Geoffrey M. Lynn scite author profile

The efficacy of vaccine adjuvants such as Toll-like receptor agonists (TLRa) can be improved through formulation and delivery approaches. Here, we attached small molecule TLR-7/8a to polymer scaffolds (polymer-TLR-7/8a) and evaluated how varying physicochemical properties of the TLR-7/8a and polymer carrier influenced the location, magnitude and duration of innate immune activation in vivo. Particle formation by polymer-TLR-7/8a was critical for restricting adjuvant distribution and prolonging activity in draining lymph nodes. The improved pharmacokinetic profile by particulate polymer-TLR-7/8a was also associated with reduced morbidity and enhanced vaccine immunogenicity for inducing antibodies and T cell immunity. We extended these findings to the development of a modular platform in which protein antigens are site-specifically linked to temperature-responsive polymer-TLR-7/8a adjuvants that self-assemble into immunogenic particles at physiologic temperatures in vivo. Our findings provide a chemical and structural basis for optimizing adjuvant design to elicit broad-based antibody and T cell responses with protein antigens.

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Protection against malaria at 1 year and immune correlates following PfSPZ vaccination

Ishizuka¹,

Lyke²,

DeZure³

et al. 2016

Nat Med

303

341

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In 2015 there were an estimated 214 million clinical cases and 438,000 deaths due to malaria 1 , primarily caused by Pf in children in sub-Saharan Africa. A highly effective vaccine is urgently needed to prevent malaria in individuals and to facilitate elimination of malaria from defined geographic areas. To achieve these goals, we established an interim target of >85% sterile protection against Pf infection for >6 months 2 .There is currently no malaria subunit vaccine that approaches this level of protection. The most extensively studied candidate malaria vaccine, RTS,S (a subunit vaccine based on the Pf circumsporozoite protein (PfCSP)), confers sterilizing protection against controlled human malaria infection (CHMI) in about 22% of healthy malarianaive adults 5 months after vaccination 3 . In a phase 3 field study, the efficacy of RTS,S against clinical malaria was 26% and 36% in young infants and children between the ages of 5 and 17 months, respectively, through 38-48 months of follow-up following a fourdose regimen on a 0-, 1-, 2-, and 20-month schedule 4 . Therefore, it is necessary to investigate alternative vaccination strategies that confer long-lived sterilizing protection 5,6 .Sustained sterilizing immunity against the pre-erythrocytic stages of Pf has been observed in humans immunized by wholeparasite approaches using mosquitoes for vaccination 7,8 . In a study An attenuated Plasmodium falciparum (Pf) sporozoite (SPZ) vaccine, PfSPZ Vaccine, is highly protective against controlled human malaria infection (CHMI) 3 weeks after immunization, but the durability of protection is unknown. We assessed how vaccine dosage, regimen, and route of administration affected durable protection in malaria-naive adults. After four intravenous immunizations with 2.7 × 10 5 PfSPZ, 6/11 (55%) vaccinated subjects remained without parasitemia following CHMI 21 weeks after immunization. Five non-parasitemic subjects from this dosage group underwent repeat CHMI at 59 weeks, and none developed parasitemia. Although Pf-specific serum antibody levels correlated with protection up to 21-25 weeks after immunization, antibody levels waned substantially by 59 weeks. Pf-specific T cell responses also declined in blood by 59 weeks.To determine whether T cell responses in blood reflected responses in liver, we vaccinated nonhuman primates with PfSPZ Vaccine. Pf-specific interferon-g-producing CD8 T cells were present at ~100-fold higher frequencies in liver than in blood. Our findings suggest that PfSPZ Vaccine conferred durable protection to malaria through long-lived tissue-resident T cells and that administration of higher doses may further enhance protection.

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Albumin/vaccine nanocomplexes that assemble in vivo for combination cancer immunotherapy

et al. 2017

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Subunit vaccines have been investigated in over 1000 clinical trials of cancer immunotherapy, but have shown limited efficacy. Nanovaccines may improve efficacy but have rarely been clinically translated. By conjugating molecular vaccines with Evans blue (EB) into albumin-binding vaccines (AlbiVax), here we develop clinically promising albumin/AlbiVax nanocomplexes that self-assemble in vivo from AlbiVax and endogenous albumin for efficient vaccine delivery and potent cancer immunotherapy. PET pharmacoimaging, super-resolution microscopies, and flow cytometry reveal almost 100-fold more efficient co-delivery of CpG and antigens (Ags) to lymph nodes (LNs) by albumin/AlbiVax than benchmark incomplete Freund’s adjuvant (IFA). Albumin/AlbiVax elicits ~10 times more frequent peripheral antigen-specific CD8+ cytotoxic T lymphocytes with immune memory than IFA-emulsifying vaccines. Albumin/AlbiVax specifically inhibits progression of established primary or metastatic EG7.OVA, B16F10, and MC38 tumors; combination with anti-PD-1 and/or Abraxane further potentiates immunotherapy and eradicates most MC38 tumors. Albumin/AlbiVax nanocomplexes are thus a robust platform for combination cancer immunotherapy.

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Peptide–TLR-7/8a conjugate vaccines chemically programmed for nanoparticle self-assembly enhance CD8 T-cell immunity to tumor antigens

et al. 2020

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Personalized cancer vaccines (PCVs) targeting patient-specific neoantigens are a promising cancer treatment modality; however, neoantigen physicochemical variability can present challenges to manufacturing PCVs in an optimal format for inducing anticancer T cells. Here, we developed a vaccine platform ("SNP-7/8a") based on charge-modified peptide-TLR-7/8a conjugates that are chemically programmed to self-assemble into nanoparticles of uniform size (~20 nm) irrespective of the peptide antigen composition. This approach provided precise loading of diverse peptide neoantigens linked to TLR-7/8a (adjuvant) in nanoparticles that increased uptake by and activation of antigen-presenting cells that promote T cell immunity. Vaccination of mice with SNP-7/8a using predicted neoantigens (n=179) from three tumor models induced CD8 T cells against ~50% of neoantigens with high predicted MHC-I binding affinity and led to enhanced tumor clearance. SNP-7/8a delivering in silico-designed mock neoantigens also induced CD8 T cells in non-human primates. Altogether, SNP-7/8a is a generalizable approach for co-delivering peptide antigens and adjuvants in nanoparticles for inducing anticancer T cell immunity.

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Antigen expression determines adenoviral vaccine potency independent of IFN and STING signaling

Quinn¹,

Zak²,

Costa³

et al. 2015

J. Clin. Invest.

123

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Redox Catalysis on “Naked” Silver Nanoparticles

et al. 2007

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Silver nanoparticles in aqueous suspensions were synthesized by reduction of silver oxide by H 2 following recently published procedures. 12 These particles contain no foreign stabilizers or any ions other than those from silver and water. The particles were characterized by their UV-vis absorption spectra, by transmission electron microscopy, by dynamic light-scattering-zeta potential determination, and by the pH dependence of the potential. The nanoparticles are stabilized by adsorption of hydroxide anions at the particles surface. Their zeta potential is ∼35 mV at pH 9; it is pH dependent and the point of zero charge is near neutral. The negative potential, the hydrophilic surface that is created by the adsorbed hydroxide ions, which resembles an oxide interface, and the low ionic strength of the solution due to the small salt concentrations in this synthetic approach all contribute to the unusual stability of the colloidal suspension. The amount of molecular hydrogen formed was determined following γ-irradiation of the silver suspensions in the presence of 2-propanol and acetone. In these suspensions, all of the radiolytically generated radicals are converted to reducing radicals capable of reducing water to H 2 . At low doses, however, the amount is very small but after a "conditioning" period the yield substantially increases. The conditioning stage is explored in detail, and it is shown that the main reaction responsible for the conditioning is reduction of residual silver ions in the solution. The steadystate concentration of residual Ag + ions that remains in the solution is determined by the relative rates of silver oxide dissolution and silver ions reduction during the synthesis. Analysis of the chemical composition of the suspensions at the end of the synthesis also indicates that a few percent of Ag + ions remain unreduced. Most of the unreduced ions are free in the bulk solution while a minority adsorbs at the particle surface. Once the conditioning stage is complete, essentially all reducing radicals generated by the irradiation can catalytically produce hydrogen. For the presently studied silver particles of 30 nm, competition between radicalradical recombination and hydrogen evolution is suppressed at >2 mM silver concentrations. Little is to be gained by increasing the catalyst concentration above this level.

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Intravenous nanoparticle vaccination generates stem-like TCF1+ neoantigen-specific CD8+ T cells

et al. 2020

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Personalized cancer vaccines are a promising approach for inducing T cell immunity to tumor neoantigens. Using a self-assembling nanoparticle vaccine that links neoantigen peptides to a TLR7/8 agonist (SNP-7/8a), we show how the route and dose alter the magnitude and quality of neoantigen-specific CD8 + T cells. Intravenous vaccination (SNP-IV) induced a higher proportion of TCF1 + PD-1 + CD8 + T cells compared to subcutaneous immunization (SNP-SC). Single cell RNA-seq showed that SNP-IV induced stem-like genes ( Tcf7, Slamf6, Xcl1 ) whereas SNP-SC enriched for effector genes ( Gzmb, Klrg1, Cx3cr1) . Stem-like cells generated by SNP-IV proliferated and differentiated into effector cells upon checkpoint blockade leading to superior antitumor response compared to SNP-SC in a therapeutic model. The duration of antigen presentation by dendritic cells controlled the magnitude and quality of CD8 + T cells. These data demonstrate how to optimize antitumor immunity by modulating vaccine parameters for specific generation of effector or stem-like CD8 + T cells.

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Fab-dimerized glycan-reactive antibodies are a structural category of natural antibodies

Williams

Meyerhoff

Edwards

et al. 2021

Cell

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Geoffrey M. Lynn

In vivo characterization of the physicochemical properties of polymer-linked TLR agonists that enhance vaccine immunogenicity

Protection against malaria at 1 year and immune correlates following PfSPZ vaccination

Albumin/vaccine nanocomplexes that assemble in vivo for combination cancer immunotherapy

Peptide–TLR-7/8a conjugate vaccines chemically programmed for nanoparticle self-assembly enhance CD8 T-cell immunity to tumor antigens

Antigen expression determines adenoviral vaccine potency independent of IFN and STING signaling

Redox Catalysis on “Naked” Silver Nanoparticles

Intravenous nanoparticle vaccination generates stem-like TCF1+ neoantigen-specific CD8+ T cells

Fab-dimerized glycan-reactive antibodies are a structural category of natural antibodies

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