The biologic activity of polyanions: Past history and new prospectives

Regelson, William

doi:10.1002/polc.5070660144

Cited by 14 publications

(4 citation statements)

References 161 publications

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“…An attractive candidate for this approach is the copolymer of divinyl ether with maleic anhydride widely known as DIVEMA. This remarkable polymer extensively studied in the 70s and 80s exhibits the broad spectrum of biological activities such as induction of biological response to tumors, antiviral and antibacterial activity explained most probably by induction of interferon production and/or macrophage activation [11,12]. Due to this per se activity, DIVEMA became one of the rst synthetic polymers clinically tested as the anticancer agent; however, despite the antitumor activity evidenced in numerous preclinical studies, no signi cant effect was observed in humans [13,14].…”

Section: Introductionmentioning

confidence: 99%

Hybrid DIVEMA/PLGA nanoparticles as the potential drug delivery system

Gorshkova,

Vanchugova,

Osipova

et al. 2024

Preprint

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The hybrid nanoparticles (NP) consisting of poly(lactic-co-glycolic acid) (PLGA) and polyanionic copolymer of divinyl ether with maleic anhydride (DIVEMA) were prepared by the high pressure homogenization – solvent evaporation technique or by nanoprecipitation and evaluated by physicochemical and spectroscopic methods. The nanoparticles formed by PLGA (MM 7–17 kDa) and DIVEMA (MM 20 kDa or 80 kDa) at mass ratios from 1.2:1 to 8:1 had the hydrodynamic diameter of ~ 200 nm, negative zeta potentials of -33 to -40 mV, and were stable upon freeze-drying. The presence of DIVEMA in the PLGA nanoparticles improved their properties as the drug carrier. Thus, loading of the model drug doxorubicin was increased 2-fold and its release time was considerably extended. The enhanced surface functionality of the hybrid nanoparticles was demonstrated by a ~ 5-fold higher content of the surface-conjugated PEGylated bovine serum albumin as compared with the plain PLGA nanoparticles. The DIVEMA/PLGA NP exhibited low cytotoxicity and good hemocompatibility. This is the first study that describes the DIVEMA/PLGA NP and demonstrates their potential as the drug delivery system.

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Section: Introductionmentioning

confidence: 99%

Hybrid DIVEMA/PLGA nanoparticles as the potential drug delivery system

Gorshkova,

Vanchugova,

Osipova

et al. 2024

Preprint

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“…Polyelectrolytes are widely known for their immunostimulatory properties. [5][6][7] We recently introduced a novel adjuvant, termed SPA09, based on high molecular weight linear polyacrylate readily available and easy to formulate with vaccine antigens. 8 In previous studies in mice, SPA09 was found to work as a strong T H 1-type adjuvant when tested with various types of antigens including the recombinant glycoprotein CMV-gB and a Staphylococcus aureus polysaccharide conjugate (patent WO2017218819A1).…”

Section: Introductionmentioning

confidence: 99%

“…Polyelectrolytes are widely known for their immunostimulatory properties. 5–7 We recently introduced a novel polyelectrolyte adjuvant, termed SPA09, based on high molecular weight linear polyacrylate (PAA) readily available and easy to formulate with vaccine antigens. 8 …”

Section: Introductionmentioning

confidence: 99%

A novel vaccine adjuvant based on straight polyacrylate potentiates vaccine-induced humoral and cellular immunity in cynomolgus macaques

Pavot

Bisceglia

Guillaume

et al. 2021

Human Vaccines & Immunotherapeutics

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Adjuvants are central to the efficacy of subunit vaccines. Although several new adjuvants have been approved in human vaccines over the last decade, the panel of adjuvants in licensed human vaccines remains small. There is still a need for novel adjuvants that can be safely used in humans, easy to source and to formulate with a wide range of antigens and would be broadly applicable to a wide range of vaccines. In this article, using the Respiratory Syncytial Virus (RSV) nanoparticulate prefusion F model antigen developed by Sanofi, we demonstrate in the macaque model that the polyacrylate (PAA)-based adjuvant SPA09 is well tolerated and increases vaccine antigen-specific humoral immunity (sustained neutralizing antibodies, memory B cells and mucosal immunity) and elicits strong T H 1-type responses (based on IFNγ and IL-2 ELISpots) in a dose-dependent manner. These data warrant further development of the SPA09 adjuvant for evaluation in clinical trial.

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“…There is definitely a need for additional adjuvants that could be safely used in humans, would be easy to source and to formulate with a wide range of antigens and would be broadly applicable to a wide range of vaccines. In this regard, different studies indicated that polyacrylates (PAAs) in different forms and formats were safe and biocompatible and adjuvant active within a range of polymer sizes, doses, formulations and routes of administration compatible with vaccination ( Coucke et al, 2009 ; Cranage et al, 2011 ; De Clercq, 2010 ; Diamantstein et al, 1971 ; Gartlan et al, 2016 ; Hicks et al, 1989 ; Krashias et al, 2010 ; Kreuter and Haenzel, 1978 ; Mustafaev, 1996 ; Parker et al, 2009 ; Powell et al, 2015 ; Regelson, 1979 ; Wegmann et al, 2015 ; Zondlo Fiume, 2002 ). Among the adjuvant-active PAAs, one can find plain PAAs ( Diamantstein et al, 1971 ; Hilgers et al, 1998a ), PAA dendrimers ( Zaman et al, 2010 , 2011 ), PAA alkyl esters ( Hilgers et al, 2000 , 1998b ; Tifrea et al, 2011 ) and the crosslinked PAAs ( i.e.…”

Section: Introductionmentioning

confidence: 99%

A potent novel vaccine adjuvant based on straight polyacrylate

Garinot

Piras-Douce

Probeck

et al. 2020

International Journal of Pharmaceutics: X

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A structure-activity study was conducted to identify the structural characteristics underlying the adjuvant activity of straight ( i.e. non-crosslinked) polyacrylate polymers (PAAs) in order to select a new PAA adjuvant candidate for future clinical development. The study revealed that the adjuvant effect of PAA was mainly influenced by polymer size (Mw) and dose. Maximal effects were obtained with large PAAs above 350 kDa and doses above 100 μg in mice. Small PAAs below 10 kDa had virtually no adjuvant effect. HPSEC analysis revealed that PAA polydispersity index and ramification had less impact on adjuvanticity. Heat stability studies indicated that residual persulfate could be detrimental to PAA stability. Hence, this impurity was systematically eliminated by diafiltration along with small Mw PAAs and residual acrylic acid that could potentially affect product safety, potency and stability. The selected PAA, termed SPA09, displayed an adjuvant effect that was superior to that of a standard emulsion adjuvant when tested with CMV-gB in mice, even in the absence of binding to the antigen. The induced immune response was dominated by strong IFNγ, IgG2c and virus neutralizing titers. The activity of SPA09 was then confirmed on human cells via the innate immune module of the human MIMIC® system.

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The biologic activity of polyanions: Past history and new prospectives

Cited by 14 publications

References 161 publications

Hybrid DIVEMA/PLGA nanoparticles as the potential drug delivery system

Hybrid DIVEMA/PLGA nanoparticles as the potential drug delivery system

A novel vaccine adjuvant based on straight polyacrylate potentiates vaccine-induced humoral and cellular immunity in cynomolgus macaques

A potent novel vaccine adjuvant based on straight polyacrylate

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