Regulation of Treg functionality by acetylation-mediated Foxp3 protein stabilization.
Publication date
2010
Authors
Loosdregt, J. van
Vercoulen, Y.
Guichelaar, T.
Gent, Y.Y.J.
Beekman, J.M.
Beekum, P.O van
Brenkman, A.B.
Hijnen, D.J.
Mutis, T.
Kalkhoven, E.
Editors
Advisors
Supervisors
Document Type
Article
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(c) UU Universiteit Utrecht, 2010
Abstract
Regulatory T cells (Tregs) are a specific
subset of lymphocytes that are critical for
the maintenance of self-tolerance. Expression
levels of the transcription factor
Foxp3 have been causally associated with
Treg differentiation and function. Recent
studies show that Foxp3 can also be
transiently expressed in effector T cells;
however, stable Foxp3 expression is required
for development of a functional
Treg suppressor phenotype. Here, we
demonstrate that Foxp3 is acetylated, and
this can be reciprocally regulated by the
histone acetyltransferase p300 and the
histone deacetylase SIRT1. Hyperacetylation
of Foxp3 prevented polyubiquitination
and proteasomal degradation, therefore
dramatically increasing stable Foxp3
protein levels. Moreover, using mouse
splenocytes, human peripheral blood
mononuclear cells, T cell clones, and
skin-derived T cells, we demonstrate that
treatment with histone deacetylase inhibitors
resulted in significantly increased
numbers of functional Treg cells. Taken
together, our data demonstrate that modulation
of the acetylation state of Foxp3
provides a novel molecular mechanism
for assuring rapid temporal control of
Foxp3 levels in T cells, thereby regulating
Treg numbers and functionality. Manipulating
Foxp3 acetylation levels could
therefore provide a new therapeutic strategy
to control inappropriate (auto)immune
responses.
Keywords
Econometric and Statistical Methods: General, Geneeskunde (GENK), Geneeskunde(GENK)