Dj. Brayden et al., Encapsulation in biodegradable microparticles enhances serum antibody response to parenterally-delivered beta-amyloid in mice, VACCINE, 19(30), 2001, pp. 4185-4193
Poly(lactide-co-glycolide) (PLG) microspheres were tested as a parenteral d
elivery system for human R-amyloid (1-42) (A beta), a potential immunothera
peutic undergoing assessment in Phase 1 studies for Alzheimer's disease (AD
). A beta was successfully encapsulated in PLG microspheres of average size
s of 3 or 15 mum diameter. Swiss Webster (SW) mice were injected by the sub
-cutaneous (s.c.) or intra-peritoneal (i.p.) routes with 3-33 mug A beta. A
beta -PLG microparticles (3 mum) induced dose-dependent antibody responses
, which were maximal at 33 Vg A beta, while A beta in phosphate-buffered sa
line (PBS) produced weak antibody responses at the same doses by both route
s. Significantly increased antibody responses were seen for both small and
large particle formulations given by the i.p. route in comparison to the s.
c route. It was previously reported that passive immunisation with A beta -
specific antibodies cleared amyloid plaques in a mouse model of AD (Bard F,
Cannon C, Barbour R, et al. Peripherally administered antibodies against a
myloid beta -peptide enter the nervous system and reduce pathology in a mou
se model of Alzheimer disease. Nature Med 2000;6:916-19), an indication tha
t induction of serum antibody is a prerequisite for efficacy. (C) 2001 Else
vier Science Ltd. All rights reserved.