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Document Description
Title
Identification
of
Pygopus
2
as a
component
of the
ribosomal
RNA
transcription
complex
in
cancer
Author
He
,
Zhijian.
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
2009.
Medicine
Date
2008
Pagination
xii, 99 leaves : col. ill.
Subject
Cancer
cells--Growth;
Cellular
signal
transduction;
Genetic
transcription;
Wnt
proteins;
Subject.MESH
Intracellular
Signaling
Peptides
and
Proteins;
Ovarian
Neoplasms--physiopathology;
Epithelial
Cells;
Wnt
Proteins
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Faculty of Medicine
Discipline
Medicine
Language
Eng
Notes
Includes
bibliographical
references
(leaves
80-96)
Abstract
Background:
Pygopus
was
initially
validated
as a
co-activator
for the
canonical
Wnt
signaling
pathway
, a
critical
intracellular
cascade
implicated
both
in
development
and
cancer.
Further
studies
indicated
that
Pygopus
appears
to have
both
Wnt-dependent
and
Wnt-independent
functions.
Our
lab
has
demonstrated
that
human
Pygopus
2
(hPygo2)
was
overexpressed
and
required
for
Epithelial
Ovarian
Cancer
cell
growth
in the
absence
of
Wnt
signaling.
Purpose:
The
purpose
of this
thesis
was to
investigate
the
mechanism
of
Wnt-independent
requirement
of
hPygo2
for
Epithelial
Ovarian
Cancer
cell
growth.
--
Hypothesis
and
Objectives:
I
hypothesized
that
hPygo2
achieves
Wnt-independent
functions
in
Epithelial
Ovarian
Cancer
via
interacting
with
protein
factors
not
related
to
Wnt
signaling.
Therefore
,
three
objectives
were
proposed
in this
thesis:
1)
to
determine
minimal
domain(s)
of
hPygo2
required
for
Wnt-independent
Epithelial
Ovarian
Cancer
cell
growth;
2)
to
identify
potential
protein
factors
that
interact
with this
critical
domain;
and
3)
to
characterize
the
identified
interactions.
--
Results:
Objective
1).
The
transfection
of
hPygo2-specific
antisense
oligonucleotides
in
Wnt-inactive
Epithelial
Ovarian
Cancer
cell
line
,
SKOV-3
led
to
cell
growth
arrest
, as
shown
previously.
To
assess
the
sequence
requirements
of
hPygo2
for
SKOV-3
cell
growth
,
plasmids
encoding
various
mutant
hPygo2
with
site-specific
alterations
within
the
transcriptional
activation
domain
(N-terminal
Homology
Domain
,
NHD)
or
Wnt-mediating
domain
(Plant
Homeodomain
,
PHD)
were
transfected
in the
hPygo-2-specific
antisense
treated
SKOV-3
cells.
Like
wild-type
hPygo2
,
mutant
hPygo2
proteins
with
alterations
in the
PHD
that
prevented
their
Wnt-mediating
ability
restored
the
growth
levels
of
antisense-treated
SKOV-3
cells.
On the
other
hand
,
hPygo2
protein
with
mutations
in the
transcriptional
activation
NHD
domain
,
failed
to
restore
cell
growth.
Objective
2).
Using
a
proteomics
approach
,
I
identified
several
possible
proteins
including
p68
,
RNA
helicases
II/Gu
,
Nop56
, and
Treacle
protein
from
SKOV-3
nuclear
extracts
that
bound
to the
NHD
domain.
Objective
3).
The
treacle
protein
was
identified
to have the
highest
probability
of
interaction
with
hPygo2.
This
interaction
was
confirmed
in
vitro
and in
vivo
, in
cancer
cells.
Immunofluorescence
assays
indicated
that
Treacle
colocalized
with
hPygo2
in the
nucleoli
of
SKOV-3
and
HeLa
cancer
cells.
Actinomycin
D
treatment
in
HeLa
cells
suggested
that
hPygo2
is
a
fibrillar
component
of the
nucleolus
and
may
be
involved
in
transcription
or
early
modification
of
premature
ribosomal
RNAs.
--
Conclusions:
The
NHD
, but not the
PHD
domain
, of
hPygo2
protein
is
required
for
Wnt-independent
SKOV-3
cell
proliferation.
The
hPygo2
interacts
with
Treacle
through
its
NHD
domain
and
co-localizes
with
Treacle
to the
fibrillar
compartment
of
nucleolus
in
cancer
cells.
Thus
, these
results
suggest
one
of the
Wnt-independent
functions
of
hPygo2
is
involved
in
ribosomal
biogenesis.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a3242028
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(12.61
MB)
--
http://collections.mun.ca/PDFs/theses/He_Zhijian.pdf
CONTENTdm file name
47968.cpd
