Member of
Contributors
Publisher
Florida Atlantic University
Date Issued
2016
EDTF Date Created
2016
Description
The magnitude of immune responses to vaccination
is a critical factor in determining protection from diseases.
We reported that nicotine disrupts the properties
of DCs that are pivotal in the initiation of immune
response to vaccines. Here we investigated whether
TLR agonist(s) could overcome the effects of nicotine
on human DC and DC-NK cross-talk essential
for effector T cell generation. nicDC, nicDC-NK, and
nicDC-NK-T cultures exposed to TLR agonists were
evaluated for expression of costimulatory molecules,
cytokines, and intracellular cytokine IFN-g using ELISA
and flow cytometry. Our data shows that among
the TLR agonists, TLR3 and TLR8/7 synergistically
optimized nicDC maturation co-cultured NK cell activation.
Importantly, similar to DC-NK, nicDC-NK treated
with TLR3 and TLR8/7 and co-cultured with naïve
T cells promoted a comparable number of effector T
cells. Our data suggest that the addition of appropriate
TLR agonist(s) to vaccine formulation could potentially
improve the smokers’ immune response to
vaccination.
is a critical factor in determining protection from diseases.
We reported that nicotine disrupts the properties
of DCs that are pivotal in the initiation of immune
response to vaccines. Here we investigated whether
TLR agonist(s) could overcome the effects of nicotine
on human DC and DC-NK cross-talk essential
for effector T cell generation. nicDC, nicDC-NK, and
nicDC-NK-T cultures exposed to TLR agonists were
evaluated for expression of costimulatory molecules,
cytokines, and intracellular cytokine IFN-g using ELISA
and flow cytometry. Our data shows that among
the TLR agonists, TLR3 and TLR8/7 synergistically
optimized nicDC maturation co-cultured NK cell activation.
Importantly, similar to DC-NK, nicDC-NK treated
with TLR3 and TLR8/7 and co-cultured with naïve
T cells promoted a comparable number of effector T
cells. Our data suggest that the addition of appropriate
TLR agonist(s) to vaccine formulation could potentially
improve the smokers’ immune response to
vaccination.
Language
Type
Genre
Form
Extent
1 p.
Subject (Topical)
Identifier
FA00005554
Date Backup
2016
Date Created Backup
2016
Date Text
2016
Date Created (EDTF)
2016
Date Issued (EDTF)
2016
Extension
FAU
IID
FA00005554
Organizations
Attributed name: Office of Undergraduate Research and Inquiry
Person Preferred Name
Abu-Nuwar, Emily
Physical Description
application/pdf
1 p.
Title Plain
Selected TLR Agonists Act in Synergy to Reprogram DC-NK Cross-talk and Generate Effector T cells in Nicotinic Environment
Origin Information
2016
2016
Florida Atlantic University
Boca Raton, Florida
Physical Location
Florida Atlantic University Libraries
Place
Boca Raton, Florida
Sub Location
Digital Library
Title
Selected TLR Agonists Act in Synergy to Reprogram DC-NK Cross-talk and Generate Effector T cells in Nicotinic Environment
Other Title Info
Selected TLR Agonists Act in Synergy to Reprogram DC-NK Cross-talk and Generate Effector T cells in Nicotinic Environment