NaCl strongly modifies the physicochemical properties of aluminum hydroxide vaccine adjuvants

[Display omitted] The immunostimulation capacity of most vaccines is enhanced through antigen adsorption on aluminum hydroxide (AH) adjuvants. Varying the adsorption conditions, i.e. pH and ionic strength (I), changes the antigen adsorbed amount and therefore the ability of the vaccine to stimulate...

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Published in:International journal of pharmaceutics 2017-01, Vol.517 (1-2), p.226-233
Main Authors: Art, Jean-François, vander Straeten, Aurélien, Dupont-Gillain, Christine C.
Format: Article
Language:English
Subjects:
Adjuvants, Immunologic - chemistry
Adsorption
AFM
Aluminum Hydroxide - chemistry
Aluminum hydroxide adjuvant
Freeze Drying
Gold - chemistry
Ionic strength
Microscopy, Atomic Force
Microscopy, Electrochemical, Scanning
Nitrogen - chemistry
Osmolar Concentration
Photoelectron Spectroscopy
Powders - chemistry
Sodium chloride
Sodium Chloride - chemistry
Specific surface area
Surface Properties
Suspensions - chemistry
Vaccine formulation
XPS
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container_end_page 233
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container_title International journal of pharmaceutics
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creator Art, Jean-François
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description [Display omitted] The immunostimulation capacity of most vaccines is enhanced through antigen adsorption on aluminum hydroxide (AH) adjuvants. Varying the adsorption conditions, i.e. pH and ionic strength (I), changes the antigen adsorbed amount and therefore the ability of the vaccine to stimulate the immune system. Vaccine formulations are thus resulting from an empirical screening of the adsorption conditions. This work aims at studying the physicochemical effects of adjusting the ionic strength of commercial AH adjuvant particles suspensions with sodium chloride (NaCl). X-ray photoelectron spectroscopy data show that AH particles surface chemical composition is neither altered by I adjustment with NaCl nor by deposition on gold surfaces. The latter result provides the opportunity to use AH-coated gold surfaces as a platform for advanced surface analysis of adjuvant particles, e.g. by atomic force microscopy (AFM). The morphology of adjuvant particles recovered from native and NaCl-treated AH suspensions, as studied by scanning electron microscopy and AFM, reveals that AH particles aggregation state is significantly altered by NaCl addition. This is further confirmed by nitrogen adsorption experiments: I adjustment to 150mM with NaCl strongly promotes AH particles aggregation leading to a strong decrease of the developed specific surface area. This work thus evidences the effect of NaCl on AH adjuvant structure, which may lead to alteration of formulated vaccines and to misinterpretation of data related to antigen adsorption on adjuvant particles.
doi_str_mv 10.1016/j.ijpharm.2016.12.019
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Varying the adsorption conditions, i.e. pH and ionic strength (I), changes the antigen adsorbed amount and therefore the ability of the vaccine to stimulate the immune system. Vaccine formulations are thus resulting from an empirical screening of the adsorption conditions. This work aims at studying the physicochemical effects of adjusting the ionic strength of commercial AH adjuvant particles suspensions with sodium chloride (NaCl). X-ray photoelectron spectroscopy data show that AH particles surface chemical composition is neither altered by I adjustment with NaCl nor by deposition on gold surfaces. The latter result provides the opportunity to use AH-coated gold surfaces as a platform for advanced surface analysis of adjuvant particles, e.g. by atomic force microscopy (AFM). The morphology of adjuvant particles recovered from native and NaCl-treated AH suspensions, as studied by scanning electron microscopy and AFM, reveals that AH particles aggregation state is significantly altered by NaCl addition. This is further confirmed by nitrogen adsorption experiments: I adjustment to 150mM with NaCl strongly promotes AH particles aggregation leading to a strong decrease of the developed specific surface area. 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Varying the adsorption conditions, i.e. pH and ionic strength (I), changes the antigen adsorbed amount and therefore the ability of the vaccine to stimulate the immune system. Vaccine formulations are thus resulting from an empirical screening of the adsorption conditions. This work aims at studying the physicochemical effects of adjusting the ionic strength of commercial AH adjuvant particles suspensions with sodium chloride (NaCl). X-ray photoelectron spectroscopy data show that AH particles surface chemical composition is neither altered by I adjustment with NaCl nor by deposition on gold surfaces. The latter result provides the opportunity to use AH-coated gold surfaces as a platform for advanced surface analysis of adjuvant particles, e.g. by atomic force microscopy (AFM). The morphology of adjuvant particles recovered from native and NaCl-treated AH suspensions, as studied by scanning electron microscopy and AFM, reveals that AH particles aggregation state is significantly altered by NaCl addition. This is further confirmed by nitrogen adsorption experiments: I adjustment to 150mM with NaCl strongly promotes AH particles aggregation leading to a strong decrease of the developed specific surface area. 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subjects Adjuvants, Immunologic - chemistry
Adsorption
AFM
Aluminum Hydroxide - chemistry
Aluminum hydroxide adjuvant
Freeze Drying
Gold - chemistry
Ionic strength
Microscopy, Atomic Force
Microscopy, Electrochemical, Scanning
Nitrogen - chemistry
Osmolar Concentration
Photoelectron Spectroscopy
Powders - chemistry
Sodium chloride
Sodium Chloride - chemistry
Specific surface area
Surface Properties
Suspensions - chemistry
Vaccine formulation
XPS
title NaCl strongly modifies the physicochemical properties of aluminum hydroxide vaccine adjuvants
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