posted on 2017-06-02, 00:00authored byPaul T. Bremer, Joel E. Schlosburg, Matthew L. Banks, Floyd. F. Steele, Bin Zhou, Justin L. Poklis, Kim D. Janda
Heroin is a highly
abused opioid and incurs a significant detriment
to society worldwide. In an effort to expand the limited pharmacotherapy
options for opioid use disorders, a heroin conjugate vaccine was developed
through comprehensive evaluation of hapten structure, carrier protein,
adjuvant and dosing. Immunization of mice with an optimized heroin-tetanus
toxoid (TT) conjugate formulated with adjuvants alum and CpG oligodeoxynucleotide
(ODN) generated heroin “immunoantagonism”, reducing
heroin potency by >15-fold. Moreover, the vaccine effects proved
to
be durable, persisting for over eight months. The lead vaccine was
effective in rhesus monkeys, generating significant and sustained
antidrug IgG titers in each subject. Characterization of both mouse
and monkey antiheroin antibodies by surface plasmon resonance (SPR)
revealed low nanomolar antiserum affinity for the key heroin metabolite,
6-acetylmorphine (6AM), with minimal cross reactivity to clinically
used opioids. Following a series of heroin challenges over six months
in vaccinated monkeys, drug-sequestering antibodies caused marked
attenuation of heroin potency (>4-fold) in a schedule-controlled
responding
(SCR) behavioral assay. Overall, these preclinical results provide
an empirical foundation supporting the further evaluation and potential
clinical utility of an effective heroin vaccine in treating opioid
use disorders.