-4M-2P exhibited noteworthy, narrower breadth of reactivity with SARS-CoV-2 variants compared with neutralizing antibodies elicited by S-2P. Furthermore, the decrease of induced neutralizing antibody breadth at least partly resulted from the amino acid substitution at position 484. Moreover, S-4M-2P vaccination conferred insufficient protection against live SARS-CoV-2 virus infection, while S-2P vaccination gave definite protection against SARS-CoV-2 challenge in mice. Together, our study provides direct evidence that the E484K substitution in a SARS-CoV-2 subunit protein vaccine limited the cross-reactive neutralizing antibody breadth in mice and, more importantly, draws attention to the unfavorable impact of this mutation in spike protein of SARS-CoV-2 variants on the induction of potent neutralizing antibody responses. [ABSTRACT FROM AUTHOR]

Published

2022

216. Peptide-Based Vaccines and Therapeutics for COVID-19.

Author

Bagwe, Pritam V., Bagwe, Priyal V., Ponugoti, Sai Srinivas, and Joshi, Shreerang V.

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has been prevalent in the humans since 2019 and has given rise to a pandemic situation. With the discovery and ongoing use of drugs and vaccines against SARS-CoV-2, there is still no surety of its complete suppression of this disease or if there is a need for additional booster doses. There is an urgent need for alternative treatment strategies against COVID-19. Peptides and peptidomimetics have several advantages as therapeutic agents because of their target selectivity, better interactions, and lower toxicity. Minor structural alterations to peptides can help prevent their fast metabolism and provide long-action. This comprehensive review provides an overview of different peptide-based vaccines and therapeutics against SARS-CoV-2. It discusses the design and mechanism of action of the peptide-based vaccines, peptide immunomodulators, anti-inflammatory agents, and peptides as entry inhibitors of SARS-CoV-2. Moreover, the mechanism of action, sequences and current clinical trial studies are also summarized. The review also discusses the future aspects of peptide-based vaccines and therapeutics for COVID-19. [ABSTRACT FROM AUTHOR]

Published

2022

217. New modular platform based on multi-adjuvanted amphiphilic chitosan nanoparticles for efficient lipopeptide vaccine delivery against group A streptococcus.

Author

Norpi, Abdin Shakirin Mohamad, Nordin, Muhammad Luqman, Ahmad, Nuraziemah, Katas, Haliza, Fuaad, Abdullah Al-Hadi Ahmad, Sukri, Asif, Marasini, Nirmal, and Azmi, Fazren

Subjects

*CHITOSAN, *STREPTOCOCCUS, *NANOPARTICLES, *PEPTIDES, *BIOSURFACTANTS, *PEPTIDE vaccines

Abstract

An effective vaccine against group A streptococcus (GAS) is highly desirable for definitive control of GAS infections. In the present study, two variants of amphiphilic chitosan nanoparticles-based GAS vaccines were developed. The vaccines were primarily composed of encapsulated KLH protein (a source of Thelper cell epitopes) and lipidated M-protein derived B cell peptide epitope (lipoJ14) within the amphiphilic structure of nanoparticles. The only difference between them was one of the nanoparticles vaccines received additional surface coating with poly (I:C). The formulated vaccines exhibited nanosized particles within the range of 220-240 nm. Cellular uptake study showed that nanoparticles vaccine without additional poly (I:C) coating has greater uptake by dendritic cells and macrophages compared to nanoparticles vaccine that was functionalized with poly (I:C). Both vaccines were found to be safe in mice and showed negligible cytotoxicity against HEK293 cells. Upon immunization in mice, both nanoparticle vaccines produced high antigen-specific antibodies titres that were regulated by a balanced Th1 and Th2 response compared to physical mixture. These antibodies elicited high opsonic activity against the tested GAS strains. Overall, our data demonstrated that amphiphilic chitosan nanoparticles platform induced a potent immune response even without additional inclusion of poly (I:C). [ABSTRACT FROM AUTHOR]

Published

2022

218. A Mutated Prostatic Acid Phosphatase (PAP) Peptide-Based Vaccine Induces PAP-Specific CD8 + T Cells with Ex Vivo Cytotoxic Capacities in HHDII/DR1 Transgenic Mice.

Author

Vu, Pauline Le, Vadakekolathu, Jayakumar, Idri, Sarra, Nicholls, Holly, Cavaignac, Manon, Reeder, Stephen, Khan, Masood A., Christensen, Dennis, Pockley, Alan Graham, and McArdle, Stéphanie E.

Subjects

*BIOLOGICAL models, *ANIMAL experimentation, *CASTRATION-resistant prostate cancer, *PEPTIDE vaccines, *TRANSGENIC animals, *MICE

Abstract

Simple Summary: Treatments for castrate (hormone)-resistant prostate cancer (CRPC) remain limited and are not curative. Although the first (and only) FDA-approved vaccine for CRPC (PROVENGE®, Sipuleucel-T) has been shown to improve the overall survival of patients, it is not curative and its cost prevents its widespread use. PROVENGE® induces immunity to prostatic acid phosphatase (PAP), a protein which is highly expressed in prostate cancer (PCa). Herein, we have developed a new PAP-based vaccine for PCa and demonstrated the presence of circulating PAP-specific CD8+ T cells that are responsive to this vaccine in patients with PCa. We have also shown that this new PAP sequence-derived peptide containing a modified amino sequence, in association with a strong adjuvant called CAF®09, induces strong immune responses and cytotoxic potential in a murine HHDII/DR1 transgenic model. Background: Current treatments for castrate (hormone)-resistant prostate cancer (CRPC) remain limited and are not curative, with a median survival from diagnosis of 23 months. The PAP-specific Sipuleucel-T vaccine, which was approved by the FDA in 2010, increases the Overall Survival (OS) by 4 months, but is extremely expensive. We have previously shown that a 15 amino accid (AA) PAP sequence-derived peptide could induce strong immune responses and delay the growth of murine TRAMP-C1 prostate tumors. We have now substituted one amino acid and elongated the sequence to include epitopes predicted to bind to several additional HLA haplotypes. Herein, we present the immunological properties of this 42mer-mutated PAP-derived sequence (MutPAP42mer). Methods: The presence of PAP-135-143 epitope-specific CD8+ T cells in the blood of patients with prostate cancer (PCa) was assessed by flow cytometry using Dextramer™ technology. HHDII/DR1 transgenic mice were immunized with mutated and non-mutated PAP-derived 42mer peptides in the presence of CAF®09 or CpG ODN1826 (TLR-9 agonist) adjuvants. Vaccine-induced immune responses were measured by assessing the proportion and functionality of splenic PAP-specific T cells in vitro. Results: PAP-135-143 epitope-specific CD8+ T cells were detected in the blood of patients with PCa and stimulation of PBMCs from patients with PCa with mutPAP42mer enhanced their capacity to kill human LNCaP PCa target cells expressing PAP. The MutPAP42mer peptide was significantly more immunogenic in HHDII/DR1 mice than the wild type sequence, and immunogenicity was further enhanced when combined with the CAF®09 adjuvant. The vaccine induced secretory (IFNγ and TNFα) and cytotoxic CD8+ T cells and effector memory splenic T cells. Conclusions: The periphery of patients with PCa exhibits immune responsiveness to the MutPAP42mer peptide and immunization of mice induces/expands T cell-driven, wild-type PAP immunity, and therefore, has the potential to drive protective anti-tumor immunity in patients with PCa. [ABSTRACT FROM AUTHOR]

Published

2022

219. Tuberculosis Vaccine: Past Experiences and Future Prospects

Author

Kaur, Gurpreet, Das, Deepjyoti K., Singh, Sanpreet, Khan, Junaid, Sajid, Mohammad, Bashir, Hilal, Aqdas, Mohammad, Negi, Shikha, Gowthaman, Uthaman, Agrewala, Javed N., Hasnain, Seyed Ehtesham, editor, Ehtesham, Nasreen Z., editor, and Grover, Sonam, editor

Published

2019

220. Ex vivo Platforms to Study the Primary and Recall Immune Responses to Intracellular Mycobacterial Pathogens and Peptide-Based Vaccines

Author

William C. Davis, Asmaa H. Mahmoud, Gaber S. Abdellrazeq, Mahmoud M. Elnaggar, John L. Dahl, Victoria Hulubei, and Lindsay M. Fry

Subjects

Mycobacterium tuberculosis, Mycobacterium bovis, Mycobacterium avium subspecies paratuberculosis, cellular immune response, intracellular pathogens, peptide vaccines, Veterinary medicine, SF600-1100

Abstract

Progress in the study of the immune response to pathogens and candidate vaccines has been impeded by limitations in the methods to study the functional activity of T-cell subsets proliferating in response to antigens processed and presented by antigen presenting cells (APC). As described in this review, during our studies of the bovine immune response to a candidate peptide-based vaccine and candidate rel deletion mutants in Mycobacterium avium paratuberculosis (Map) and Mycbacterium bovis (BCG), we developed methods to study the primary and recall CD4 and CD8 T-cell responses using an ex vivo platform. An assay was developed to study intracellular killing of bacteria mediated by CD8 T cells using quantitative PCR to distinguish live bacteria from dead bacteria in a mixed population of live and dead bacteria. Through use of these assays, we were able to demonstrate vaccination with live rel Map and BCG deletion mutants and a Map peptide-based vaccine elicit development of CD8 cytotoxic T cells with the ability to kill intracellular bacteria using the perforin-granzyme B pathway. We also demonstrated tri-directional signaling between CD4 and CD8 T cells and antigen-primed APC is essential for eliciting CD8 cytotoxic T cells. Herein, we describe development of the assays and review progress made through their use in the study of the immune response to mycobacterial pathogens and candidate vaccines. The methods obviate some of the major difficulties encountered in characterizing the cell-mediated immune response to pathogens and development of attenuated and peptide-based vaccines.

Published

2022

221. Antiaging Vaccines Targeting Senescent Cells.

Author

Mendelsohn, Andrew R. and Larrick, James W.

Subjects

*T cell receptors, *CHIMERIC antigen receptors, *PLASMINOGEN activators, *METABOLIC disorders, *ATHEROSCLEROTIC plaque, *VACCINES, *INFLAMMATION, *PEPTIDE vaccines, *AGING, *EPITHELIAL cells, *MICE, *ANIMALS, *PHARMACODYNAMICS

Abstract

The development of senomorphic drugs to attenuate the senescent phenotype and senolytics to clear pro-inflammatory senescent cells (SCs) to treat aging-associated disorders is being hotly pursued. The effort is complicated by the fact that SCs play a constructive role in some cellular processes such as tissue repair and wound healing. However, concerns about efficacy, which SCs to target, and unwanted side effects have created potential roadblocks. Chimeric antigen receptor T cells directed against urokinase-type plasminogen activator receptor, which is expressed on at least a subset of SCs in atherosclerotic plaques and fibrotic livers, removed SC and improved glucose metabolism. A vaccine targeting CD153-expressing senescent T cells also improved glucose metabolism in obese mice. Recent work to selectively target SCs associated with several pathologies has resulted in the creation of a peptide vaccine that primarily targets endothelial cells expressing high levels of GPNMB, recently identified as a biomarker of senescence. The vaccine reduces atherosclerotic plaque burden and metabolic dysfunction such as glucose intolerance in mouse models of obesity and atherosclerosis. For translation to humans the activity of the vaccine will need to be tightly controlled, as the target GPNMB has multiple roles in normal physiology, including acting to inhibit and possibly resolve inflammation. A promising alternative approach would be to use passive immunization with a monoclonal antibody directed against GPNMB. [ABSTRACT FROM AUTHOR]

Published

2022

222. H5 cleavage-site peptide vaccine protects chickens from lethal infection by highly pathogenic H5 avian influenza viruses.

Author

Jang, Yunyueng and Seo, Sang Heui

Subjects

*AVIAN influenza, *AVIAN influenza A virus, *PEPTIDES, *CHICKENS, *H5N1 Influenza, *PEPTIDE vaccines

Abstract

Highly pathogenic H5Nx avian influenza viruses constantly threaten the poultry industry and humans and have pandemic potential. These viruses continuously evolve, requiring a universal vaccine to protect chickens from members of diverse clades. The purpose of this study was to develop an H5 cleavage-site peptide vaccine containing polybasic amino acids (RRRK) to completely protect chickens from H5N6, H5N8, and H5N1 avian influenza viruses. Chickens were immunized with various doses of a keyhole limpet hemocyanin (KLH)-conjugated H5 cleavage-site peptide vaccine containing RRRK. The effect of RRRK was evaluated by comparing the survival rates of chickens immunized with vaccines either containing or lacking RRRK. The ability of the RRRK-containing vaccine to confer long-term protective immunity was also assessed. We found that protection was dependent on the number of antigens in the vaccine containing RRRK. Chickens immunized intramuscularly with two doses of 5 μg of the vaccine containing RRRK were completely protected, but those immunized with fewer than two doses of 3 or 1 μg were not protected. Chickens immunized with the vaccine lacking RRRK were not protected, suggesting the importance of the polybasic amino acids in conferring immunity. Our results suggest that conserved H5 cleavage-site peptides with polybasic amino acids may be a potential universal vaccine to protect chickens from various emerging clades of H5Nx avian influenza viruses. [ABSTRACT FROM AUTHOR]

Published

2022

223. New Generation Vaccines for COVID-19 Based on Peptide, Viral Vector, Artificial Antigen Presenting Cell, DNA or mRNA.

Author

Rezaei, Marzieh and Nazari, Mahboobeh

Subjects

*COVID-19, *COVID-19 vaccines, *PEPTIDE vaccines, *COVID-19 pandemic, *PHARMACODYNAMICS

Abstract

At present, effective vaccines have been developed as the most successful approaches for preventing widespread infectious disease. The global efforts are focusing with the aim of eliminating and overcoming the Coronavirus Disease 2019 (COVID-19) and are developing vaccines from the date it was announced as a pandemic disease. In this study, PubMed, Embase, Cochrane Library, Clinicaltrial.gov, WHO reports, Science Direct, Scopus, Google Scholar, and Springer databases were searched for finding the relevant studies about the COVID-19 vaccines. This article provides an overview of multiple vaccines that have been manufactured from December 2020 up to April 2021 and also offers a perspective on their efficacy, safety, advantages, and limitations. Currently, there are several categories of COVID-19 vaccines based on Protein Subunit (PS), Inactivated Virus (IV), Virus Like Particle (VLP), Live Attenuated Virus (LAV), Viral Vector (replicating) (VVr) and Viral Vector (non-replicating) (VVnr) in progress or finalized as indicated by the WHO reporting of April 1, 2020. [ABSTRACT FROM AUTHOR]

Published

2022

224. Editorial: Plant molecular farming for the production of next-generation vaccines and biologics -- prospects and challenges.

Author

Shanmugaraj, Balamurugan and Hefferon, Kathleen

Subjects

MONOCLONAL antibodies, BIOLOGICALS, BOTANY, VACCINES, AGRICULTURE, PEPTIDE vaccines

Abstract

This document is an editorial published in the journal Frontiers in Plant Science. It discusses the use of plants as production platforms for the generation of vaccines, monoclonal antibodies, and other therapeutic agents, known as plant molecular farming. The editorial highlights the benefits of using plants for vaccine production, such as cost-effectiveness, scalability, and the ability to store vaccines at ambient temperatures. It also covers various research topics related to plant-made pharmaceuticals, including the production of monoclonal antibodies, advances in glycan engineering, and the use of plants in addressing food-borne illnesses. The editorial emphasizes the relevance and potential of molecular farming in addressing global health issues. [Extracted from the article]

Published

2024

225. Editorial: Synthetic peptide vaccine platforms targeting tumor-specific antigens: advances and challenges.

Author

Rubsamen, Reid M. and Sloan, Andrew E.

Subjects

PEPTIDE vaccines, ANTIGENS, VIRUS-like particles, T cell receptors, PROTEIN structure prediction, MOLECULAR biology, CANCER vaccines

Abstract

This article is an editorial published in Frontiers in Pharmacology titled "Synthetic peptide vaccine platforms targeting tumor-specific antigens: advances and challenges." The authors discuss the discovery and therapeutic aspects of peptide vaccine platforms, specifically in relation to identifying potential antigen targets on tumors and strategies to enhance their immunogenicity. The article highlights advancements in computational techniques for identifying immunogenic peptide antigens, as well as the use of toll-like receptor agonists to improve the immunogenicity of vaccines. The authors emphasize the importance of confirming peptide binding characteristics through in-vivo or in-vitro determination. The article concludes by discussing the potential advantages of synthetic peptide vaccine platforms and the increasing tools available for designing peptide vaccines for oncology applications. [Extracted from the article]

Published

2024

226. Peptides-based therapy and diagnosis. Strategies for non-invasive therapies in cancer.

Author

Ciobanasu, Corina

Subjects

*CELL receptors, *DIAGNOSIS, *CAUSES of death, *CANCER treatment, *QUALITY of life

Abstract

In recent years, remarkable progress was registered in the field of cancer research. Though, cancer still represents a major cause of death and cancer metastasis a problem seeking for urgent solutions as it is the main reason for therapeutic failure. Unfortunately, the most common chemotherapeutic agents are non-selective and can damage healthy tissues and cause side effects that affect dramatically the quality of life of the patients. Targeted therapy with molecules that act specifically at the tumour sites interacting with overexpressed cancer receptors is a very promising strategy for achieving the specific delivery of anticancer drugs, radioisotopes or imaging agents. This review aims to give an overview on different strategies for targeting cancer cell receptors localised either at the extracellular matrix or at the cell membrane. Molecules like antibodies, aptamers and peptides targeting the cell surface are presented with advantages and disadvantages, with emphasis on peptides. The most representative peptides are described, including cell penetrating peptides, homing and anticancer peptides with particular consideration on recent discoveries. [ABSTRACT FROM AUTHOR]

Published

2021

227. CASC5 is a potential cancer-testis gene in human urinary bladder transitional cell carcinoma.

Author

Singh, Pankaj Kumar, Bhatt, Madan Lal Brahma, Singh, Prabhat, rath, Srikanta Kumar, Dalela, Diwakar, and Goel, Madhu Mati

Subjects

*TRANSITIONAL cell carcinoma, *HUMAN genes, *BENIGN prostatic hyperplasia, *SMOKING, *SPERMATOGENESIS, CANCER susceptibility

Abstract

Urinary Bladder cancer (UBC) is a diversified disease with an array of clinicopathological attributes. Several studies have shown that cancer susceptibility candidate 5 (CASC5) plays important roles in various types of malignancies; however its expression and clinical significance in human UBC remain largely unknown. This research study was intended to explore mRNA/protein expression pattern of CASC5 as a member of the cancer-testis (CT) gene family and assess its clinical utility in diagnostic management of patients with UBC. Quantitative real-time PCR (qRTPCR) and immunohistochemistry (IHC) was employed to appraise the detailed expression profile of CASC5 in patients with UBC. The mRNA over expression of CASC5 was detected in testis tissue and relatively high frequency 59.2% (45 of 76) of CASC5 mRNA was detected in UBC tissues. CASC5 mRNA relative mean fold expression was also significantly (p < 0.01) higher in the muscleinvasive tumor tissues compared to non-muscle-invasive tumor tissues (12.26 ± 9.53 vs. 4.64 ± 2.50, p = 0.005). Heterogeneous staining pattern of CASC5 protein was exclusively detected using IHC. The frequency of CASC5 protein over expression was detected in 67.7% (44 of 65) UBC patients and negative in benign prostatic hyperplasia (BPH). Further, CASC5 protein expression was significantly (p < 0.001) associated with cigarette smoking habit in UBC patients. Our study findings testified that CASC5 over expression among patients with UBC as compared to controls and concludes that CASC5 is a potential CT gene in UBC. [ABSTRACT FROM AUTHOR]

Published

2021

228. Armamentarium of Cryoprotectants in Peptide Vaccines: Mechanistic Insight, Challenges, Opportunities and Future Prospects.

Author

Dalvi, Harshita, Bhat, Aditi, Iyer, Akshaya, Sainaga Jyothi, Vaskuri G. S., Jain, Harsha, Srivastava, Saurabh, and Madan, Jitender

Subjects

*FREEZE-drying, *CRYOPROTECTIVE agents, *PEPTIDE vaccines, *COVALENT bonds, *STRUCTURAL stability, *VACCINE development

Abstract

Vaccines are designed to leverage the immune system and produce long-lasting protection against specific diseases. Peptide vaccines are regarded as safe and effective way of circumventing problems such as mild allergic reactions associated with conventional vaccines. The biggest challenges associated with formulation of peptide vaccines are stability issues and conformational changes which lead to destruction of their activity when exposed to lyophilization process that may act as stressors. Lyophilization process is aimed at removal of water which involves freezing, primary drying and secondary drying. To safeguard the peptide molecules from such stresses, cryoprotectants are used to offer them viability and structural stability. This paper is an attempt to understand the physicochemical properties of peptide vaccines, mechanism of cryoprotection under the shed of water replacement, water substitution theory and cation-pi interaction theory of amino acids which aims at shielding the peptide from external environment by formation of hydrogen bonds, covalent bonds or cation-pi interaction between cryoprotectant and peptide followed by selection criteria of cryoprotectants and their utility in peptide vaccines development along with challenges and opportunities. [ABSTRACT FROM AUTHOR]

Published

2021

229. New Computational Approach for Peptide Vaccine Design Against SARS-COV-2.

Author

Biswas, Subhamoy, Manna, Smarajit, Nandy, Ashesh, and Basak, Subhash C.

Subjects

*SARS-CoV-2, *AMINO acid sequence, *NORMALIZED measures, *PEPTIDE vaccines, *GENOMICS, *TRIANGLES

Abstract

The design for vaccines using in silico analysis of genomic data of different viruses has taken many different paths, but lack of any precise computational approach has constrained them to alignment methods and some alignment-free techniques. In this work, a precise computational approach has been established wherein two new mathematical parameters have been suggested to identify the highly conserved and surface-exposed regions which are spread over a large region of the surface protein of the virus so that one can determine possible peptide vaccine candidates from those regions. The first parameter, w, is the sum of the normalized values of the measure of surface accessibility and the normalized measure of conservativeness, and the second parameter is the area of a triangle formed by a mathematical model named 2D Polygon Representation. This method has been, therefore, used to determine possible vaccine targets against SARS-CoV-2 by considering its surface-situated spike glycoprotein. The results of this model have been verified by a parallel analysis using the older approach of manually estimating the graphs describing the variation of conservativeness and surface-exposure across the protein sequence. Furthermore, the working of the method has been tested by applying it to find out peptide vaccine candidates for Zika and Hendra viruses respectively. A satisfactory consistency of the model results with pre-established results for both the test cases shows that this in silico alignment-free analysis proposed by the model is suitable not only to determine vaccine targets against SARS-CoV-2 but also ready to extend against other viruses. [ABSTRACT FROM AUTHOR]

Published

2021

230. A phase I study assessing the safety, tolerability, immunogenicity, and low-density lipoprotein cholesterol-lowering activity of immunotherapeutics targeting PCSK9.

Author

Zeitlinger, Markus, Bauer, Martin, Reindl-Schwaighofer, Roman, Stoekenbroek, Robert M., Lambert, Gilles, Berger-Sieczkowski, Evelyn, Lagler, Heimo, Oesterreicher, Zoe, Wulkersdorfer, Beatrix, Lührs, Petra, Galabova, Gergana, Schwenke, Carsten, Mader, Robert M., Medori, Rossella, Landlinger, Christine, Kutzelnigg, Alexandra, and Staffler, Günther

Subjects

*LDL cholesterol, *PEPTIDE vaccines, *RANDOMIZED controlled trials, *BLIND experiment, *STATISTICAL sampling, *IMMUNOTHERAPY

Abstract

Purpose: AT04A and AT06A are two AFFITOPE® peptide vaccine candidates being developed for the treatment of hypercholesterolemia by inducing proprotein convertase subtilisin/kexin type 9 (PCSK9)-specific antibodies. This study aimed to investigate safety, tolerability, antibody development, and reduction of low-density lipoprotein cholesterol (LDLc) following four subcutaneous immunizations. Methods: This phase I, single-blind, randomized, placebo-controlled study was conducted in a total of 72 healthy subjects with a mean fasting LDLc level at baseline of 117.1 mg/dL (range 77–196 mg/dL). Each cohort enrolled 24 subjects to receive three priming immunizations at weeks 0, 4, and 8 and to receive a single booster immunization at week 60 of either AT04A, AT06A, or placebo. In addition to safety (primary objective), the antigenic peptide- and PCSK9-specific antibody response and the impact on LDLc were evaluated over a period of 90 weeks. Results: The most common systemic treatment-related adverse events (AEs) reported were fatigue, headache, and myalgia in 75% of subjects in the AT06A group and 58% and 46% of subjects in the placebo and AT04A groups, respectively. Injection site reactions (ISR) representing 63% of all treatment-emergent adverse events (TEAEs), were transient and mostly of mild or moderate intensity and rarely severe (3%). Both active treatments triggered a robust, long-lasting antibody response towards the antigenic peptides used for immunization that optimally cross-reacted with the target epitope on PCSK9. In the AT04A group, a reduction in serum LDLc was observed with a mean peak reduction of 11.2% and 13.3% from baseline compared to placebo at week 20 and 70 respectively, and over the whole study period, the mean LDLc reduction for the AT04A group vs. placebo was −7.2% (95% CI [−10.4 to −3.9], P < 0.0001). In this group, PCSK9 target epitope titers above 50 were associated with clinically relevant LDLc reductions with an individual maximal decrease of 39%. Conclusions: Although both AT04A and AT06 were safe and immunogenic, only AT04A demonstrated significant LDLc-lowering activity, justifying further development. Trial registration: EudraCT: 2015-001719-11. ClinicalTrials.gov Identifier: NCT02508896. [ABSTRACT FROM AUTHOR]

Published

2021

231. Mathematical Algorithms for Finding the Optimal Composition of the Amino Acid Composition of Peptides Used as a Therapy

Author

Koshlan, Tatiana, Kulikov, Kirill, Aizawa, Masuo, Series Editor, Austin, Robert H., Series Editor, Gerstman, Bernard S., Editor-in-Chief, Barber, James, Series Editor, Berg, Howard C., Series Editor, Callender, Robert, Series Editor, Feher, George, Series Editor, Frauenfelder, Hans, Series Editor, Giaever, Ivar, Series Editor, Joliot, Pierre, Series Editor, Keszthelyi, Lajos, Series Editor, King, Paul W., Series Editor, Lazzi, Gianluca, Series Editor, Lewis, Aaron, Series Editor, Lindsay, Stuart M., Series Editor, Liu, Xiang Yang, Series Editor, Mauzerall, David, Series Editor, Mielczarek, Eugenie V., Series Editor, Niemz, Markolf, Series Editor, Parsegian, V. Adrian, Series Editor, Powers, Linda S., Series Editor, Prohofsky, Earl W., Series Editor, Rostovtseva, Tatiana K., Series Editor, Rubin, Andrew, Series Editor, Seibert, Michael, Series Editor, Tao, Nongjian, Series Editor, Thomas, David, Series Editor, Koshlan, Tatiana, and Kulikov, Kirill

Published

2018

232. Increased Efficacy of NKT Cell-Adjuvanted Peptide Vaccines Through Chemical Conjugation

Author

Hayman, Colin M., Hermans, Ian F., Painter, Gavin F., Witczak, Zbigniew J., editor, and Bielski, Roman, editor

Published

2018

233. Vaccine Therapy in Pancreatic Cancer

Author

Weinberg, Benjamin A., Pishvaian, Michael J., Bekaii-Saab, Tanios, editor, and El-Rayes, Bassel, editor

Published

2018

234. "Mini Circular Rna Therapeutics And Vaccines And Methods Of Use Thereof" in Patent Application Approval Process (USPTO 20240299520).

Subjects

SARS-CoV-2, DOUBLE-stranded RNA, NUCLEOTIDE sequence, CYTOTOXIC T cells, PEPTIDE vaccines, BACTERIAL vaccines

Abstract

A patent application has been filed for synthetic mini circular RNA constructs that can be used as vaccines. These constructs aim to address challenges with the stability and production of mRNA vaccines by offering improved biostability, smaller size, and the ability to activate innate immunity. The mini circular RNA vectors have the potential to produce a strong immune response and may be particularly useful in cancer treatment and infectious disease prevention. The patent application also includes methods for preparing and administering these circRNA vaccines. [Extracted from the article]

Published

2024

235. Researchers from University of Oxford Describe Findings in Peptide Vaccines (Her2/neu-based Vaccination With Li-key Hybrid, Gm-csf Immunoadjuvant and Trastuzumab As a Potent Triple-negative Breast Cancer Treatment).

Subjects

PEPTIDE drugs, PEPTIDE vaccines, TRIPLE-negative breast cancer, EPIDERMAL growth factor receptors, COMMUNICABLE disease control, PULMONARY alveolar proteinosis

Abstract

A study conducted by researchers from the University of Oxford in the United Kingdom has found that a peptide vaccine based on the HER2/neu antigen, in combination with the li-Key hybrid and the immunoadjuvant GM-CSF, shows promise as a treatment for triple-negative breast cancer. The study analyzed nine clinical trials involving HER2/neu-based vaccines and found that they elicited immunological responses and improved disease-free survival, particularly in the triple-negative breast cancer population. The researchers suggest that combining the li-Key hybrid vaccine with targeted drugs and adjuvants could further enhance the effectiveness of the vaccine. [Extracted from the article]

Published

2024

236. Chinese Academy of Sciences Researchers Have Provided New Study Findings on Cancer Vaccines (Engineering PEG10-assembled endogenous virus-like particles with genetically encoded neoantigen peptides for cancer vaccination).

Subjects

PEPTIDE vaccines, BIOLOGICAL products, CANCER vaccines, VIRUS-like particles, CARRIER proteins

Abstract

Chinese Academy of Sciences researchers have developed a novel cancer vaccine called ePAC, which utilizes a protein carrier called PEG10 to deliver genetically encoded neoantigens to dendritic cells (DCs). The vaccine has shown promising results in targeting and transporting neoantigens to DCs, promoting DC maturation, and inducing neoantigen-specific T cells. In mouse and humanized mouse tumor models, ePAC combined with anti-TIM-3 demonstrated significant antitumor efficacy. These findings suggest that ePAC could be a safe and effective cancer vaccine for clinical translation. [Extracted from the article]

Published

2024

237. Patent Issued for Peptides and combination of peptides for use in immunotherapy against prostate cancer and other cancers (USPTO 12076381).

Subjects

TUMOR antigens, CLINICAL trials, PROSTATE cancer, MEMBRANE proteins, VIRAL proteins, RETICULO-endothelial system

Abstract

Immatics Biotechnologies GmbH has been granted a patent for peptides that can be used in immunotherapy for prostate cancer and other types of cancer. Prostate cancer is a global health concern, and current treatment options vary depending on the stage of the cancer. Immunotherapy, which targets tumor-associated antigens, shows promise as a cancer treatment. The patent describes specific peptides and their variants that bind to major histocompatibility complex (MHC) molecules and stimulate T cells to react with the peptides. These peptides have the potential to be used in the development of cancer vaccines. This article provides an objective overview of research and discoveries in the fields of immunology and oncology, covering topics such as antigen-presenting cells, proteins, peptides, and vaccination. It also highlights the significance of these findings in clinical research and the treatment of diseases like prostate cancer. This resource is valuable for library patrons seeking to stay informed about the latest advancements in this field. [Extracted from the article]

Published

2024

238. Studies from Vanung University in the Area of Gene Therapy Described (Novel Administration Routes, Delivery Vectors, and Application of Vaccines Based on Biotechnologies: A Review).

Subjects

GENE therapy, PEPTIDE vaccines, VACCINES, BIOTECHNOLOGY, BIOLOGICAL products

Abstract

The article focuses on recent research from Vanung University regarding advances in gene therapy and vaccine development. Topics discussed include novel vaccine platforms such as deoxyribonucleic acid (DNA) and messenger ribonucleic acid (mRNA) vaccines, innovative administration routes like microneedles and inhalation, and the use of new biotechnologies including viral vectors and nanoparticles for vaccine delivery and cancer prevention.

Published

2024

239. Researchers from University of Kentucky Publish Research in Peptide Vaccines (The Altered Neonatal CD8+ T Cell Immunodominance Hierarchy during Influenza Virus Infection Impacts Peptide Vaccination).

Abstract

A recent research article published in Vaccine Weekly discusses the impact of neonatal CD8+ T cell immunodominance hierarchy on peptide vaccination for influenza virus infection. The study found that neonates are more susceptible to influenza virus infection than adults, leading to increased morbidity and mortality. The researchers discovered that neonatal mice displayed an altered CD8+ T cell immunodominance hierarchy during influenza infection, responding differently to epitopes in the influenza protein PA compared to adult mice. The study suggests that considering epitope usage is important when designing vaccines for infants and adults. [Extracted from the article]

Published

2024

240. Researchers at China Pharmaceutical University Target Peptide Vaccines (Rlpmiec: High-affinity Peptide Generation Targeting Major Histocompatibility Complex-i Guided and Interpreted By Interaction Spectrum-navigated Reinforcement Learning).

Abstract

Researchers at China Pharmaceutical University have developed a deep reinforcement-learning algorithm called RLpMIEC to design peptide vaccines that target the major histocompatibility complex (MHC). The algorithm combines molecular interaction energy components and sequence information to generate peptides with strong binding affinity and precise interaction spectra. The research demonstrates the algorithm's capability in accelerating peptide-based vaccine development. This study has been peer-reviewed and provides valuable insights into the use of artificial intelligence in vaccine design. [Extracted from the article]

Published

2024

241. UTime Signs NDA to Acquire Monkeypox Vaccine Maker Bowen Therapeutics Inc and Supports Completion of FDA Registration of Related Vaccines.

Subjects

DNA virus diseases, PEPTIDE vaccines, VACCINE trials, BIOLOGICAL products, ANIMAL diseases

Abstract

UTime Limited has signed a non-disclosure agreement with Bowen Therapeutics Inc to acquire their laboratory at UMASS Medical School. This acquisition will support UTime's expansion in the global vaccine market and aid in the registration of a monkeypox vaccine through the FDA. Monkeypox has become a global concern, and Bowen Therapeutics has developed a hexavalent recombinant protein vaccine that shows promise in increasing virus-neutralizing antibodies and enhancing the protective effect of the vaccine. UTime will take over the laboratory, continue clinical trials, and assist in future vaccine development. This acquisition demonstrates UTime's commitment to addressing global public health challenges through innovation and technology. [Extracted from the article]

Published

2024

242. A Pilot Study of Targeting Driver Oncogenes With a Peptide Vaccine Plus Durvalumab and Tremelimumab for Patients With Biliary Tract Cancers.

Subjects

PEPTIDE vaccines, BILIARY tract cancer, HEPATITIS B vaccines, ONCOGENES, HEPATITIS D virus, GALLBLADDER cancer, DIGESTIVE system diseases, PULMONARY alveolar proteinosis

Abstract

The article focuses on a clinical trial led by Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins University in Maryland, assessing the safety and immune response of a personalized peptide vaccine (mBTCvax) combined with durvalumab and tremelimumab for advanced biliary tract cancer. It explains that the trial,, is set to start in September 2024 and aims to evaluate adverse events and immune responses over several years.

Published

2024

243. Patent Issued for Telomerase encoding DNA vaccine (USPTO 12064474).

Subjects

RECOMBINANT proteins, DNA vaccines, TELOMERASE, REVERSE transcriptase, CARRIER proteins, CELL death, ONCOLOGY

Abstract

The article focuses on a U.S. patent application for a novel DNA vaccine strategy targeting human telomerase reverse transcriptase (hTERT) for cancer immunotherapy. It explains that the invention overcomes limitations of peptide-based vaccines by avoiding human leukocyte antigen (HLA) restriction and enhancing immune responses, and includes a nucleic acid construct encoding an hTERT protein without catalytic activity or nucleolar localization signal.

Published

2024

244. Patent Issued for Compositions and method for optimized peptide vaccines using residue optimization (USPTO 12064475).

Subjects

PEPTIDE vaccines, RAS proteins, AMINO acid sequence, NUCLEIC acids

Abstract

The article focuses on a U.S. patent application by Think Therapeutics Inc., related to peptide vaccines and immunogenic compositions. It explains that the patent involves nucleic acid sequences encoding specific amino acid sequences to enhance immune responses against cancerous cells or pathogens, with potential applications in cancer prevention and treatment. The patent covers immunogenic compositions that include these sequences, aiming to induce protective or therapeutic immune responses.

Published

2024

245. New Study Findings from Medical University of Innsbruck Illuminate Research in Cancer Vaccines (Characterization of the Anti-Viral and Vaccine-Specific CD8+ T Cell Composition upon Treatment with the Cancer Vaccine VSV-GP).

Subjects

CANCER vaccines, T cells, CD8 antigen, PEPTIDE vaccines, CANCER research

Abstract

The article focuses on a study conducted at Medical University of Innsbruck in Australia, investigating factors influencing CD8+ T cell responses to cancer vaccines. The study found that a higher vaccine dose increases antigen-specific CD8+ T cell proportions, with intravenous administration yielding the highest proportion of these cells and the lowest anti-viral response. Additionally, the presence of a tumor and heterologous vaccine combinations further enhance CD8+ T cell responses.

Published

2024

246. Study Findings on Chronic Lymphocytic Leukemia Are Outlined in Reports from University Hospital Tubingen (iVAC-XS15-CLL01: personalized multi-peptide vaccination in combination with the TLR1/2 ligand XS15 in CLL patients undergoing...).

Subjects

CHRONIC lymphocytic leukemia, UNIVERSITY hospitals, CHRONIC leukemia, BRUTON tyrosine kinase, VACCINATION, FLUDARABINE, ALEMTUZUMAB

Abstract

The article focuses on a study conducted at University Hospital Tubingen in Germany evaluating a peptide-based vaccine for chronic lymphocytic leukemia (CLL) in patients undergoing Bruton's tyrosine kinase inhibitor therapy. The study found that the vaccine, developed from CLL-associated antigen peptides, aims to improve treatment responses and eliminate residual disease by inducing an anti-leukemic immune response.

Published

2024

247. Data from Mayo Clinic Vaccine Research Group Update Knowledge in Peptide Vaccines (Immunogenicity of a peptide-based vaccine for measles: a pilot evaluation in a mouse model).

Published

2024

248. Patent Issued for Peptide vaccines and pembrolizumab for treating breast cancer (USPTO 12059463).

Subjects

TRIPLE-negative breast cancer, METASTATIC breast cancer, PEPTIDE vaccines, BIOLOGICAL products, DNA vaccines

Abstract

A patent has been issued for a combination therapy involving peptide vaccines and pembrolizumab for the treatment of breast cancer. The patent, filed by Oncopep Inc., describes the use of immunogenic peptides that bind to MHC class 1 molecules to induce an immune response against cancer cells. The method involves administering pembrolizumab and specific peptides to patients with breast cancer, including triple negative breast cancer. The patent provides detailed information on the administration and dosage of the therapy. [Extracted from the article]

Published

2024

249. Reports Summarize Artificial Intelligence Study Results from University of Delhi (Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: Prioritizing epitope-based candidates).

Abstract

A recent study conducted by researchers at the University of Delhi focused on the development of a vaccine for Neisseria gonorrhoeae, the bacterium responsible for gonorrhea. The researchers used artificial intelligence and immuno-informatics to identify potential vaccine candidates. Through comprehensive analysis, they identified twenty proteins as potential targets for the vaccine. The study highlights the potential of these methods in the design of peptide-based vaccines for Neisseria gonorrhoeae. [Extracted from the article]

Published

2024

250. Patent Application Titled "Combined Agonist Adjuvant For Coronavirus Vaccine" Published Online (USPTO 20240252620).

Subjects

SARS-CoV-2, PEPTIDE vaccines, THERAPEUTICS, SARS disease, SENDAI virus, CORONAVIRUS diseases, ADENOVIRUS diseases

Abstract

A patent application titled "Combined Agonist Adjuvant For Coronavirus Vaccine" has been published online. The inventors highlight the need for vaccines that can provide robust and long-lasting protection against SARS-CoV-2 and its variants. The patent application describes an immunogenic composition that includes a nanoemulsion, an agonist of retinoic acid-inducible gene I (RIG-I) and/or an agonist of a toll-like receptor (TLR), and a coronavirus vaccine. The composition aims to induce an immune response against the coronavirus and generate neutralizing antibodies and T cell responses. The patent application provides various methods of administering the immunogenic composition to induce an immune response in a subject. [Extracted from the article]

Published

2024