Bioproduction and characterization of a pH responsive self‐assembling peptide

Riley, Jessica M.; Aggeli, Amalia; Koopmans, R. J.; McPherson, Michael J.

doi:10.1002/bit.22274

Cited by 43 publications

(45 citation statements)

References 26 publications

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Section: Resultsmentioning

confidence: 99%

“…The peptide Q11 was previously designed as a self-assembling transglutaminase substrate (22) and was a variation on the DN1 peptide originally described by Aggeli and coworkers (25,33). For the work reported here, we designed a peptide containing a Q11 selfassembling domain in tandem with OVA 323-339 , a 17-amino acid peptide from chicken egg ovalbumin (Fig.…”

Section: Resultsmentioning

confidence: 99%

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A self-assembling peptide acting as an immune adjuvant

Rudra¹,

Tian

Jung³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

457

503

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The development of vaccines and other immunotherapies has been complicated by heterogeneous antigen display and the use of incompletely defined immune adjuvants with complex mechanisms of action. We have observed strong antibody responses in mice without the coadministration of any additional adjuvant by noncovalently assembling a Tand B cell epitope peptide into nanofibers using a short C-terminal peptide extension. Self-assembling peptides have been explored recently as scaffolds for tissue engineering and regenerative medicine, but our results indicate that these materials may also be useful as chemically defined adjuvants. In physiological conditions, these peptides self-assembled into long, unbranched fibrils that displayed the epitope on their surfaces. IgG1, IgG2a, and IgG3 were raised against epitope-bearing fibrils in levels similar to the epitope peptide delivered in complete Freund's adjuvant (CFA), and IgM production was even greater for the self-assembled epitope. This response was dependent on self-assembly, and the self-assembling sequence was not immunogenic by itself, even when delivered in CFA. Undetectable levels of interferon-gamma, IL-2, and IL-4 in cultures of peptide-challenged splenocytes from immunized mice suggested that the antibody responses did not involve significant T cell help.The development of vaccines and other immunotherapies has been challenged by imprecise antigen display and the use of heterogeneous immune adjuvants whose mechanisms of action are complex and incompletely understood. Synthetic peptides are useful as antigens because their precise chemical definition allows one to specify the exact epitopes against which an immune response is to be raised. However, peptides are poorly immunogenic by themselves and require coadministration with strong adjuvants. Although many adjuvants have been investigated for peptide immunotherapies to date, current strategies such as particulates (1, 2), oil emulsions (3), toll-like receptor (TLR) ligands (4), immunostimulating complexes (ISCOMs) (5), and other biologically sourced materials (6, 7) utilize chemically or structurally heterogeneous materials, making their characterization, mechanistic understanding, and regulatory approval challenging (1,8,9). This situation has motivated the pursuit of self-adjuvanting or adjuvant-free systems (10-12).A broad goal in the field of biomaterials is to produce synthetic scaffolds capable of presenting multiple cell-interactive components in spatially resolved networks (13,14). To accomplish this, supramolecular self-assembly is rapidly becoming a synthetic method of choice (15-17). One strategy that has received attention recently is based on fibrillized peptides, peptidomimetics, and peptide derivatives, which are being explored for a variety of biomedical and biotechnological applications, most notably as scaffolds for regenerative medicine (18,19) and defined matrices for cell culture (20,21). In these applications, selfassembled materials provide several advantages, including multifunctiona...

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

A self-assembling peptide acting as an immune adjuvant

Rudra¹,

Tian

Jung³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

457

503

View full text Add to dashboard Cite

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“…One effective approach used to increase the proportion of target peptide in the expressed product is the incorporation of multiple copies of the target sequence. [310][311][312][313] However, the number of incorporated repeats cannot be increased indefinitely, and the higher repeat number constructs tend to display lower expression. [310][311][312][313] The optimal repeat numbers for expression must therefore be determined empirically for each expression system.…”

Section: Biological Expressionmentioning

confidence: 99%

“…The majority of published methods for the purification of expressed peptides utilise reversed phase, affinity or ion-exchange chromatography, either in single or sequential steps. 274,306,311,312,317,[341][342][343] This is due to the high level of purity attained with these methods as well as technique simplicity and adaptability for varied peptides. While these methods are effective at the laboratory scale for early peptide characterisation, chromatography-based approaches add significant cost to overall peptide production and are impractical for large-scale processes.…”

Section: Biological Expressionmentioning

confidence: 99%

“…349 Several of these biologically produced peptides display altered self-assembly compared to synthetically produced equivalents. 306,311,349 These examples illustrate the potential for sequence modifications to affect peptide properties. Given the limited range of cleavage methods available, it seems likely that compatibility of peptide sequences with these methods will be a limiting factor in determining sequences that are amenable to bioproduction.…”

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confidence: 98%

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Bioproduction and self-assembly of designer peptides

Fletcher¹

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Self-assembly is a powerful method for producing controlled morphologies at the nanometre scale. Peptides are biomolecules capable of self-assembly and have the potential for use in a variety of applications such as emulsion and foam stabilisation, wound healing and drug delivery. The investigation of peptide sequence-structure relationships is a rapidly advancing field of study, which in many cases now allows the targeted design of self-assembling peptides.While self-assembling peptides show potential in several fields, their large-scale adoption is limited by the high production expenses associated with conventional solid-phase synthesis. A potentially cheaper and more renewable approach to peptide production is bacterial expression. However, the bioproduction of peptides is a non-trivial process, and generally involves the expression of peptides as part of a fusion protein in which the target peptide is only a small portion of the expressed product. An alternate approach involves peptide concatemers, in which the target peptide makes up the majority of the expressed construct.The work reported in this thesis focused on the design, characterisation and bioproduction of self-assembling α-helical peptides. It was particularly focussed on the development of amphiphillic α-helical peptides with applications as surfactants and hydrogelators. The aim of this work was to further the field of de novo peptide design, while also investigating an approach for peptide bioproduction. This work aimed to combine the requirements for peptide bioproduction with end-use functionality.Chapter 2 details successful bioproduction of an anionic helical surfactant peptide EDP-11, as part of a charge-paired heteroconcatemer with the cationic expression partner RDP-4. The method utilised designed assembly of the constituent α-helical peptides to generate a stably folded coiled-coil concatemer. The polypeptide sequence was further optimized for molecular charge, hydropathy and predicted protease resistance. This process allowed expression of a soluble concatemer that accumulated to high levels (22% of total protein) in E. coli. The expressed concatemer possessed extreme stability to heat and proteases, allowing isolation by simple heat and pH precipitation, yielding concatemer at 130 mg per gram of dry cell weight and >99% purity. Key parameters used in designing the heteroconcatemer were then compared to those of all open reading frames of several reference ii proteomes in an attempt to gain insight into the mechanistic basis for the high stability of the designed miniprotein.Following bioproduction using this concatemer approach, further processing was required to produce monomeric peptides for use in surfactant applications. The design of acid-cleavable aspartate-proline sites within the concatemer sequence allowed for simple heat-and acid-mediated cleavage to give constituent peptides.Chapter 3 details characterization of cleavage of the expressed concatemer by coupled liquid chromatography-mass spectrometry and includes mod...

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Antimicrobial Peptides

Marcos¹,

Manzanares²

2011

Antimicrobial Polymers

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Antimicrobial peptides (AMPs), important effector molecules of the innate immune system, also provide templates for designing novel antibiotics. Protegrin, an especially potent AMP found in porcine leukocytes, was recently shown to form octameric transmembrane pores. We have employed a combination of experiments and models spanning length scales from the atomistic to the cellular level in order to elucidate the microbicidal mechanism of protegrin. Comparison of the modeling and experimental data suggests that approximately 10-100 protegrin pores are necessary to explain the observed rates of potassium leakage and Escherichia coli death in exponential-phase bacteria. The kinetics of viability loss suggest that bacterial death results largely from uncontrolled ion exchange processes and decay of transmembrane potential. However, ion exchange processes alone cannot account for the experimentally observed cell swelling and osmotic lysis-a redundant ''overkill'' mechanism most likely to occur in locales with high protegrin concentrations. Although our study is limited to protegrin and E. coli, the timeline of events described herein is likely shared by other AMPs that act primarily by permeabilizing microbial membranes. This work provides many of the missing links in describing antimicrobial action, as well as providing a quantitative connection between several previous experimental and simulation studies of protegrin.

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Bioproduction and characterization of a pH responsive self‐assembling peptide

Cited by 43 publications

References 26 publications

A self-assembling peptide acting as an immune adjuvant

A self-assembling peptide acting as an immune adjuvant

Bioproduction and self-assembly of designer peptides

Antimicrobial Peptides

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