P. Hraber’s research while affiliated with Los Alamos National Laboratory and other places

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Publications (333)


Fig. 4. Nanoparticles made with plasmid DNA are as stable as P4 only nanoparticles. P4 nanoparticle size (A, B) and zeta potential (C, D) at human body temperature (37 • C) with and without the inclusion of plasmid DNA, were measured as a function of pH. Nanoparticles were prepared by the solvent evaporation method and incubated on an orbital shaker (100 rpm) at • C in PBS at a pH of 7.4 (A, C) or 5.5 (B, D). Data are presented as a mean of three independent samples ± SD. Samples that had an undetectable size were assigned a value below the horizontal dashed line.
Fig. 5. ELP-P4 nanoparticles are as stable as P4 nanoparticles in water but not PBS. P4 nanoparticle size stability (A) and zeta potential (B) with and without elastin conjugation (ELP-P4), measured as a function of solvent (water and PBS) over 9 days. P4 nanoparticles in PBS exhibited the greatest stability in size and charge over 9 days. ELP-P4 maintained the same stability in water, as P4 only. However, ELP-P4 particles did begin to degrade in PBS at an earlier time point. Data are reported as a mean of three size measurements of one representative sample ± SD and zeta potential ± zeta deviation.
P4 PLGA is the most stable for nanoparticle formulations. Characterization of particles made by solvent evaporation using PLGAs with different molecular weights, terminal groups, and lactic acid to glycolic acid ratios.
PVA-P4 particle size and surface charge distribution evolves throughout the formulation process. Physical characterization of PVA-P4 nanoparticles at multiple steps during the single-emulsion method.
Impact of P4 and DNA concentration on nanoparticle size and zeta potential.
Formulation of stabilizer-free, nontoxic PLGA and elastin-PLGA nanoparticle delivery systems
  • Article
  • Full-text available

February 2021

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262 Reads

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27 Citations

International Journal of Pharmaceutics

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Jennifer S. Martinez

Biocompatible nanoparticles composed of poly(lactic-co-glycolic acid) (PLGA) are used as drug and vaccine delivery systems because of their tunability in size and sustained release of cargo molecules. While the use of toxic stabilizers such as polyvinyl alcohol (PVA) limit the utility of PLGA, stabilizer-free PLGA nanoparticles are rarely used because they can be challenging to prepare. Here, we developed a tunable, stabilizer-free PLGA nanoparticle formulation capable of encapsulating plasmid DNA and demonstrated the formation of an elastin-like polymer PLGA hybrid nanoparticle with exceptional stability and biocompatibility. A suite of PLGAs were fabricated using solvent evaporation methods and assessed for particle size and stability in water. We find that under physiological conditions (PBS at 37˚C), the most stable PLGA formulation (P4) was found to contain a greater L:G ratio (65:35), lower MW, and carboxyl terminus. Subsequent experiments determined P4 nanoparticles were as stable as those made with PVA, yet significantly less cytotoxic. Variation in particle size was achieved through altering PLGA stoichiometry while maintaining the ability to encapsulate DNA and were modified with elastin-like polymers for increased immune tolerance. Overall, a useful method for tunable, stabilizer-free PLGA nanoparticle formulation was developed for use in drug and vaccine delivery, and immune targeting.

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Recapitulation of HIV-1 Env-antibody coevolution in macaques leading to neutralization breadth

November 2020

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87 Reads

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63 Citations

Science

Convergent HIV evolution across species Human immunodeficiency virus (HIV) has a highly diverse envelope protein that it uses to target human cells, and the complexity of the viral envelope has stymied vaccine development. Roark et al. report that the immediate and short-term evolutionary potential of the HIV envelope is constrained because of a number of essential functions, including antibody escape. Consequently, when introduced into humans as HIV or into rhesus macaque monkeys as chimeric simian-human immunodeficiency virus, homologous envelope glycoproteins appear to exhibit conserved patterns of sequence evolution, in some cases eliciting broadly neutralizing antibodies in both hosts. Conserved patterns of envelope variation and homologous B cell responses in humans and monkeys represent examples of convergent evolution that may serve to guide HIV vaccine development. Science , this issue p. eabd2638


Recapitulation of HIV-1 Env-Antibody Coevolution in Macaques Leading to Neutralization Breadth

August 2020

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113 Reads

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4 Citations

Neutralizing antibodies elicited by HIV-1 coevolve with viral Envs in distinctive patterns, in some cases acquiring substantial breadth. Here we show that primary HIV-1 Envs, when expressed by simian-human immunodeficiency viruses in rhesus macaques, elicited patterns of Env-antibody coevolution strikingly similar to those in humans. This included conserved immunogenetic, structural and chemical solutions to epitope recognition and precise Env-amino acid substitutions, insertions and deletions leading to virus persistence. The structure of one rhesus antibody, capable of neutralizing 49% of a 208-strain panel, revealed a V2-apex mode of recognition like that of human bNAbs PGT145/PCT64-35M. Another rhesus antibody bound the CD4-binding site by CD4 mimicry mirroring human bNAbs 8ANC131/CH235/VRC01. Virus-antibody coevolution in macaques can thus recapitulate developmental features of human bNAbs, thereby guiding HIV-1 immunogen design. One sentence summary Virus-antibody coevolution in rhesus macaques recapitulates developmental features of human antibodies.


Vaccine strategies against encephalitic Alphavirus infections. (A) Schematic overview of encephalitic the Alphavirus structure, including the genome organization of nonstructural proteins (nsps), capsid (C), assembly protein (E3), spike glycoproteins (E2 and E1), and viroporin protein (6K). (B) Viral vector delivery of encephalitic Alphavirus genes (blue). (C) Plasmid DNA containing backbone (black) and encephalitic Alphavirus DNA (blue).
Strain origin and gene content of Alphavirus structural, protein-based, viral-vectored, and plasmid DNA vaccines. Venezuelan equine encephalitis virus (VEEV) vaccines are indicated in purple, Western (WEEV) vaccines in blue to green, and Eastern (EEEV) vaccines in orange to red; genes not included in a particular vaccine (NA) are indicated in white.
Matching of potential linear epitopes (9-amino-acid fragments) in natural sequences by selected vaccine candidates. Highly similar sequences were removed from an alignment of all available VEEV-clade, WEEV-clade, and EEEV-clade sequences in GenBank in November 2019. For each vaccine, the fraction of vaccine-matched 9-mers, “9-mer coverage”, was computed for each sequence; sequences were plotted in descending rank order of coverage. For example, for the E3 protein, vaccine pVXH-6 covers ~50% of WEEV isolates at a level of 82% of 9-mers or better (those to the left of the red dot), whereas 32% of isolates (those to the right of the gold dot, x-axis value 0.68 and above) are covered at a level of 41% or less. Colors identify candidate vaccines as in Figure 2.
Summary of recent recombinant vector vaccine candidates for Eastern, Venezuelan, and Western equine encephalitis viruses.
Summary of recent plasmid DNA vaccine candidates for Eastern, Venezuelan, and Western equine encephalitis viruses.
Vaccine Advances against Venezuelan, Eastern, and Western Equine Encephalitis Viruses

June 2020

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144 Reads

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35 Citations

Vaccinations are a crucial intervention in combating infectious diseases. The three neurotropic Alphaviruses, Eastern (EEEV), Venezuelan (VEEV), and Western (WEEV) equine encephalitis viruses, are pathogens of interest for animal health, public health, and biological defense. In both equines and humans, these viruses can cause febrile illness that may progress to encephalitis. Currently, there are no licensed treatments or vaccines available for these viruses in humans. Experimental vaccines have shown variable efficacy and may cause severe adverse effects. Here, we outline recent strategies used to generate vaccines against EEEV, VEEV, and WEEV with an emphasis on virus-vectored and plasmid DNA delivery. Despite candidate vaccines protecting against one of the three viruses, few studies have demonstrated an effective trivalent vaccine. We evaluated the potential of published vaccines to generate cross-reactive protective responses by comparing DNA vaccine sequences to a set of EEEV, VEEV, and WEEV genomes and determining the vaccine coverages of potential epitopes. Finally, we discuss future directions in the development of vaccines to combat EEEV, VEEV, and WEEV.


Figure 1. Immune-Evasion Concept Hierarchy. Adapted from www.ebi.ac.uk/QuickGO/term/GO:0030683 [32]. Most arrows indicate 'is a' relations, where the hierarchy is refined by specialization. Blue arrows indicate 'part of' relations, which relate to the symbiont process as parts to a whole.
Number of ELM Viral Motif Instances with Virus-Related or Immune-Related GO Terms
Examples of Viral Proteins That Mimic Host SLiMs, updated from [5]
Resources to Discover and Use Short Linear Motifs in Viral Proteins

August 2019

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153 Reads

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33 Citations

Trends in Biotechnology

Viral proteins evade host immune function by molecular mimicry, often achieved by short linear motifs (SLiMs) of three to ten consecutive amino acids (AAs). Motif mimicry tolerates mutations, evolves quickly to modify interactions with the host, and enables modular interactions with protein complexes. Host cells cannot easily coordinate changes to conserved motif recognition and binding interfaces under selective pressure to maintain critical signaling pathways. SLiMs offer potential for use in synthetic biology, such as better immunogens and therapies, but may also present biosecurity challenges. We survey viral uses of SLiMs to mimic host proteins, and information resources available for motif discovery. As the number of examples continues to grow, knowledge management tools are essential to help organize and compare new findings.



Clade C HIV-1 Envelope Vaccination Regimens Differ in Their Ability To Elicit Antibodies with Moderate Neutralization Breadth against Genetically Diverse Tier 2 HIV-1 Envelope Variants

March 2019

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195 Reads

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20 Citations

Despite much progress, we still do not have a clear understanding of how to elicit a protective neutralizing antibody response against HIV-1 through vaccination. There have been great strides in the development of envelope immunogens that mimic the virus particle, but less is known about how different vaccination modalities and adjuvants contribute to shaping the antibody response. We compared seven different vaccines that were administered to rhesus macaques and that delivered the same envelope protein through various modalities and with different adjuvants. The results demonstrate that some vaccine components are better than others at eliciting neutralizing antibodies with breadth.



HIV-1 Neutralizing Antibody Signatures and Application to Epitope-Targeted Vaccine Design

January 2019

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319 Reads

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128 Citations

Cell Host & Microbe

Eliciting HIV-1-specific broadly neutralizing antibodies (bNAbs) remains a challenge for vaccine development, and the potential of passively delivered bNAbs for prophylaxis and therapeutics is being explored. We used neutralization data from four large virus panels to comprehensively map viral signatures associated with bNAb sensitivity, including amino acids, hypervariable region characteristics, and clade effects across four different classes of bNAbs. The bNAb signatures defined for the variable loop 2 (V2) epitope region of HIV-1 Env were then employed to inform immunogen design in a proof-of-concept exploration of signature-based epitope targeted (SET) vaccines. V2 bNAb signature-guided mutations were introduced into Env 459C to create a trivalent vaccine, and immunization of guinea pigs with V2-SET vaccines resulted in increased breadth of NAb responses compared with Env 459C alone. These data demonstrate that bNAb signatures can be utilized to engineer HIV-1 Env vaccine immunogens capable of eliciting antibody responses with greater neutralization breadth.


Supplementary Material 3

January 2019

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9 Reads

Table S6. Machine Learning Informative Feature Contributions, Related to Figure 4 This table presents ranked signature features that were among the top 10 most informative sites for different antibodies of different classes. It has four sections, one for each antibody class, and each section lists the most important signature features for Classification and Regression predictions for each antibody tested from dataset 4. On the right are summaries of the number of times recurrent features are found. Different shades highlight different V loop characteristics. Bold indicates sites that were repeatedly informative for a number of antibodies (at least 4/11 times for CD4bs bNAbs, 3/6 times for V2 bNAbs, 3/6 times for V3 bNAbs, and 2/3 for MPER bNAbs). Blue indicates signature positions within epitope contact regions, and black indicates positions outside the contact region. NxST N332 and NxST N160 indicate a PNGS. Clades were only rarely among the most informative data for prediction.


Citations (27)


... Using ultrapure water as the aqueous phase led to PLGA precipitation on the PEEK tube at concentrations higher than 1 mg/mL PLGA in acetone and 5 mg/mL in acetonitrile. This is probably due to the lack of PLGA particle stabilisation in ultrapure water, whereas PVA can stabilise the particle formation [32]. The nanoparticle formulations prepared with PVA in ultrapure water had neutral zeta potentials (-5 to 0 mV). ...

Reference:

A Versatile, Low-Cost Modular Microfluidic System to Prepare Poly(Lactic-co-Glycolic Acid) Nanoparticles With Encapsulated Protein
Formulation of stabilizer-free, nontoxic PLGA and elastin-PLGA nanoparticle delivery systems

International Journal of Pharmaceutics

... mAbs tested for neutralization were produced by co-transfecting paired heavy and light chain expression plasmids into Expi293F cells using ExpiFectamine 293 transfection reagents (ThermoFisher Scientific), purified from culture supernatants using the Protein A/Protein G GraviTrap kit (GE Healthcare), and buffer-exchanged into PBS as described 66 . ...

Recapitulation of HIV-1 Env-antibody coevolution in macaques leading to neutralization breadth
  • Citing Article
  • November 2020

Science

... Horses and humans are dead-end hosts and do not contribute to further epizootic transmissions 7 . There are no effective treatments for active WEEV infection, but vaccines are available for the prophylactic therapy of equines 10 . ...

Vaccine Advances against Venezuelan, Eastern, and Western Equine Encephalitis Viruses

... The wealth of genomic resources made available by next-generation genome sequencing and decades of functional assays enabled researchers to inventory the molecular interaction modules that manifest organismal phenotypes in the Eukaryotic Linear Motif (ELM) resource [31]. Using the ELM prediction tool, selfish mimics of host protein SLiMs can be predicted in conflicting genomes [81]. Mimic proteins that travel through nuclear pore complexes require nuclear localization signals (NLSs) [82], which exhibit a variety of forms. ...

Resources to Discover and Use Short Linear Motifs in Viral Proteins

Trends in Biotechnology

... In doing so, we uncovered the 3-dimensional pathway these antibodies take to reach the bound or near-bound states on the Env, finding that epitope distant sites can be essential for antibody binding. This is consistent with findings from other methods such as the neutralization Env signature analysis, which identified non-contact Env signatures (both epitope proximal and distal) that show statistically robust associations with neutralization sensitivity to each class of bNAbs 29 . While it remains to be systematically investigated, we speculate that such non-contact Env residues could impact bNAb binding or neutralization because they lie in the transient antibody footprints of one or more of the encounter states, and ultimately modulate the probability of reaching the bound state. ...

HIV-1 Neutralizing Antibody Signatures and Application to Epitope-Targeted Vaccine Design

Cell Host & Microbe

... A heterologous vaccination regimen was used in this study, as ours and other groups have shown that heterologous vaccination regimens are more effective at inducing higher magnitude and better quality HIV-specific immune responses than homologous regimens [49,51,[64][65][66][67]. Inclusion of a modified vaccinia Ankara virus vaccine modality could further improve the levels of neutralising antibody titres. Ours and other groups have shown a DNA (D), MVA (M), protein (P) vaccination regimen (DDMMPP) elicits better neutralising antibody responses than other regimens, such as PPPP, MMPPP or DDMMM [34,68]. ...

Clade C HIV-1 Envelope Vaccination Regimens Differ in Their Ability To Elicit Antibodies with Moderate Neutralization Breadth against Genetically Diverse Tier 2 HIV-1 Envelope Variants

... During viral replication, HIV-1 Envs interact with the cellular CD4 receptor and CXCR4/CCR5 coreceptor to facilitate viral entry [5][6][7][8][9] . Since they are the sole viral proteins on HIV-1 surface, HIV-1 Envs are the only target of antibodies that can neutralize viral infection [10][11][12][13][14][15][16] . ...

HIV-1 Neutralizing Antibody Signatures and Application to Epitope-Targeted Vaccine Design
  • Citing Article
  • January 2019

Cell Host & Microbe

... Interestingly, we also found that at all time points neonatal SHIV infection elicited higher geometric mean titers of plasma NAbs against SHIV CH848 10.17 E169K (+V1 glycans) compared to adult SHIV infection, but this trend was not statistically significant (p > 0.2 for all tests) (Fig. 2B). That the neonates seemed to have higher titers of plasma NAbs against SHIV CH848 10.17 E169K lacking V1 glycans ( Fig. 2B) implied differences in the quality of NAbs elicited by neonates and dams, given that antibodies that target glycan holes on Env have been postulated to be strain-specific and difficult to mature to breadth for neutralization of heterologous HIV-1 strains 38,39 . ...

Completeness of HIV-1 Envelope Glycan Shield at Transmission Determines Neutralization Breadth

Cell Reports

... In this study, we designed a mosaic sequence called ZIKV-NS poly-epitope, enriched in immunodominant T cell epitopes located in the C, NS1, NS3, NS4B and NS5 proteins. We utilized a DNA vaccine platform using the tetrafunctional amphiphilic block copolymer 704 that has been shown to promote protective immunity against various cancers and viral infections [44][45][46][47]. We show that immunization of HLA-A*2402 and -B*0702 transgenic mice with a DNA encoding ZIKV-NS polyepitope formulated with 704 elicits a significant T cell response against numerous T cell epitopes and protection against ZIKV infection, in the absence of neutralizing or enhancing antibodies. ...

Amphiphilic block copolymer delivery of a DNA vaccine against Zika virus
  • Citing Article
  • October 2018

Vaccine

... NGS has also simplified the sequencing of complete viral genomes, allowing for the detection of mutations outside the traditional target regions for drug resistance genotyping [6][7][8][9][10][11][12], and for co-receptor tropism prediction [13][14][15][16][17]. The use of full-length genomes also facilitates the identification of transmission clusters [18,19], subtyping [20], and the detection of recombinant forms [21,22]. ...

Tracking HIV-1 recombination to resolve its contribution to HIV-1 evolution in natural infection