Carrie Sanders scite author profile

Background: Naturally acquired immune responses to Plasmodium falciparum merozoite surface protein 3 (MSP3) and UB05 are implicated in semi immunity in populations living in malaria endemic areas. Thus designing chimeric malaria vaccine candidates involving MSP-3 and UB05 displayed upon the surface of a phage in its native form could potentiate their immunogenicity and antigenicity. In this study, we have engineered both MSP3 and UB05 upon the Qβ and assessed their antigenicity with plasma from children living in a high malaria transmission region of Cameroon. Methods: The surface of the RNA coliphage Qβ was genetically modified to display three Plasmodium falciparum derived immunogens including MSP3, UB05 and a chimera of the two UB05-MSP3. The resultant recombinant phages including QβMSP3, QβUB05 and QβUB05-MSP3 with surface displayed malaria immunogens were produced after transformation of the E. coli strain HB101. Plasma levels of antigen specific IgG antibody were then determined in samples from malaria positive and negative children living in a high malaria transmission region of Cameroon. Results: To improve yield each recombinant phage was scaled up to 10 14 pfu/ml using production strategies previously optimized in our group. This was significantly higher (P<0.001) relative to the 10 8 pfu/ml of the wild type C li nical M ic r o b io logy : O p e n Acces s

show abstract

Comparative analysis of IgG Responses to recombinant Qβ phage displayed MSP3 and UB05 in Dual HIV-malaria infected adults living in areas differing in Malaria transmission intensities

Lissom

Ouambo

Megnekou

et al. 2018

Preprint

View full text Add to dashboard Cite

Immunoglobulin G specific responses againstPlasmodium falciparummerozoite antigens such as the merozoite surface protein 3 (MSP3) and UB05 are known to play critical roles in parasitemia control and protection from symptomatic illness. However when there is intense perennial malaria transmission coupled with concurrent infection with the human immunodeficiency virus type 1 (HIV), knowledge of IgG antibody response profiles is limited. In this study we assessed the impact of dual HIV-Malaria infections on IgG subclass responses to MSP3 (QβMSP3) and UB05 (QβUB05) in individuals living in two areas of Cameroon differing in transmission intensity. We observed differences in antigen specific IgG and IgG subclass responses which was dependent upon the antigen type, malaria transmission intensity, HIV infection, malaria infection and dual HIV-malaria infections. Individuals living in high malaria transmission areas irrespective of HIV or malaria status had significantly higher IgG responses to both antigens (P=0.0001 for QβMSP3, P=0.0001 for QβUB05) than their counterpart from low transmission areas. When dual HIV-Malaria infection is considered significantly higher QβMSP3 specific IgG1 (P=0.0001) and IgG3 (P=0.04) responses in double negative individuals was associated with protection against malaria in low transmission areas. Superior QβUBO5 specific IgG1 responses (P=0.0001) in double negative individuals were associated with protection in high transmission areas in contrast to significantly higher IgG3 responses to QβUB05 (P=0.0001) which were more relevant to protection in low malaria transmission areas in the same population. Thus, understanding immune responses to QβUB05 and QβMSP3 could facilitate the development of immunotherapeutic strategies suitable for areas differing in malaria transmission intensity.

show abstract

Function of the RNA Coliphage Qβ Proteins in Medical In Vitro Evolution

Singleton

Sanders

Jones

et al. 2018

MPs

View full text Add to dashboard Cite

Qβ is a positive (+) single-stranded RNA bacteriophage covered by a 25 nm icosahedral shell. Qβ belongs to the family of Leviviridae and is found throughout the world (bacterial isolates and sewage). The genome of Qβ is about 4.2 kb, coding for four proteins. This genome is surrounded by 180 copies of coat proteins (capsomers) each comprised of 132 residues of amino acids. The other proteins, the subunit II (β) of a replicase, the maturation protein (A 2 ) and the read-through or minor coat protein (A 1 ), play a key role in phage infection. With the replicase protein, which lacks proofreading activity, as well as its short replication time, and high population size, Qβ phage has attractive features for in vitro evolution. The A 1 protein gene shares the same initiation codon with the coat protein gene and is produced during translation when the coat protein’s UGA stop codon triplet (about 400 nucleotides from the initiation) is suppressed by a low level of ribosome misincorporation of tryptophan. Thus, A 1 is termed the read-through protein. This RNA phage platform technology not only serves to display foreign peptides but is also exceptionally suited to address questions about in vitro evolution. The C-terminus of A 1 protein confers to this RNA phage platform an exceptional feature of not only a linker for foreign peptide to be displayed also a model for evolution. This platform was used to present a peptide library of the G-H loop of the capsid region P1 of the foot-and-mouth disease virus (FMDV) called VP1 protein. The library was exposed on the exterior surface of Qβ phages, evolved and selected with the monoclonal antibodies (mAbs) SD6 of the FMDV. These hybrid phages could principally be good candidates for FMDV vaccine development. Separately, the membrane proximal external region (MPER) of human immunodeficiency virus type 1 (HIV-1) epitopes was fused with the A 1 proteins and exposed on the Qβ phage exterior surface. The engineered phages with MPER epitopes were recognized by anti-MPER specific antibodies. This system could be used to overcome the challenge of effective presentation of MPER to the immune system. A key portion of this linear epitope could be randomized and evolved with the Qβ system. Overall, antigens and epitopes of RNA viruses relevant to public health can be randomized, evolved and selected in pools using the proposed Qβ model to overcome their plasticity and the challenge of vaccine development. Major epitopes of a particular virus can be engineered or displayed on the Qβ phage surface and used for vaccine efficacy evaluation, thus avoiding the use of live viruses.

show abstract

Carbon Substitution on N₂₄ Cages: Crossover between Triangular and Hexagonal Structures

Sanders

Strout

2013

Journal of Chemistry

View full text Add to dashboard Cite

Complex forms of nitrogen are of interest for their potential as high-energy materials, but many all-nitrogen systems lack the stability for practical high-energy applications. Inclusion of carbon atoms in an otherwise all-nitrogen structure can increase stability. Nitrogen cages are known for energetically preferring cylindrical structures with triangular endcaps, but carbon cages prefer the pentagon-hexagon structure of the fullerenes. Previous calculations on N 22 C 2 have shown that carbon inclusion narrows the gap between triangular and fullerene-like structures. In the current study, three isomers of N 24 are used as frameworks for carbon substitution. Theoretical calculations are carried out on isomers of N 20 C 4 , N 18 C 6 , and N 16 C 8 , with the goal of determining what level of carbon substitution causes the carbon fullerene-like structures to become energetically preferred.

show abstract

Strategies for Remediating Environmental Pollution, and Applicable Indicators for Identifying them: Mini Review

Egbo

Saber

Sanders

et al. 2019

BJSTR

View full text Add to dashboard Cite

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Carrie Sanders

Surface Engineering of the RNA Coliphage Q? to Display Plasmodium Falciparum Derived Asexual Blood Stage Antigens UB05 and Merozoite Surface Protein 3

Comparative analysis of IgG Responses to recombinant Qβ phage displayed MSP3 and UB05 in Dual HIV-malaria infected adults living in areas differing in Malaria transmission intensities

Function of the RNA Coliphage Qβ Proteins in Medical In Vitro Evolution

Carbon Substitution on N₂₄ Cages: Crossover between Triangular and Hexagonal Structures

Strategies for Remediating Environmental Pollution, and Applicable Indicators for Identifying them: Mini Review

Contact Info

Product

Resources

About

Carrie Sanders

Surface Engineering of the RNA Coliphage Q? to Display Plasmodium Falciparum Derived Asexual Blood Stage Antigens UB05 and Merozoite Surface Protein 3

Comparative analysis of IgG Responses to recombinant Qβ phage displayed MSP3 and UB05 in Dual HIV-malaria infected adults living in areas differing in Malaria transmission intensities

Function of the RNA Coliphage Qβ Proteins in Medical In Vitro Evolution

Carbon Substitution on N24 Cages: Crossover between Triangular and Hexagonal Structures

Strategies for Remediating Environmental Pollution, and Applicable Indicators for Identifying them: Mini Review

Contact Info

Product

Resources

About

Carbon Substitution on N₂₄ Cages: Crossover between Triangular and Hexagonal Structures