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2. F‐domain valency determines outcome of signaling through the angiopoietin pathway.

Author

Zhao, Yan Ting, Fallas, Jorge A, Saini, Shally, Ueda, George, Somasundaram, Logeshwaran, Zhou, Ziben, Xavier Raj, Infencia, Xu, Chunfu, Carter, Lauren, Wrenn, Samuel, Mathieu, Julie, Sellers, Drew L, Baker, David, and Ruohola‐Baker, Hannele

Abstract

Angiopoietins 1 and 2 (Ang1 and Ang2) regulate angiogenesis through their similar F‐domains by activating Tie2 receptors on endothelial cells. Despite the similarity in the underlying receptor‐binding interaction, the two angiopoietins have opposite effects: Ang1 induces phosphorylation of AKT, strengthens cell–cell junctions, and enhances endothelial cell survival while Ang2 can antagonize these effects, depending on cellular context. To investigate the molecular basis for the opposing effects, we examined the phenotypes of a series of computationally designed protein scaffolds presenting the Ang1 F‐domain in a wide range of valencies and geometries. We find two broad phenotypic classes distinguished by the number of presented F‐domains: Scaffolds presenting 3 or 4 F‐domains have Ang2‐like activity, upregulating pFAK and pERK but not pAKT, while scaffolds presenting 6, 8, 12, 30, or 60 F‐domains have Ang1‐like activity, upregulating pAKT and inducing migration and vascular stability. The scaffolds with 6 or more F‐domains display super‐agonist activity, producing stronger phenotypes at lower concentrations than Ang1. Tie2 super‐agonist nanoparticles reduced blood extravasation and improved blood–brain barrier integrity four days after a controlled cortical impact injury. Synopsis: An array of synthetic ligands designed computationally allows to precisely delineate the molecular basis of the Angiopoietin‐Tie2 pathway and the role of receptor oligomerization and transmembrane signaling. F‐domain valency determines the activation of pAKT, pERK, and pFAK downstream of Tie2.High valency F‐domain superagonists promote integrin colocalization and actin rearrangement.F‐domain scaffold superagonists promote vascular stabilization in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published
2021
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3. Discovery and Characterization of Spike N‐Terminal Domain‐Binding Aptamers for Rapid SARS‐CoV‐2 Detection.

Author

Kacherovsky, Nataly, Yang, Lucy F., Dang, Ha V., Cheng, Emmeline L., Cardle, Ian I., Walls, Alexandra C., McCallum, Matthew, Sellers, Drew L., DiMaio, Frank, Salipante, Stephen J., Corti, Davide, Veesler, David, and Pun, Suzie H.

Subjects
APTAMERS, SARS-CoV-2, COVID-19, MOLECULAR recognition, VIRAL proteins, BINDING site assay
Abstract

The coronavirus disease 2019 (COVID‐19) pandemic has devastated families and disrupted healthcare, economies and societies across the globe. Molecular recognition agents that are specific for distinct viral proteins are critical components for rapid diagnostics and targeted therapeutics. In this work, we demonstrate the selection of novel DNA aptamers that bind to the SARS‐CoV‐2 spike glycoprotein with high specificity and affinity (<80 nM). Through binding assays and high resolution cryo‐EM, we demonstrate that SNAP1 (SARS‐CoV‐2 spike protein N‐terminal domain‐binding aptamer 1) binds to the S N‐terminal domain. We applied SNAP1 in lateral flow assays (LFAs) and ELISAs to detect UV‐inactivated SARS‐CoV‐2 at concentrations as low as 5×105 copies mL−1. SNAP1 is therefore a promising molecular tool for SARS‐CoV‐2 diagnostics. [ABSTRACT FROM AUTHOR]

Published
2021
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4. Discovery and Characterization of Spike N‐Terminal Domain‐Binding Aptamers for Rapid SARS‐CoV‐2 Detection.

Author

Kacherovsky, Nataly, Yang, Lucy F., Dang, Ha V., Cheng, Emmeline L., Cardle, Ian I., Walls, Alexandra C., McCallum, Matthew, Sellers, Drew L., DiMaio, Frank, Salipante, Stephen J., Corti, Davide, Veesler, David, and Pun, Suzie H.

Subjects
APTAMERS, SARS-CoV-2, COVID-19, MOLECULAR recognition, VIRAL proteins, BINDING site assay
Abstract

The coronavirus disease 2019 (COVID‐19) pandemic has devastated families and disrupted healthcare, economies and societies across the globe. Molecular recognition agents that are specific for distinct viral proteins are critical components for rapid diagnostics and targeted therapeutics. In this work, we demonstrate the selection of novel DNA aptamers that bind to the SARS‐CoV‐2 spike glycoprotein with high specificity and affinity (<80 nM). Through binding assays and high resolution cryo‐EM, we demonstrate that SNAP1 (SARS‐CoV‐2 spike protein N‐terminal domain‐binding aptamer 1) binds to the S N‐terminal domain. We applied SNAP1 in lateral flow assays (LFAs) and ELISAs to detect UV‐inactivated SARS‐CoV‐2 at concentrations as low as 5×105 copies mL−1. SNAP1 is therefore a promising molecular tool for SARS‐CoV‐2 diagnostics. [ABSTRACT FROM AUTHOR]

Published
2021
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5. Synthesis and Characterization of Anionic Poly(cyclopentadienylene vinylene) and Its Use in Conductive Hydrogels.

Author

Lee, Daniel C., Sellers, Drew L., Liu, Fan, Boydston, Andrew J., and Pun, Suzie H.

Subjects
POLYELECTROLYTES, CONDUCTING polymers, POLYMERS, RING-opening polymerization
Abstract

The use of π‐conjugated polymers (CPs) in conductive hydrogels remains challenging due to the water‐insoluble nature of most CPs. Conjugated polyelectrolytes (CPEs) are promising alternatives because they have tunable electronic properties and high water‐solubility, but they are often difficult to synthesize and thus have not been widely adopted. Herein, we report the synthesis of an anionic poly(cyclopentadienylene vinylene) (aPCPV) from an insulating precursor under mild conditions and in high yield. Functionalized aPCPV is a highly water‐soluble CPE that exhibits low cytotoxicity, and we found that doping hydrogels with aPCPV imparts conductivity. We also anticipate that this synthetic strategy, due to its ease and high efficiency, will be widely used to create families of not‐yet‐explored π‐conjugated vinylene polymers. [ABSTRACT FROM AUTHOR]

Published
2020
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6. Synthesis and Characterization of Anionic Poly(cyclopentadienylene vinylene) and Its Use in Conductive Hydrogels.

Author

Lee, Daniel C., Sellers, Drew L., Liu, Fan, Boydston, Andrew J., and Pun, Suzie H.

Subjects
POLYELECTROLYTES, CONDUCTING polymers, POLYMERS, RING-opening polymerization
Abstract

The use of π‐conjugated polymers (CPs) in conductive hydrogels remains challenging due to the water‐insoluble nature of most CPs. Conjugated polyelectrolytes (CPEs) are promising alternatives because they have tunable electronic properties and high water‐solubility, but they are often difficult to synthesize and thus have not been widely adopted. Herein, we report the synthesis of an anionic poly(cyclopentadienylene vinylene) (aPCPV) from an insulating precursor under mild conditions and in high yield. Functionalized aPCPV is a highly water‐soluble CPE that exhibits low cytotoxicity, and we found that doping hydrogels with aPCPV imparts conductivity. We also anticipate that this synthetic strategy, due to its ease and high efficiency, will be widely used to create families of not‐yet‐explored π‐conjugated vinylene polymers. [ABSTRACT FROM AUTHOR]

Published
2020
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9. Evolution of a designed protein assembly encapsulating its own RNA genome.

Author

Butterfield, Gabriel L., Lajoie, Marc J., Gustafson, Heather H., Sellers, Drew L., Nattermann, Una, Ellis, Daniel, Bale, Jacob B., Ke, Sharon, Lenz, Garreck H., Yehdego, Angelica, Ravichandran, Rashmi, Pun, Suzie H., King, Neil P., and Baker, David

Abstract

The challenges of evolution in a complex biochemical environment, coupling genotype to phenotype and protecting the genetic material, are solved elegantly in biological systems by the encapsulation of nucleic acids. In the simplest examples, viruses use capsids to surround their genomes. Although these naturally occurring systems have been modified to change their tropism and to display proteins or peptides, billions of years of evolution have favoured efficiency at the expense of modularity, making viral capsids difficult to engineer. Synthetic systems composed of non-viral proteins could provide a 'blank slate' to evolve desired properties for drug delivery and other biomedical applications, while avoiding the safety risks and engineering challenges associated with viruses. Here we create synthetic nucleocapsids, which are computationally designed icosahedral protein assemblies with positively charged inner surfaces that can package their own full-length mRNA genomes. We explore the ability of these nucleocapsids to evolve virus-like properties by generating diversified populations using Escherichia coli as an expression host. Several generations of evolution resulted in markedly improved genome packaging (more than 133-fold), stability in blood (from less than 3.7% to 71% of packaged RNA protected after 6 hours of treatment), and in vivo circulation time (from less than 5 minutes to approximately 4.5 hours). The resulting synthetic nucleocapsids package one full-length RNA genome for every 11 icosahedral assemblies, similar to the best recombinant adeno-associated virus vectors. Our results show that there are simple evolutionary paths through which protein assemblies can acquire virus-like genome packaging and protection. Considerable effort has been directed at 'top-down' modification of viruses to be safe and effective for drug delivery and vaccine applications; the ability to design synthetic nanomaterials computationally and to optimize them through evolution now enables a complementary 'bottom-up' approach with considerable advantages in programmability and control. [ABSTRACT FROM AUTHOR]

Published
2017
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10. Non-Viral Nucleic Acid Delivery Strategies to the Central Nervous System.

Author

Tan, James-Kevin Y., Sellers, Drew L., Binhan Pham, Pun, Suzie H., and Horner, Philip J.

Subjects
CENTRAL nervous system physiology, NUCLEIC acids, THERAPEUTICS, NEUROLOGICAL disorders
Abstract

With an increased prevalence and understanding of central nervous system (CNS) injuries and neurological disorders, nucleic acid therapies are gaining promise as a way to regenerate lost neurons or halt disease progression. While more viral vectors have been used clinically as tools for gene delivery, non-viral vectors are gaining interest due to lower safety concerns and the ability to deliver all types of nucleic acids. Nevertheless, there are still a number of barriers to nucleic acid delivery. In this focused review, we explore the in vivo challenges hindering non-viral nucleic acid delivery to the CNS and the strategies and vehicles used to overcome them. Advantages and disadvantages of different routes of administration including: systemic injection, cerebrospinal fluid injection, intraparenchymal injection and peripheral administration are discussed. Non-viral vehicles and treatment strategies that have overcome delivery barriers and demonstrated in vivo gene transfer to the CNS are presented. These approaches can be used as guidelines in developing synthetic gene delivery vectors for CNS applications and will ultimately bring non-viral vectors closer to clinical application. [ABSTRACT FROM AUTHOR]

Published
2016
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12. Targeted axonal import (TAxI) peptide delivers functional proteins into spinal cord motor neurons after peripheral administration.

Author

Sellers, Drew L., Bergen, Jamie M., Johnson, Russell N., Back, Heidi, Ravits, John M., Horner, Philip J., and Pun, Suzie H.

Subjects
NEURODEGENERATION, PROTEOMICS, BIOMOLECULES, MACROMOLECULAR synthesis, BIOMACROMOLECULES
Abstract

A significant unmet need in treating neurodegenerative disease is effective methods for delivery of biologic drugs, such as peptides, proteins, or nucleic acids into the central nervous system (CNS). To date, there are no operative technologies for the delivery of macromolecular drugs to the CNS via peripheral administration routes. Using an in vivo phage-display screen, we identify a peptide, targeted axonal import (TAxI), that enriched recombinant bacteriophage accumulation and delivered protein cargo into spinal cord motor neurons after intramuscular injection. In animals with transected peripheral nerve roots, TAxI delivery into motor neurons after peripheral administration was inhibited, suggesting a retrograde axonal transport mechanism for delivery into the CNS. Notably, TAxI-Cre recombinase fusion proteins induced selective recombination and tdTomato-reporter expression in motor neurons after intramuscular injections. Furthermore, TAxI peptide was shown to label motor neurons in the human tissue. The demonstration of a nonviral-mediated delivery of functional proteins into the spinal cord establishes the clinical potential of this technology for minimally invasive administration of CNS-targeted therapeutics. [ABSTRACT FROM AUTHOR]

Published
2016
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16. Remyelination reporter reveals prolonged refinement of spontaneously regenerated myelin.

Author

Powers, Berit E., Sellers, Drew L., Lovelett, Emilie A., Cheung, Willy, Aalami, Sheida P., Zapertov, Nikolai, Maris, Don O., and Horner, Philip J.

Subjects
DEMYELINATION, MYELIN, LABORATORY mice, REGENERATION (Biology), AXONAL transport, RECOMBINASES
Abstract

Neurological diseases and trauma often cause demyelination, resuiting in the disruption of axonal function and integrity. Endogenous remyelination promotes recovery, but the process is not weii understood because no method exists to definitively distinguish regenerated from preexisting myelin. To date, remyelinated segments have been defined as anything abnormally short and thin, without empirical data to corroborate these morphological assumptions. To definitively identify regenerated myelin, we used a transgenic mouse with an inducible membrane-bound reporter and targeted Cre recombinase expression to a subset of glial progenitor cells after spinal cord injury, yielding remarkably clear visualization of spontaneously regenerated myelin in vivo. Early after injury, the mean length of sheaths regenerated by Schwann cells and oligoden-drocytes (OLs) was significantly shorter than control, uninjured myelin, confirming past assumptions. However, OL-regenerated sheaths elongated progressively over 6 mo to approach control values. Moreover, OL-regenerated myelin thickness was not signif- icantly different from control myelin at most time points after injury. Thus, many newly formed OL sheaths were neither thinner nor shorter than control myelin, vitiating accepted dogmas of what constitutes regenerated myelin. We conclude that remyelination, once thought to be static, is dynamic and elongates independently of axonal growth, in contrast to stretch-based mechanisms proposed in development. Further, without clear identification, past assessments have underestimated the extent and quality of regenerated myelin. [ABSTRACT FROM AUTHOR]

Published
2013
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17. Fmr1 Transcript Isoforms: Association with Polyribosomes; Regional and Developmental Expression in Mouse Brain.

Author

Brackett, David M., Qing, Feng, Amieux, Paul S., Sellers, Drew L., Horner, Philip J., and Morris, David R.

Subjects
DEVELOPMENTAL biology, GENE expression, INTELLECTUAL disabilities, CENTRAL nervous system, MESSENGER RNA, NEUROBIOLOGY, PROTEIN synthesis, LABORATORY mice
Abstract

The primary transcript of the mammalian Fragile X Mental Retardation-1 gene (Fmr1), like many transcripts in the central nervous system, is alternatively spliced to yield mRNAs encoding multiple proteins, which can possess quite different biochemical properties. Despite the fact that the relative levels of the 12 Fmr1 transcript isoforms examined here vary by as much as two orders of magnitude amongst themselves in both adult and embryonic mouse brain, all are associated with polyribosomes, consistent with translation into the corresponding isoforms of the protein product, FMRP (Fragile X Mental Retardation Protein). Employing the RiboTag methodology developed in our laboratory, the relative proportions of the 7 most abundant transcript isoforms were measured specifically in neurons and found to be similar to those identified in whole brain. Measurements of isoform profiles across 11 regions of adult brain yielded similar distributions, with the exceptions of the hippocampus and the olfactory bulb. These two regions differ from most of the brain in relative amounts of transcripts encoding an alternate form of one of the KH RNA binding domains. A possible relationship between patterns of expression in the hippocampus and olfactory bulb and the presence of neuroblasts in these two regions is suggested by the isoform patterns in early embryonic brain and in cultured neural progenitor cells. These results demonstrate that the relative levels of the Fmr1 isoforms are modulated according to developmental stage, highlighting the complex ramifications of losing all the protein isoforms in individuals with Fragile X Syndrome. It should also be noted that, of the eight most prominent FMRP isoforms (1–3, 6–9 and 12) in mouse, only two have the major site of phosphorylation at Ser-499, which is thought to be involved in some of the regulatory interactions of this protein. [ABSTRACT FROM AUTHOR]

Published
2013
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18. Postinjury Niches Induce Temporal Shifts in Progenitor Fates to Direct Lesion Repair after Spinal Cord Injury.

Author

Sellers, Drew L., Maris, Don O., and Horner, Philip J.

Subjects
SPINAL cord injuries, PROTEOGLYCANS, OLIGODENDROGLIA, BONE morphogenetic proteins, ASTROCYTES, ENDOSOMES, MYELIN basic protein
Abstract

Progenitors that express NG2-proteoglycan are the predominant self-renewing cells within the CNS. NG2 progenitors replenish oligodendrocyte populations within the intact stem cell niche, and cycling NG2 cells are among the first cells to react to CNS insults. We investigated the role of NG2 progenitors after spinal cord injury and how bone morphogen protein signals remodel the progressive postinjury (PI) niche. Progeny labeled by an NG2-specific reporter virus undergo a coordinated shift in differentiation profile. NG2 progeny born 24 h PI produce scar-forming astrocytes and transient populations of novel phagocytic astrocytes shown to contain denatured myelin within cathepsin-D-labeled endosomes, but NG2 progenitors born 7 d PI differentiate into oligodendrocytes and express myelin on processes that wrap axons. Analysis of spinal cordmRNAshows a temporal shift in the niche transcriptome of ligands that affect PI remodeling and direct progenitor differentiation. We conclude that NG2 progeny are diverse lineages that obey progressive cues after trauma to replenish the injured niche. [ABSTRACT FROM AUTHOR]

Published
2009
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19. Adult spinal cord progenitor cells are repelled by netrin-1 in the embryonic and injured adult spinal cord.

Author

Petit, Audrey, Sellers, Drew L., Liebl, Daniel J., Tessier-Lavigne, Marc, Kennedy, Timothy E., and Horner, Philip J.

Subjects
SPINAL cord, CENTRAL nervous system, STEM cells, CELL migration, NEUROSCIENCES, CELL death, MESSENGER RNA
Abstract

Adult neural progenitor cells (aNPC5) exhibit limited migration in vivo with the exception of the rostral migratory stream and injury-induced movement. Surprisingly little is known regarding those signals regulating attraction or inhibition of the aNPC. These studies demonstrate that aNPC5 respond principally to a repulsive cue expressed at the embryonic floor plate (FP) and also the injured adult CNS. Adult spinal cord progenitor cells (aSCP5) were seeded onto organotypic slice preparations of the intact embryonic or injured adult spinal cord. Cell migration assays combined with genetic and molecular perturbation of FP-derived migration cues or aSCP receptors establish netrin-1 (Ntn-1) but not Slit-2, Shh, or Ephrin-B3 as the primary FP-derived repellant. When slices were prepared from injured spinal cord, aSCP migration away from the injury core was Ntn-1-dependent. These studies establish Ntn-1 as a critical regulator of aSCP migration in the intact and injured CNS. [ABSTRACT FROM AUTHOR]

Published
2007
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20. Instructive niches: environmental instructions that confound NG2 proteoglycan expression and the fate-restriction of CNS progenitors.

Author

Sellers, Drew L. and Horner, Philip J.

Subjects
PROTEOGLYCANS, CELL proliferation, CENTRAL nervous system, GLYCOPROTEINS, CELL populations, CYTOLOGY, MEDICAL research
Abstract

Cellullar deficits are replenished within the central nervous system (CNS) by progenitors to maintain integrity and recover function after injury. NG2 proteoglycan-expressing progenitors replenish oligodendrocyte populations, but the nature of NG2 proteoglycan may not indicate a restricted population of progenitors. After injury, restorative spatiotemporal cues have the potential ability to regulate divergent fate-choices for NG2 progenitors, and NG2 progenitors are known to produce multiple cell types in vitro. Recent data suggest that NG2 expression is attenuated while protein levels remain high within injurious tissue; thus, NG2 expression is not static but transiently controlled in response to a dynamic interplay of environmental cues. Therefore, NG2 proteoglycan expression could label newly generated cells or be inherited by resident cell populations that produce oligodendrocytes for remyelination, astrocytes that provide trophic support and other cells that contribute to CNS function. [ABSTRACT FROM AUTHOR]

Published
2005
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